Hematology News

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

A version of this article originally appeared on Medscape.com.

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

A version of this article originally appeared on Medscape.com.

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

A version of this article originally appeared on Medscape.com.

It’s not often that a high school brawl with gang members sets you down a path to becoming a Harvard-trained doctor. But that’s exactly how Alister Martin’s life unfolded.

Alister Martin, MD, had initially planned to follow in his stepfather’s footsteps, managing the drug store in Neptune, N.J., township where he was raised. But a fight changed his prospects. 

In retrospect, he should have seen the whole thing coming. That night at the party, his best friend was attacked by a gang member from a nearby high school. Martin was not in a gang but he jumped into the fray to defend his friend. 

“I wanted to save the day, but that’s not what happened,” he says. “There were just too many of them.”

When his mother rushed to the hospital, he was so bruised and bloody that she couldn’t recognize him at first. Ever since he was a baby, she had done her best to shield him from the neighborhood where gang violence was a regular disruption. But it hadn’t worked. 

“My high school had a zero-tolerance policy for gang violence,” Martin says, “so even though I wasn’t in a gang, I was kicked out.”

Now expelled from high school, his mother wanted him out of town, fearing gang retaliation, or that Martin might seek vengeance on the boy who had brutally beaten him. So, the biology teacher and single mom who worked numerous jobs to keep them afloat, came up with a plan to get him far away from any temptations.

Martin had loved tennis since middle school, when his 8th-grade math teacher, Billie Weise, also a tennis pro, got him a job as a court sweeper at an upscale tennis club nearby. He knew nothing then about tennis but would come to fall in love with the sport. To get her son out of town, Martin’s mother took out loans for $30,000 and sent him to a Florida tennis training camp.

After 6 months of training, Martin, who earned a GED degree while attending the camp, was offered a scholarship to play tennis at Rutgers University in New Brunswick, N.J. The transition to college was tough, however. He was nervous and felt out of place. “I could have died that first day. It became so obvious how poorly my high school education had prepared me for this.”

But the unease he felt was also motivating in a way. Worried about failure, “he locked himself in a room with another student and they studied day and night,” recalls Kamal Khan, director of the office for diversity and academic success at Rutgers. “I’ve never seen anything like it.”

And Martin displayed other attributes that would draw others to him – and later prove important in his career as a doctor. His ability to display empathy and interact with students and teachers separated him from his peers, Mr. Khan says. “There’re a lot of really smart students out there,” he says, “but not many who understand people like Martin.”

After graduating, he decided to pursue his dream of becoming a doctor. He’d wanted to be a doctor since he was 10 years old after his mom was diagnosed with metastatic breast cancer. He remembers overhearing a conversation she was having with a family friend about where he would go if she died. 

“That’s when I knew it was serious,” he says.

Doctors saved her life, and it’s something he’ll never forget. But it wasn’t until his time at Rutgers that he finally had the confidence to think he could succeed in medical school.

Martin went on to attend Harvard Medical School and Harvard Kennedy School of Government as well as serving as chief resident at Brigham and Women’s Hospital. He was also a fellow at the White House in the Office of the Vice President and today, he’s an assistant professor at Harvard Medical School in Boston..

He is most at home in the emergency room at Massachusetts General Hospital, where he works as an emergency medical specialist. For him, the ER is the first line of defense for meeting the community’s health needs. Growing up in Neptune, the ER “was where poor folks got their care,” he says. His mom worked two jobs and when she got off work at 8 p.m. there was no pediatrician open. “When I was sick as a kid we always went to the emergency room,” he says.

While at Harvard, he also pursued a degree from the Kennedy School of Government, because of the huge role he feels that politics play in our health care system and especially in bringing care to impoverished communities. And since then he’s taken numerous steps to bridge the gap.

Addiction, for example, became an important issue for Martin, ever since a patient he encountered in his first week as an internist. She was a mom of two who had recently gotten surgery because she broke her ankle falling down the stairs at her child’s daycare, he says. Prescribed oxycodone, she feared she was becoming addicted and needed help. But at the time, there was nothing the ER could do. 

“I remember that look in her eyes when we had to turn her away,” he says. 

Martin has worked to change protocol at his hospital and others throughout the nation so they can be better set up to treat opioid addiction. He’s the founder of GetWaivered, an organization that trains doctors throughout the country to use evidence-based medicine to manage opioid addiction. In the U.S. doctors need what’s called a DEA X waiver to be able to prescribe buprenorphine to opioid-addicted patients. That means that currently only about 1% of all emergency room doctors nationwide have the waiver and without it, it’s impossible to help patients when they need it the most.

Shuhan He, MD, an internist with Martin at Massachusetts General Hospital who also works on the GetWaivered program, says Martin has a particular trait that helps him be successful. 

“He’s a doer and when he sees a problem, he’s gonna try and fix it.”

A version of this article first appeared on Medscape.com.

It’s not often that a high school brawl with gang members sets you down a path to becoming a Harvard-trained doctor. But that’s exactly how Alister Martin’s life unfolded.

Alister Martin, MD, had initially planned to follow in his stepfather’s footsteps, managing the drug store in Neptune, N.J., township where he was raised. But a fight changed his prospects. 

In retrospect, he should have seen the whole thing coming. That night at the party, his best friend was attacked by a gang member from a nearby high school. Martin was not in a gang but he jumped into the fray to defend his friend. 

“I wanted to save the day, but that’s not what happened,” he says. “There were just too many of them.”

When his mother rushed to the hospital, he was so bruised and bloody that she couldn’t recognize him at first. Ever since he was a baby, she had done her best to shield him from the neighborhood where gang violence was a regular disruption. But it hadn’t worked. 

“My high school had a zero-tolerance policy for gang violence,” Martin says, “so even though I wasn’t in a gang, I was kicked out.”

Now expelled from high school, his mother wanted him out of town, fearing gang retaliation, or that Martin might seek vengeance on the boy who had brutally beaten him. So, the biology teacher and single mom who worked numerous jobs to keep them afloat, came up with a plan to get him far away from any temptations.

Martin had loved tennis since middle school, when his 8th-grade math teacher, Billie Weise, also a tennis pro, got him a job as a court sweeper at an upscale tennis club nearby. He knew nothing then about tennis but would come to fall in love with the sport. To get her son out of town, Martin’s mother took out loans for $30,000 and sent him to a Florida tennis training camp.

After 6 months of training, Martin, who earned a GED degree while attending the camp, was offered a scholarship to play tennis at Rutgers University in New Brunswick, N.J. The transition to college was tough, however. He was nervous and felt out of place. “I could have died that first day. It became so obvious how poorly my high school education had prepared me for this.”

But the unease he felt was also motivating in a way. Worried about failure, “he locked himself in a room with another student and they studied day and night,” recalls Kamal Khan, director of the office for diversity and academic success at Rutgers. “I’ve never seen anything like it.”

And Martin displayed other attributes that would draw others to him – and later prove important in his career as a doctor. His ability to display empathy and interact with students and teachers separated him from his peers, Mr. Khan says. “There’re a lot of really smart students out there,” he says, “but not many who understand people like Martin.”

After graduating, he decided to pursue his dream of becoming a doctor. He’d wanted to be a doctor since he was 10 years old after his mom was diagnosed with metastatic breast cancer. He remembers overhearing a conversation she was having with a family friend about where he would go if she died. 

“That’s when I knew it was serious,” he says.

Doctors saved her life, and it’s something he’ll never forget. But it wasn’t until his time at Rutgers that he finally had the confidence to think he could succeed in medical school.

Martin went on to attend Harvard Medical School and Harvard Kennedy School of Government as well as serving as chief resident at Brigham and Women’s Hospital. He was also a fellow at the White House in the Office of the Vice President and today, he’s an assistant professor at Harvard Medical School in Boston..

He is most at home in the emergency room at Massachusetts General Hospital, where he works as an emergency medical specialist. For him, the ER is the first line of defense for meeting the community’s health needs. Growing up in Neptune, the ER “was where poor folks got their care,” he says. His mom worked two jobs and when she got off work at 8 p.m. there was no pediatrician open. “When I was sick as a kid we always went to the emergency room,” he says.

While at Harvard, he also pursued a degree from the Kennedy School of Government, because of the huge role he feels that politics play in our health care system and especially in bringing care to impoverished communities. And since then he’s taken numerous steps to bridge the gap.

Addiction, for example, became an important issue for Martin, ever since a patient he encountered in his first week as an internist. She was a mom of two who had recently gotten surgery because she broke her ankle falling down the stairs at her child’s daycare, he says. Prescribed oxycodone, she feared she was becoming addicted and needed help. But at the time, there was nothing the ER could do. 

“I remember that look in her eyes when we had to turn her away,” he says. 

Martin has worked to change protocol at his hospital and others throughout the nation so they can be better set up to treat opioid addiction. He’s the founder of GetWaivered, an organization that trains doctors throughout the country to use evidence-based medicine to manage opioid addiction. In the U.S. doctors need what’s called a DEA X waiver to be able to prescribe buprenorphine to opioid-addicted patients. That means that currently only about 1% of all emergency room doctors nationwide have the waiver and without it, it’s impossible to help patients when they need it the most.

Shuhan He, MD, an internist with Martin at Massachusetts General Hospital who also works on the GetWaivered program, says Martin has a particular trait that helps him be successful. 

“He’s a doer and when he sees a problem, he’s gonna try and fix it.”

A version of this article first appeared on Medscape.com.

It’s not often that a high school brawl with gang members sets you down a path to becoming a Harvard-trained doctor. But that’s exactly how Alister Martin’s life unfolded.

Alister Martin, MD, had initially planned to follow in his stepfather’s footsteps, managing the drug store in Neptune, N.J., township where he was raised. But a fight changed his prospects. 

In retrospect, he should have seen the whole thing coming. That night at the party, his best friend was attacked by a gang member from a nearby high school. Martin was not in a gang but he jumped into the fray to defend his friend. 

“I wanted to save the day, but that’s not what happened,” he says. “There were just too many of them.”

When his mother rushed to the hospital, he was so bruised and bloody that she couldn’t recognize him at first. Ever since he was a baby, she had done her best to shield him from the neighborhood where gang violence was a regular disruption. But it hadn’t worked. 

“My high school had a zero-tolerance policy for gang violence,” Martin says, “so even though I wasn’t in a gang, I was kicked out.”

Now expelled from high school, his mother wanted him out of town, fearing gang retaliation, or that Martin might seek vengeance on the boy who had brutally beaten him. So, the biology teacher and single mom who worked numerous jobs to keep them afloat, came up with a plan to get him far away from any temptations.

Martin had loved tennis since middle school, when his 8th-grade math teacher, Billie Weise, also a tennis pro, got him a job as a court sweeper at an upscale tennis club nearby. He knew nothing then about tennis but would come to fall in love with the sport. To get her son out of town, Martin’s mother took out loans for $30,000 and sent him to a Florida tennis training camp.

After 6 months of training, Martin, who earned a GED degree while attending the camp, was offered a scholarship to play tennis at Rutgers University in New Brunswick, N.J. The transition to college was tough, however. He was nervous and felt out of place. “I could have died that first day. It became so obvious how poorly my high school education had prepared me for this.”

But the unease he felt was also motivating in a way. Worried about failure, “he locked himself in a room with another student and they studied day and night,” recalls Kamal Khan, director of the office for diversity and academic success at Rutgers. “I’ve never seen anything like it.”

And Martin displayed other attributes that would draw others to him – and later prove important in his career as a doctor. His ability to display empathy and interact with students and teachers separated him from his peers, Mr. Khan says. “There’re a lot of really smart students out there,” he says, “but not many who understand people like Martin.”

After graduating, he decided to pursue his dream of becoming a doctor. He’d wanted to be a doctor since he was 10 years old after his mom was diagnosed with metastatic breast cancer. He remembers overhearing a conversation she was having with a family friend about where he would go if she died. 

“That’s when I knew it was serious,” he says.

Doctors saved her life, and it’s something he’ll never forget. But it wasn’t until his time at Rutgers that he finally had the confidence to think he could succeed in medical school.

Martin went on to attend Harvard Medical School and Harvard Kennedy School of Government as well as serving as chief resident at Brigham and Women’s Hospital. He was also a fellow at the White House in the Office of the Vice President and today, he’s an assistant professor at Harvard Medical School in Boston..

He is most at home in the emergency room at Massachusetts General Hospital, where he works as an emergency medical specialist. For him, the ER is the first line of defense for meeting the community’s health needs. Growing up in Neptune, the ER “was where poor folks got their care,” he says. His mom worked two jobs and when she got off work at 8 p.m. there was no pediatrician open. “When I was sick as a kid we always went to the emergency room,” he says.

While at Harvard, he also pursued a degree from the Kennedy School of Government, because of the huge role he feels that politics play in our health care system and especially in bringing care to impoverished communities. And since then he’s taken numerous steps to bridge the gap.

Addiction, for example, became an important issue for Martin, ever since a patient he encountered in his first week as an internist. She was a mom of two who had recently gotten surgery because she broke her ankle falling down the stairs at her child’s daycare, he says. Prescribed oxycodone, she feared she was becoming addicted and needed help. But at the time, there was nothing the ER could do. 

“I remember that look in her eyes when we had to turn her away,” he says. 

Martin has worked to change protocol at his hospital and others throughout the nation so they can be better set up to treat opioid addiction. He’s the founder of GetWaivered, an organization that trains doctors throughout the country to use evidence-based medicine to manage opioid addiction. In the U.S. doctors need what’s called a DEA X waiver to be able to prescribe buprenorphine to opioid-addicted patients. That means that currently only about 1% of all emergency room doctors nationwide have the waiver and without it, it’s impossible to help patients when they need it the most.

Shuhan He, MD, an internist with Martin at Massachusetts General Hospital who also works on the GetWaivered program, says Martin has a particular trait that helps him be successful. 

“He’s a doer and when he sees a problem, he’s gonna try and fix it.”

A version of this article first appeared on Medscape.com.

Pregnant and scared, Natasha Valle went to a Tennova Healthcare hospital, Clarksville, Tenn., in January 2021 because she was bleeding. She didn’t know much about miscarriage, but this seemed like one.

In the emergency department, she was examined then sent home, she said. She went back when her cramping became excruciating. Then home again. It ultimately took three trips to the ED on 3 consecutive days, generating three separate bills, before she saw a doctor who looked at her blood work and confirmed her fears.

“At the time I wasn’t thinking, ‘Oh, I need to see a doctor,’ ” Ms. Valle recalled. “But when you think about it, it’s like, ‘Well, dang – why didn’t I see a doctor?’ ” It’s unclear whether the repeat visits were due to delays in seeing a physician, but the experience worried her. And she’s still paying the bills.

The hospital declined to discuss Ms. Valle’s care, citing patient privacy. But 17 months before her 3-day ordeal, Tennova had outsourced its emergency departments to American Physician Partners, a medical staffing company owned by private equity investors. APP employs fewer doctors in its EDs as one of its cost-saving initiatives to increase earnings, according to a confidential company document obtained by KHN and NPR.

This staffing strategy has permeated hospitals, and particularly emergency departments, that seek to reduce their top expense: physician labor. While diagnosing and treating patients was once their domain, doctors are increasingly being replaced by nurse practitioners and physician assistants, collectively known as “midlevel practitioners,” who can perform many of the same duties and generate much of the same revenue for less than half of the pay.

“APP has numerous cost saving initiatives underway as part of the Company’s continual focus on cost optimization,” the document says, including a “shift of staffing” between doctors and midlevel practitioners.

In a statement to KHN, American Physician Partners said this strategy is a way to ensure all EDs remain fully staffed, calling it a “blended model” that allows doctors, nurse practitioners, and physician assistants “to provide care to their fullest potential.”

Critics of this strategy say the quest to save money results in treatment meted out by someone with far less training than a physician, leaving patients vulnerable to misdiagnoses, higher medical bills, and inadequate care. And these fears are bolstered by evidence that suggests dropping doctors from EDs may not be good for patients.

A working paper, published in October by the National Bureau of Economic Research, analyzed roughly 1.1 million visits to 44 EDs throughout the Veterans Health Administration, where nurse practitioners can treat patients without oversight from doctors.

Researchers found that treatment by a nurse practitioner resulted on average in a 7% increase in cost of care and an 11% increase in length of stay, extending patients’ time in the ED by minutes for minor visits and hours for longer ones. These gaps widened among patients with more severe diagnoses, the study said, but could be somewhat mitigated by nurse practitioners with more experience.

The study also found that ED patients treated by a nurse practitioner were 20% more likely to be readmitted to the hospital for a preventable reason within 30 days, although the overall risk of readmission remained very small.

Yiqun Chen, PhD, who is an assistant professor of economics at the University of Illinois at Chicago and coauthored the study, said these findings are not an indictment of nurse practitioners in the ED. Instead, she said, she hopes the study will guide how to best deploy nurse practitioners: in treatment of simpler patients or circumstances when no doctor is available.

“It’s not just a simple question of if we can substitute physicians with nurse practitioners or not,” Dr. Chen said. “It depends on how we use them. If we just use them as independent providers, especially ... for relatively complicated patients, it doesn’t seem to be a very good use.”

Dr. Chen’s research echoes smaller studies, like one from The Harvey L. Neiman Health Policy Institute that found nonphysician practitioners in EDs were associated with a 5.3% increase in imaging, which could unnecessarily increase bills for patients. Separately, a study at the Hattiesburg Clinic in Mississippi found that midlevel practitioners in primary care – not in the emergency department – increased the out-of-pocket costs to patients while also leading to worse performance on 9 of 10 quality-of-care metrics, including cancer screenings and vaccination rates.

But definitive evidence remains elusive that replacing ER doctors with nonphysicians has a negative impact on patients, said Cameron Gettel, MD, an assistant professor of emergency medicine at Yale University, New Haven, Conn. Private equity investment and the use of midlevel practitioners rose in lockstep in the ED, Dr. Gettel said, and in the absence of game-changing research, the pattern will likely continue.

“Worse patient outcomes haven’t really been shown across the board,” he said. “And I think until that is shown, then they will continue to play an increasing role.”
 

For private equity, dropping ED docs is a “simple equation”

Private equity companies pool money from wealthy investors to buy their way into various industries, often slashing spending and seeking to flip businesses in 3 to 7 years. While this business model is a proven moneymaker on Wall Street, it raises concerns in health care, where critics worry the pressure to turn big profits will influence life-or-death decisions that were once left solely to medical professionals.

Nearly $1 trillion in private equity funds have gone into almost 8,000 health care transactions over the past decade, according to industry tracker PitchBook, including buying into medical staffing companies that many hospitals hire to manage their emergency departments.

Two firms dominate the ED staffing industry: TeamHealth, bought by private equity firm Blackstone in 2016, and Envision Healthcare, bought by KKR in 2018. Trying to undercut these staffing giants is American Physician Partners, a rapidly expanding company that runs EDs in at least 17 states and is 50% owned by private equity firm BBH Capital Partners.

These staffing companies have been among the most aggressive in replacing doctors to cut costs, said Robert McNamara, MD, a founder of the American Academy of Emergency Medicine and chair of emergency medicine at Temple University, Philadelphia.

“It’s a relatively simple equation,” Dr. McNamara said. “Their No. 1 expense is the board-certified emergency physician. So they are going to want to keep that expense as low as possible.”

Not everyone sees the trend of private equity in ED staffing in a negative light. Jennifer Orozco, president of the American Academy of Physician Associates, which represents physician assistants, said even if the change – to use more nonphysician providers – is driven by the staffing firms’ desire to make more money, patients are still well served by a team approach that includes nurse practitioners and physician assistants.

“Though I see that shift, it’s not about profits at the end of the day,” Ms. Orozco said. “It’s about the patient.”

The “shift” is nearly invisible to patients because hospitals rarely promote branding from their ED staffing firms and there is little public documentation of private equity investments.

Arthur Smolensky, MD, a Tennessee emergency medicine specialist attempting to measure private equity’s intrusion into EDs, said his review of hospital job postings and employment contracts in 14 major metropolitan areas found that 43% of ED patients were seen in EDs staffed by companies with nonphysician owners, nearly all of whom are private equity investors.

Dr. Smolensky hopes to publish his full study, expanding to 55 metro areas, later this year. But this research will merely quantify what many doctors already know: The ED has changed. Demoralized by an increased focus on profit, and wary of a looming surplus of emergency medicine residents because there are fewer jobs to fill, many experienced doctors are leaving the ED on their own, he said.

“Most of us didn’t go into medicine to supervise an army of people that are not as well trained as we are,” Dr. Smolensky said. “We want to take care of patients.”
 

“I guess we’re the first guinea pigs for our ER”

Joshua Allen, a nurse practitioner at a small Kentucky hospital, snaked a rubber hose through a rack of pork ribs to practice inserting a chest tube to fix a collapsed lung.

It was 2020, and American Physician Partners was restructuring the ED where Mr. Allen worked, reducing shifts from two doctors to one. Once Mr. Allen had placed 10 tubes under a doctor’s supervision, he would be allowed to do it on his own.

“I guess we’re the first guinea pigs for our ER,” he said. “If we do have a major trauma and multiple victims come in, there’s only one doctor there. ... We need to be prepared.”

Mr. Allen is one of many midlevel practitioners finding work in emergency departments. Nurse practitioners and physician assistants are among the fastest-growing occupations in the nation, according to the U.S. Bureau of Labor Statistics.

Generally, they have master’s degrees and receive several years of specialized schooling but have significantly less training than doctors. Many are permitted to diagnose patients and prescribe medication with little or no supervision from a doctor, although limitations vary by state.

The Neiman Institute found that the share of ED visits in which a midlevel practitioner was the main clinician increased by more than 172% between 2005 and 2020. Another study, in the Journal of Emergency Medicine, reported that if trends continue there may be equal numbers of midlevel practitioners and doctors in EDs by 2030.

There is little mystery as to why. Federal data shows emergency medicine doctors are paid about $310,000 a year on average, while nurse practitioners and physician assistants earn less than $120,000. Generally, hospitals can bill for care by a midlevel practitioner at 85% the rate of a doctor while paying them less than half as much.

Private equity can make millions in the gap.

For example, Envision once encouraged EDs to employ “the least expensive resource” and treat up to 35% of patients with midlevel practitioners, according to a 2017 PowerPoint presentation. The presentation drew scorn on social media and disappeared from Envision’s website.

Envision declined a request for a phone interview. In a written statement to KHN, spokesperson Aliese Polk said the company does not direct its physician leaders on how to care for patients and called the presentation a “concept guide” that does not represent current views.

American Physician Partners touted roughly the same staffing strategy in 2021 in response to the No Surprises Act, which threatened the company’s profits by outlawing surprise medical bills. In its confidential pitch to lenders, the company estimated it could cut almost $6 million by shifting more staffing from physicians to midlevel practitioners.

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

Pregnant and scared, Natasha Valle went to a Tennova Healthcare hospital, Clarksville, Tenn., in January 2021 because she was bleeding. She didn’t know much about miscarriage, but this seemed like one.

In the emergency department, she was examined then sent home, she said. She went back when her cramping became excruciating. Then home again. It ultimately took three trips to the ED on 3 consecutive days, generating three separate bills, before she saw a doctor who looked at her blood work and confirmed her fears.

“At the time I wasn’t thinking, ‘Oh, I need to see a doctor,’ ” Ms. Valle recalled. “But when you think about it, it’s like, ‘Well, dang – why didn’t I see a doctor?’ ” It’s unclear whether the repeat visits were due to delays in seeing a physician, but the experience worried her. And she’s still paying the bills.

The hospital declined to discuss Ms. Valle’s care, citing patient privacy. But 17 months before her 3-day ordeal, Tennova had outsourced its emergency departments to American Physician Partners, a medical staffing company owned by private equity investors. APP employs fewer doctors in its EDs as one of its cost-saving initiatives to increase earnings, according to a confidential company document obtained by KHN and NPR.

This staffing strategy has permeated hospitals, and particularly emergency departments, that seek to reduce their top expense: physician labor. While diagnosing and treating patients was once their domain, doctors are increasingly being replaced by nurse practitioners and physician assistants, collectively known as “midlevel practitioners,” who can perform many of the same duties and generate much of the same revenue for less than half of the pay.

“APP has numerous cost saving initiatives underway as part of the Company’s continual focus on cost optimization,” the document says, including a “shift of staffing” between doctors and midlevel practitioners.

In a statement to KHN, American Physician Partners said this strategy is a way to ensure all EDs remain fully staffed, calling it a “blended model” that allows doctors, nurse practitioners, and physician assistants “to provide care to their fullest potential.”

Critics of this strategy say the quest to save money results in treatment meted out by someone with far less training than a physician, leaving patients vulnerable to misdiagnoses, higher medical bills, and inadequate care. And these fears are bolstered by evidence that suggests dropping doctors from EDs may not be good for patients.

A working paper, published in October by the National Bureau of Economic Research, analyzed roughly 1.1 million visits to 44 EDs throughout the Veterans Health Administration, where nurse practitioners can treat patients without oversight from doctors.

Researchers found that treatment by a nurse practitioner resulted on average in a 7% increase in cost of care and an 11% increase in length of stay, extending patients’ time in the ED by minutes for minor visits and hours for longer ones. These gaps widened among patients with more severe diagnoses, the study said, but could be somewhat mitigated by nurse practitioners with more experience.

The study also found that ED patients treated by a nurse practitioner were 20% more likely to be readmitted to the hospital for a preventable reason within 30 days, although the overall risk of readmission remained very small.

Yiqun Chen, PhD, who is an assistant professor of economics at the University of Illinois at Chicago and coauthored the study, said these findings are not an indictment of nurse practitioners in the ED. Instead, she said, she hopes the study will guide how to best deploy nurse practitioners: in treatment of simpler patients or circumstances when no doctor is available.

“It’s not just a simple question of if we can substitute physicians with nurse practitioners or not,” Dr. Chen said. “It depends on how we use them. If we just use them as independent providers, especially ... for relatively complicated patients, it doesn’t seem to be a very good use.”

Dr. Chen’s research echoes smaller studies, like one from The Harvey L. Neiman Health Policy Institute that found nonphysician practitioners in EDs were associated with a 5.3% increase in imaging, which could unnecessarily increase bills for patients. Separately, a study at the Hattiesburg Clinic in Mississippi found that midlevel practitioners in primary care – not in the emergency department – increased the out-of-pocket costs to patients while also leading to worse performance on 9 of 10 quality-of-care metrics, including cancer screenings and vaccination rates.

But definitive evidence remains elusive that replacing ER doctors with nonphysicians has a negative impact on patients, said Cameron Gettel, MD, an assistant professor of emergency medicine at Yale University, New Haven, Conn. Private equity investment and the use of midlevel practitioners rose in lockstep in the ED, Dr. Gettel said, and in the absence of game-changing research, the pattern will likely continue.

“Worse patient outcomes haven’t really been shown across the board,” he said. “And I think until that is shown, then they will continue to play an increasing role.”
 

For private equity, dropping ED docs is a “simple equation”

Private equity companies pool money from wealthy investors to buy their way into various industries, often slashing spending and seeking to flip businesses in 3 to 7 years. While this business model is a proven moneymaker on Wall Street, it raises concerns in health care, where critics worry the pressure to turn big profits will influence life-or-death decisions that were once left solely to medical professionals.

Nearly $1 trillion in private equity funds have gone into almost 8,000 health care transactions over the past decade, according to industry tracker PitchBook, including buying into medical staffing companies that many hospitals hire to manage their emergency departments.

Two firms dominate the ED staffing industry: TeamHealth, bought by private equity firm Blackstone in 2016, and Envision Healthcare, bought by KKR in 2018. Trying to undercut these staffing giants is American Physician Partners, a rapidly expanding company that runs EDs in at least 17 states and is 50% owned by private equity firm BBH Capital Partners.

These staffing companies have been among the most aggressive in replacing doctors to cut costs, said Robert McNamara, MD, a founder of the American Academy of Emergency Medicine and chair of emergency medicine at Temple University, Philadelphia.

“It’s a relatively simple equation,” Dr. McNamara said. “Their No. 1 expense is the board-certified emergency physician. So they are going to want to keep that expense as low as possible.”

Not everyone sees the trend of private equity in ED staffing in a negative light. Jennifer Orozco, president of the American Academy of Physician Associates, which represents physician assistants, said even if the change – to use more nonphysician providers – is driven by the staffing firms’ desire to make more money, patients are still well served by a team approach that includes nurse practitioners and physician assistants.

“Though I see that shift, it’s not about profits at the end of the day,” Ms. Orozco said. “It’s about the patient.”

The “shift” is nearly invisible to patients because hospitals rarely promote branding from their ED staffing firms and there is little public documentation of private equity investments.

Arthur Smolensky, MD, a Tennessee emergency medicine specialist attempting to measure private equity’s intrusion into EDs, said his review of hospital job postings and employment contracts in 14 major metropolitan areas found that 43% of ED patients were seen in EDs staffed by companies with nonphysician owners, nearly all of whom are private equity investors.

Dr. Smolensky hopes to publish his full study, expanding to 55 metro areas, later this year. But this research will merely quantify what many doctors already know: The ED has changed. Demoralized by an increased focus on profit, and wary of a looming surplus of emergency medicine residents because there are fewer jobs to fill, many experienced doctors are leaving the ED on their own, he said.

“Most of us didn’t go into medicine to supervise an army of people that are not as well trained as we are,” Dr. Smolensky said. “We want to take care of patients.”
 

“I guess we’re the first guinea pigs for our ER”

Joshua Allen, a nurse practitioner at a small Kentucky hospital, snaked a rubber hose through a rack of pork ribs to practice inserting a chest tube to fix a collapsed lung.

It was 2020, and American Physician Partners was restructuring the ED where Mr. Allen worked, reducing shifts from two doctors to one. Once Mr. Allen had placed 10 tubes under a doctor’s supervision, he would be allowed to do it on his own.

“I guess we’re the first guinea pigs for our ER,” he said. “If we do have a major trauma and multiple victims come in, there’s only one doctor there. ... We need to be prepared.”

Mr. Allen is one of many midlevel practitioners finding work in emergency departments. Nurse practitioners and physician assistants are among the fastest-growing occupations in the nation, according to the U.S. Bureau of Labor Statistics.

Generally, they have master’s degrees and receive several years of specialized schooling but have significantly less training than doctors. Many are permitted to diagnose patients and prescribe medication with little or no supervision from a doctor, although limitations vary by state.

The Neiman Institute found that the share of ED visits in which a midlevel practitioner was the main clinician increased by more than 172% between 2005 and 2020. Another study, in the Journal of Emergency Medicine, reported that if trends continue there may be equal numbers of midlevel practitioners and doctors in EDs by 2030.

There is little mystery as to why. Federal data shows emergency medicine doctors are paid about $310,000 a year on average, while nurse practitioners and physician assistants earn less than $120,000. Generally, hospitals can bill for care by a midlevel practitioner at 85% the rate of a doctor while paying them less than half as much.

Private equity can make millions in the gap.

For example, Envision once encouraged EDs to employ “the least expensive resource” and treat up to 35% of patients with midlevel practitioners, according to a 2017 PowerPoint presentation. The presentation drew scorn on social media and disappeared from Envision’s website.

Envision declined a request for a phone interview. In a written statement to KHN, spokesperson Aliese Polk said the company does not direct its physician leaders on how to care for patients and called the presentation a “concept guide” that does not represent current views.

American Physician Partners touted roughly the same staffing strategy in 2021 in response to the No Surprises Act, which threatened the company’s profits by outlawing surprise medical bills. In its confidential pitch to lenders, the company estimated it could cut almost $6 million by shifting more staffing from physicians to midlevel practitioners.

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

Pregnant and scared, Natasha Valle went to a Tennova Healthcare hospital, Clarksville, Tenn., in January 2021 because she was bleeding. She didn’t know much about miscarriage, but this seemed like one.

In the emergency department, she was examined then sent home, she said. She went back when her cramping became excruciating. Then home again. It ultimately took three trips to the ED on 3 consecutive days, generating three separate bills, before she saw a doctor who looked at her blood work and confirmed her fears.

“At the time I wasn’t thinking, ‘Oh, I need to see a doctor,’ ” Ms. Valle recalled. “But when you think about it, it’s like, ‘Well, dang – why didn’t I see a doctor?’ ” It’s unclear whether the repeat visits were due to delays in seeing a physician, but the experience worried her. And she’s still paying the bills.

The hospital declined to discuss Ms. Valle’s care, citing patient privacy. But 17 months before her 3-day ordeal, Tennova had outsourced its emergency departments to American Physician Partners, a medical staffing company owned by private equity investors. APP employs fewer doctors in its EDs as one of its cost-saving initiatives to increase earnings, according to a confidential company document obtained by KHN and NPR.

This staffing strategy has permeated hospitals, and particularly emergency departments, that seek to reduce their top expense: physician labor. While diagnosing and treating patients was once their domain, doctors are increasingly being replaced by nurse practitioners and physician assistants, collectively known as “midlevel practitioners,” who can perform many of the same duties and generate much of the same revenue for less than half of the pay.

“APP has numerous cost saving initiatives underway as part of the Company’s continual focus on cost optimization,” the document says, including a “shift of staffing” between doctors and midlevel practitioners.

In a statement to KHN, American Physician Partners said this strategy is a way to ensure all EDs remain fully staffed, calling it a “blended model” that allows doctors, nurse practitioners, and physician assistants “to provide care to their fullest potential.”

Critics of this strategy say the quest to save money results in treatment meted out by someone with far less training than a physician, leaving patients vulnerable to misdiagnoses, higher medical bills, and inadequate care. And these fears are bolstered by evidence that suggests dropping doctors from EDs may not be good for patients.

A working paper, published in October by the National Bureau of Economic Research, analyzed roughly 1.1 million visits to 44 EDs throughout the Veterans Health Administration, where nurse practitioners can treat patients without oversight from doctors.

Researchers found that treatment by a nurse practitioner resulted on average in a 7% increase in cost of care and an 11% increase in length of stay, extending patients’ time in the ED by minutes for minor visits and hours for longer ones. These gaps widened among patients with more severe diagnoses, the study said, but could be somewhat mitigated by nurse practitioners with more experience.

The study also found that ED patients treated by a nurse practitioner were 20% more likely to be readmitted to the hospital for a preventable reason within 30 days, although the overall risk of readmission remained very small.

Yiqun Chen, PhD, who is an assistant professor of economics at the University of Illinois at Chicago and coauthored the study, said these findings are not an indictment of nurse practitioners in the ED. Instead, she said, she hopes the study will guide how to best deploy nurse practitioners: in treatment of simpler patients or circumstances when no doctor is available.

“It’s not just a simple question of if we can substitute physicians with nurse practitioners or not,” Dr. Chen said. “It depends on how we use them. If we just use them as independent providers, especially ... for relatively complicated patients, it doesn’t seem to be a very good use.”

Dr. Chen’s research echoes smaller studies, like one from The Harvey L. Neiman Health Policy Institute that found nonphysician practitioners in EDs were associated with a 5.3% increase in imaging, which could unnecessarily increase bills for patients. Separately, a study at the Hattiesburg Clinic in Mississippi found that midlevel practitioners in primary care – not in the emergency department – increased the out-of-pocket costs to patients while also leading to worse performance on 9 of 10 quality-of-care metrics, including cancer screenings and vaccination rates.

But definitive evidence remains elusive that replacing ER doctors with nonphysicians has a negative impact on patients, said Cameron Gettel, MD, an assistant professor of emergency medicine at Yale University, New Haven, Conn. Private equity investment and the use of midlevel practitioners rose in lockstep in the ED, Dr. Gettel said, and in the absence of game-changing research, the pattern will likely continue.

“Worse patient outcomes haven’t really been shown across the board,” he said. “And I think until that is shown, then they will continue to play an increasing role.”
 

For private equity, dropping ED docs is a “simple equation”

Private equity companies pool money from wealthy investors to buy their way into various industries, often slashing spending and seeking to flip businesses in 3 to 7 years. While this business model is a proven moneymaker on Wall Street, it raises concerns in health care, where critics worry the pressure to turn big profits will influence life-or-death decisions that were once left solely to medical professionals.

Nearly $1 trillion in private equity funds have gone into almost 8,000 health care transactions over the past decade, according to industry tracker PitchBook, including buying into medical staffing companies that many hospitals hire to manage their emergency departments.

Two firms dominate the ED staffing industry: TeamHealth, bought by private equity firm Blackstone in 2016, and Envision Healthcare, bought by KKR in 2018. Trying to undercut these staffing giants is American Physician Partners, a rapidly expanding company that runs EDs in at least 17 states and is 50% owned by private equity firm BBH Capital Partners.

These staffing companies have been among the most aggressive in replacing doctors to cut costs, said Robert McNamara, MD, a founder of the American Academy of Emergency Medicine and chair of emergency medicine at Temple University, Philadelphia.

“It’s a relatively simple equation,” Dr. McNamara said. “Their No. 1 expense is the board-certified emergency physician. So they are going to want to keep that expense as low as possible.”

Not everyone sees the trend of private equity in ED staffing in a negative light. Jennifer Orozco, president of the American Academy of Physician Associates, which represents physician assistants, said even if the change – to use more nonphysician providers – is driven by the staffing firms’ desire to make more money, patients are still well served by a team approach that includes nurse practitioners and physician assistants.

“Though I see that shift, it’s not about profits at the end of the day,” Ms. Orozco said. “It’s about the patient.”

The “shift” is nearly invisible to patients because hospitals rarely promote branding from their ED staffing firms and there is little public documentation of private equity investments.

Arthur Smolensky, MD, a Tennessee emergency medicine specialist attempting to measure private equity’s intrusion into EDs, said his review of hospital job postings and employment contracts in 14 major metropolitan areas found that 43% of ED patients were seen in EDs staffed by companies with nonphysician owners, nearly all of whom are private equity investors.

Dr. Smolensky hopes to publish his full study, expanding to 55 metro areas, later this year. But this research will merely quantify what many doctors already know: The ED has changed. Demoralized by an increased focus on profit, and wary of a looming surplus of emergency medicine residents because there are fewer jobs to fill, many experienced doctors are leaving the ED on their own, he said.

“Most of us didn’t go into medicine to supervise an army of people that are not as well trained as we are,” Dr. Smolensky said. “We want to take care of patients.”
 

“I guess we’re the first guinea pigs for our ER”

Joshua Allen, a nurse practitioner at a small Kentucky hospital, snaked a rubber hose through a rack of pork ribs to practice inserting a chest tube to fix a collapsed lung.

It was 2020, and American Physician Partners was restructuring the ED where Mr. Allen worked, reducing shifts from two doctors to one. Once Mr. Allen had placed 10 tubes under a doctor’s supervision, he would be allowed to do it on his own.

“I guess we’re the first guinea pigs for our ER,” he said. “If we do have a major trauma and multiple victims come in, there’s only one doctor there. ... We need to be prepared.”

Mr. Allen is one of many midlevel practitioners finding work in emergency departments. Nurse practitioners and physician assistants are among the fastest-growing occupations in the nation, according to the U.S. Bureau of Labor Statistics.

Generally, they have master’s degrees and receive several years of specialized schooling but have significantly less training than doctors. Many are permitted to diagnose patients and prescribe medication with little or no supervision from a doctor, although limitations vary by state.

The Neiman Institute found that the share of ED visits in which a midlevel practitioner was the main clinician increased by more than 172% between 2005 and 2020. Another study, in the Journal of Emergency Medicine, reported that if trends continue there may be equal numbers of midlevel practitioners and doctors in EDs by 2030.

There is little mystery as to why. Federal data shows emergency medicine doctors are paid about $310,000 a year on average, while nurse practitioners and physician assistants earn less than $120,000. Generally, hospitals can bill for care by a midlevel practitioner at 85% the rate of a doctor while paying them less than half as much.

Private equity can make millions in the gap.

For example, Envision once encouraged EDs to employ “the least expensive resource” and treat up to 35% of patients with midlevel practitioners, according to a 2017 PowerPoint presentation. The presentation drew scorn on social media and disappeared from Envision’s website.

Envision declined a request for a phone interview. In a written statement to KHN, spokesperson Aliese Polk said the company does not direct its physician leaders on how to care for patients and called the presentation a “concept guide” that does not represent current views.

American Physician Partners touted roughly the same staffing strategy in 2021 in response to the No Surprises Act, which threatened the company’s profits by outlawing surprise medical bills. In its confidential pitch to lenders, the company estimated it could cut almost $6 million by shifting more staffing from physicians to midlevel practitioners.

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

Pounding heart, sweating, insomnia. Surges of dopamine, norepinephrine, and adrenaline. All symptoms of a very common yet frustrating condition: Falling in love.

The prognosis is vague. A prescription pad and knowledge of biochemistry aren’t helpful when it comes to relationships.

Medical training can consume decades when others are exploring relationships and starting families. There are few recent data on this, but a 2012 longitudinal study of more than 20,000 physicians by the UK Medical Careers Research Group found that, by age 25, the rate of doctors who were in partnerships was far lower than in the general population.

But there is hope! By age 36, the number of doctors in long-term relationships had overtaken everyone else by more than 10% for women and 20% for men. The Medscape 2022 Physician Happiness & Lifestyle Report found that 83% were in committed relationships, and even better, happy ones. At least three-quarters of doctors in every specialty described their partnerships as “very good” or “good.”

How should a single medical student, resident, or attending physician find happiness ever after in 2023? Sometimes Mr./Ms. Right can be found in the anatomy lab or hospital, with sparks flying between students or colleagues. But for many in health care, along with millions of others looking for love, the solution is dating apps.
 

When ‘MD’ is a turnoff

Dr. M, a psychiatry resident in California who prefers not to give her name, hadn’t found a life partner during college, grad school, or medical school. When she passed her final Step 3 board exam, she decided it was time to take the plunge. She signed up for popular dating apps like Hinge, Bumble, and Coffee Meets Bagel, but her dates seemed to follow a disappointing pattern.

“I met lots of guys, but it was incredibly rare to find another physician,” said Dr. M. “I found myself always wanting to talk about my life as a resident. More often than not, the guys would give me this blank stare as I complained about being on call or spoke about spending 12 hours a day studying for a board exam, or even the process of The Match and how I ended up in California.”

Both of Dr. M’s parents are physicians, and she grew up watching how they supported each other through residency, exams, and exhausting schedules. A relationship with another physician, her parents told her, would give both partners the best chance to understand each other’s lives. The problem was how to find one.

That was when Dr. M saw an ad for a dating app with a cute medical name: DownToDate, a play on the clinical evidence resource UpToDate. “I thought it was a meme,” she said. “It was this doctors-only app. I remember thinking, ‘this has to be a joke,’ but then it was very real.”

She signed up and was required to provide a photo of her ID and her NPI number. Immediately, men began “requesting a consult,” the app’s form of “liking” her profile, and sending her “pages” (messages).

DownToDate was created by another physician, Robin Boyer, MD, MBA, a pediatrics resident in Loma Linda, Calif. The inspiration came in 2020 during the initial COVID crisis. Exhausted from long and often heartbreaking shifts, Dr. Boyer was grateful for her husband’s unwavering support. But many of her coresidents weren’t so lucky. The women in particular talked about their dating struggles, and there was a recurring theme. They didn’t feel confident putting “physician” on a dating site profile.

“If you’re male and you tell people you’re a doctor, it seems like it really attracts people,” Dr. Boyer said. “But if you’re female, it brings up a lot of stereotypes where you’re perceived as too intimidating either as the breadwinner, being more educated, or having a [demanding] career. It does make it more difficult.”

Dr. Boyer met her husband in high school, and she had never used a dating app. She convinced a coresident, Celestine Odigwe, MD, to pursue the idea as partners. They began researching the market within their network and heard from over a thousand interested physicians, both men and women, heterosexual and LGBTQ+. They even created fake accounts on other sites to gauge how easy it is to falsify a profile. From these insights, the app took shape. It launched in 2021 and currently has more than 5000 verified users.
 

Branches from the same tree

Around the same time that DownToDate began, Shivani Shah, DO, a pediatric neurology resident at Duke University, Durham, N.C., and her brother, Sagar Shah, an entrepreneur, had a similar idea.

At the time, Dr. Shah was a fourth-year medical student about to move from New Jersey to North Carolina. Friends who were internal medicine residents described the grueling reality of the early COVID pandemic.

“It was just horrible,” said Dr. Shah. “You were isolated from your family, your support system, everything. ... I think the pandemic really pushed us into realizing that this is a very important need, and sometimes it feels like community is lacking in the health care field.”

The sibling duo developed ForeverX, an app for health care workers to find meaningful and long-term romantic connections. It launched in 2021.

Concerned that the medical field was “siloed,” the Shahs chose to open the app to physicians, dentists, nurses, physical therapists, and other health care professionals. “Opening up the doors to more communication” between the health care branches was a priority.

To prevent catfishing, the app uses a twofold vetting system. Each user submits a photo of their driver’s license and a selfie that must match. There is also health care verification through an NPI number, nurse’s ID, or a manual process for those without either. None of the information is stored.

Through personal experience with dating apps, Dr. Shah hopes ForeverX can improve on some of their flaws, particularly the problem of matches being overly filtered by preferences. The “natural way” of meeting people is not filtered. And while most people have a dating checklist in mind, meeting someone face to face might send some of those prerequisites “out the window.”

“You can’t really put into words how you feel with someone ... the vibe,” Dr. Shah said. That is why her goal is to get people off the app and on an actual date IRL. “Something we’ve discussed internally is, how do we make this experience that’s virtual more human?”

She acknowledged that certain requirements, like a desire for children, might be crucial to some users. Many female doctors in their 30’s feel the “time crunch” of a ticking biological clock.
 

Optimize your date-ability

“I think people either love or hate dating apps, and I love them,” said Kevin Jubbal, MD. “I get to meet cool people and schedule dates from the comfort of my home.”

Dr. Jubbal, a former plastic surgery resident who left medicine to become an entrepreneur, is the founder of Med School Insiders, a tutoring and advising resource for premeds, medical students, and residents. His YouTube channel has more than 1.5 million subscribers, and he often receives questions about whether dating is feasible in medical school and how to balance a personal and academic/professional life.

Those who hate dating apps or receive few matches would do well to look inward instead of blaming the process, he said. It helps to view the experience as a learning tool that provides feedback very quickly.

“If you want to find a really amazing person, then you need to be what you want to find,” said Dr. Jubbal. “If you want to find someone who’s fit and intelligent and well read and well traveled, you need to be that. Otherwise, you’re probably not going to attract that person.”
 

An app designed to help single female MDs

Ifie Williams, MD, a psychiatrist in Washington, D.C., believes a wider dating pool is key – provided everyone understands the situation up front. When Dr. Williams started residency in 2014, she was “as single as can be.” She tried many dating apps, but they were extremely time consuming. Even when she set specific preferences, she found herself sifting through “matches” that didn’t fit her criteria.

“Dating nowadays has become almost like a second job,” said Dr. Williams. “Just the amount of time that people are having to spend on apps, swiping left and right and then meeting people. You think they’re interested and then you deal with all these games.”

By 2017, Dr. Williams had invented Miss Doctor, a dating app that would connect female physicians and other doctoral-level professionals with men or women on a similar achievement level.

By definition, these people would not be intimidated by ambitious, busy women. They would be heavily screened and vetted. And one other proviso: they would have to pay for “likes.”

Most dating apps charge a subscription fee. Users are allowed to “like” numerous profiles and perhaps not bother responding to many matches. By contrast, Miss Doctor accounts are free and include a limited number of “likes” to indicate interest. Beyond that, there’s a price.

“We wanted to find a way to make people a little more intentional with how they like people on the app, so they give a little more thought to it,” Dr. Williams said. “So, we monetize it and use that to change behavior.”

After an initial launch in 2017, the app had to take a back seat while Dr. Williams started her psychiatry practice and got married herself. She plans to relaunch it in spring 2023.

Male or female, there is general agreement that finding time to date as a young physician isn’t easy. While DownToDate has had “doctor meets doctor” success stories, many users are still searching for “the one.”

Dr. Boyer believes that career challenges are not a reason to give up. “There are so many single and available people out there,” she said. “And everyone’s deserving of love. Even if you only have an hour a week.”

A version of this article first appeared on Medscape.com.

Pounding heart, sweating, insomnia. Surges of dopamine, norepinephrine, and adrenaline. All symptoms of a very common yet frustrating condition: Falling in love.

The prognosis is vague. A prescription pad and knowledge of biochemistry aren’t helpful when it comes to relationships.

Medical training can consume decades when others are exploring relationships and starting families. There are few recent data on this, but a 2012 longitudinal study of more than 20,000 physicians by the UK Medical Careers Research Group found that, by age 25, the rate of doctors who were in partnerships was far lower than in the general population.

But there is hope! By age 36, the number of doctors in long-term relationships had overtaken everyone else by more than 10% for women and 20% for men. The Medscape 2022 Physician Happiness & Lifestyle Report found that 83% were in committed relationships, and even better, happy ones. At least three-quarters of doctors in every specialty described their partnerships as “very good” or “good.”

How should a single medical student, resident, or attending physician find happiness ever after in 2023? Sometimes Mr./Ms. Right can be found in the anatomy lab or hospital, with sparks flying between students or colleagues. But for many in health care, along with millions of others looking for love, the solution is dating apps.
 

When ‘MD’ is a turnoff

Dr. M, a psychiatry resident in California who prefers not to give her name, hadn’t found a life partner during college, grad school, or medical school. When she passed her final Step 3 board exam, she decided it was time to take the plunge. She signed up for popular dating apps like Hinge, Bumble, and Coffee Meets Bagel, but her dates seemed to follow a disappointing pattern.

“I met lots of guys, but it was incredibly rare to find another physician,” said Dr. M. “I found myself always wanting to talk about my life as a resident. More often than not, the guys would give me this blank stare as I complained about being on call or spoke about spending 12 hours a day studying for a board exam, or even the process of The Match and how I ended up in California.”

Both of Dr. M’s parents are physicians, and she grew up watching how they supported each other through residency, exams, and exhausting schedules. A relationship with another physician, her parents told her, would give both partners the best chance to understand each other’s lives. The problem was how to find one.

That was when Dr. M saw an ad for a dating app with a cute medical name: DownToDate, a play on the clinical evidence resource UpToDate. “I thought it was a meme,” she said. “It was this doctors-only app. I remember thinking, ‘this has to be a joke,’ but then it was very real.”

She signed up and was required to provide a photo of her ID and her NPI number. Immediately, men began “requesting a consult,” the app’s form of “liking” her profile, and sending her “pages” (messages).

DownToDate was created by another physician, Robin Boyer, MD, MBA, a pediatrics resident in Loma Linda, Calif. The inspiration came in 2020 during the initial COVID crisis. Exhausted from long and often heartbreaking shifts, Dr. Boyer was grateful for her husband’s unwavering support. But many of her coresidents weren’t so lucky. The women in particular talked about their dating struggles, and there was a recurring theme. They didn’t feel confident putting “physician” on a dating site profile.

“If you’re male and you tell people you’re a doctor, it seems like it really attracts people,” Dr. Boyer said. “But if you’re female, it brings up a lot of stereotypes where you’re perceived as too intimidating either as the breadwinner, being more educated, or having a [demanding] career. It does make it more difficult.”

Dr. Boyer met her husband in high school, and she had never used a dating app. She convinced a coresident, Celestine Odigwe, MD, to pursue the idea as partners. They began researching the market within their network and heard from over a thousand interested physicians, both men and women, heterosexual and LGBTQ+. They even created fake accounts on other sites to gauge how easy it is to falsify a profile. From these insights, the app took shape. It launched in 2021 and currently has more than 5000 verified users.
 

Branches from the same tree

Around the same time that DownToDate began, Shivani Shah, DO, a pediatric neurology resident at Duke University, Durham, N.C., and her brother, Sagar Shah, an entrepreneur, had a similar idea.

At the time, Dr. Shah was a fourth-year medical student about to move from New Jersey to North Carolina. Friends who were internal medicine residents described the grueling reality of the early COVID pandemic.

“It was just horrible,” said Dr. Shah. “You were isolated from your family, your support system, everything. ... I think the pandemic really pushed us into realizing that this is a very important need, and sometimes it feels like community is lacking in the health care field.”

The sibling duo developed ForeverX, an app for health care workers to find meaningful and long-term romantic connections. It launched in 2021.

Concerned that the medical field was “siloed,” the Shahs chose to open the app to physicians, dentists, nurses, physical therapists, and other health care professionals. “Opening up the doors to more communication” between the health care branches was a priority.

To prevent catfishing, the app uses a twofold vetting system. Each user submits a photo of their driver’s license and a selfie that must match. There is also health care verification through an NPI number, nurse’s ID, or a manual process for those without either. None of the information is stored.

Through personal experience with dating apps, Dr. Shah hopes ForeverX can improve on some of their flaws, particularly the problem of matches being overly filtered by preferences. The “natural way” of meeting people is not filtered. And while most people have a dating checklist in mind, meeting someone face to face might send some of those prerequisites “out the window.”

“You can’t really put into words how you feel with someone ... the vibe,” Dr. Shah said. That is why her goal is to get people off the app and on an actual date IRL. “Something we’ve discussed internally is, how do we make this experience that’s virtual more human?”

She acknowledged that certain requirements, like a desire for children, might be crucial to some users. Many female doctors in their 30’s feel the “time crunch” of a ticking biological clock.
 

Optimize your date-ability

“I think people either love or hate dating apps, and I love them,” said Kevin Jubbal, MD. “I get to meet cool people and schedule dates from the comfort of my home.”

Dr. Jubbal, a former plastic surgery resident who left medicine to become an entrepreneur, is the founder of Med School Insiders, a tutoring and advising resource for premeds, medical students, and residents. His YouTube channel has more than 1.5 million subscribers, and he often receives questions about whether dating is feasible in medical school and how to balance a personal and academic/professional life.

Those who hate dating apps or receive few matches would do well to look inward instead of blaming the process, he said. It helps to view the experience as a learning tool that provides feedback very quickly.

“If you want to find a really amazing person, then you need to be what you want to find,” said Dr. Jubbal. “If you want to find someone who’s fit and intelligent and well read and well traveled, you need to be that. Otherwise, you’re probably not going to attract that person.”
 

An app designed to help single female MDs

Ifie Williams, MD, a psychiatrist in Washington, D.C., believes a wider dating pool is key – provided everyone understands the situation up front. When Dr. Williams started residency in 2014, she was “as single as can be.” She tried many dating apps, but they were extremely time consuming. Even when she set specific preferences, she found herself sifting through “matches” that didn’t fit her criteria.

“Dating nowadays has become almost like a second job,” said Dr. Williams. “Just the amount of time that people are having to spend on apps, swiping left and right and then meeting people. You think they’re interested and then you deal with all these games.”

By 2017, Dr. Williams had invented Miss Doctor, a dating app that would connect female physicians and other doctoral-level professionals with men or women on a similar achievement level.

By definition, these people would not be intimidated by ambitious, busy women. They would be heavily screened and vetted. And one other proviso: they would have to pay for “likes.”

Most dating apps charge a subscription fee. Users are allowed to “like” numerous profiles and perhaps not bother responding to many matches. By contrast, Miss Doctor accounts are free and include a limited number of “likes” to indicate interest. Beyond that, there’s a price.

“We wanted to find a way to make people a little more intentional with how they like people on the app, so they give a little more thought to it,” Dr. Williams said. “So, we monetize it and use that to change behavior.”

After an initial launch in 2017, the app had to take a back seat while Dr. Williams started her psychiatry practice and got married herself. She plans to relaunch it in spring 2023.

Male or female, there is general agreement that finding time to date as a young physician isn’t easy. While DownToDate has had “doctor meets doctor” success stories, many users are still searching for “the one.”

Dr. Boyer believes that career challenges are not a reason to give up. “There are so many single and available people out there,” she said. “And everyone’s deserving of love. Even if you only have an hour a week.”

A version of this article first appeared on Medscape.com.

Pounding heart, sweating, insomnia. Surges of dopamine, norepinephrine, and adrenaline. All symptoms of a very common yet frustrating condition: Falling in love.

The prognosis is vague. A prescription pad and knowledge of biochemistry aren’t helpful when it comes to relationships.

Medical training can consume decades when others are exploring relationships and starting families. There are few recent data on this, but a 2012 longitudinal study of more than 20,000 physicians by the UK Medical Careers Research Group found that, by age 25, the rate of doctors who were in partnerships was far lower than in the general population.

But there is hope! By age 36, the number of doctors in long-term relationships had overtaken everyone else by more than 10% for women and 20% for men. The Medscape 2022 Physician Happiness & Lifestyle Report found that 83% were in committed relationships, and even better, happy ones. At least three-quarters of doctors in every specialty described their partnerships as “very good” or “good.”

How should a single medical student, resident, or attending physician find happiness ever after in 2023? Sometimes Mr./Ms. Right can be found in the anatomy lab or hospital, with sparks flying between students or colleagues. But for many in health care, along with millions of others looking for love, the solution is dating apps.
 

When ‘MD’ is a turnoff

Dr. M, a psychiatry resident in California who prefers not to give her name, hadn’t found a life partner during college, grad school, or medical school. When she passed her final Step 3 board exam, she decided it was time to take the plunge. She signed up for popular dating apps like Hinge, Bumble, and Coffee Meets Bagel, but her dates seemed to follow a disappointing pattern.

“I met lots of guys, but it was incredibly rare to find another physician,” said Dr. M. “I found myself always wanting to talk about my life as a resident. More often than not, the guys would give me this blank stare as I complained about being on call or spoke about spending 12 hours a day studying for a board exam, or even the process of The Match and how I ended up in California.”

Both of Dr. M’s parents are physicians, and she grew up watching how they supported each other through residency, exams, and exhausting schedules. A relationship with another physician, her parents told her, would give both partners the best chance to understand each other’s lives. The problem was how to find one.

That was when Dr. M saw an ad for a dating app with a cute medical name: DownToDate, a play on the clinical evidence resource UpToDate. “I thought it was a meme,” she said. “It was this doctors-only app. I remember thinking, ‘this has to be a joke,’ but then it was very real.”

She signed up and was required to provide a photo of her ID and her NPI number. Immediately, men began “requesting a consult,” the app’s form of “liking” her profile, and sending her “pages” (messages).

DownToDate was created by another physician, Robin Boyer, MD, MBA, a pediatrics resident in Loma Linda, Calif. The inspiration came in 2020 during the initial COVID crisis. Exhausted from long and often heartbreaking shifts, Dr. Boyer was grateful for her husband’s unwavering support. But many of her coresidents weren’t so lucky. The women in particular talked about their dating struggles, and there was a recurring theme. They didn’t feel confident putting “physician” on a dating site profile.

“If you’re male and you tell people you’re a doctor, it seems like it really attracts people,” Dr. Boyer said. “But if you’re female, it brings up a lot of stereotypes where you’re perceived as too intimidating either as the breadwinner, being more educated, or having a [demanding] career. It does make it more difficult.”

Dr. Boyer met her husband in high school, and she had never used a dating app. She convinced a coresident, Celestine Odigwe, MD, to pursue the idea as partners. They began researching the market within their network and heard from over a thousand interested physicians, both men and women, heterosexual and LGBTQ+. They even created fake accounts on other sites to gauge how easy it is to falsify a profile. From these insights, the app took shape. It launched in 2021 and currently has more than 5000 verified users.
 

Branches from the same tree

Around the same time that DownToDate began, Shivani Shah, DO, a pediatric neurology resident at Duke University, Durham, N.C., and her brother, Sagar Shah, an entrepreneur, had a similar idea.

At the time, Dr. Shah was a fourth-year medical student about to move from New Jersey to North Carolina. Friends who were internal medicine residents described the grueling reality of the early COVID pandemic.

“It was just horrible,” said Dr. Shah. “You were isolated from your family, your support system, everything. ... I think the pandemic really pushed us into realizing that this is a very important need, and sometimes it feels like community is lacking in the health care field.”

The sibling duo developed ForeverX, an app for health care workers to find meaningful and long-term romantic connections. It launched in 2021.

Concerned that the medical field was “siloed,” the Shahs chose to open the app to physicians, dentists, nurses, physical therapists, and other health care professionals. “Opening up the doors to more communication” between the health care branches was a priority.

To prevent catfishing, the app uses a twofold vetting system. Each user submits a photo of their driver’s license and a selfie that must match. There is also health care verification through an NPI number, nurse’s ID, or a manual process for those without either. None of the information is stored.

Through personal experience with dating apps, Dr. Shah hopes ForeverX can improve on some of their flaws, particularly the problem of matches being overly filtered by preferences. The “natural way” of meeting people is not filtered. And while most people have a dating checklist in mind, meeting someone face to face might send some of those prerequisites “out the window.”

“You can’t really put into words how you feel with someone ... the vibe,” Dr. Shah said. That is why her goal is to get people off the app and on an actual date IRL. “Something we’ve discussed internally is, how do we make this experience that’s virtual more human?”

She acknowledged that certain requirements, like a desire for children, might be crucial to some users. Many female doctors in their 30’s feel the “time crunch” of a ticking biological clock.
 

Optimize your date-ability

“I think people either love or hate dating apps, and I love them,” said Kevin Jubbal, MD. “I get to meet cool people and schedule dates from the comfort of my home.”

Dr. Jubbal, a former plastic surgery resident who left medicine to become an entrepreneur, is the founder of Med School Insiders, a tutoring and advising resource for premeds, medical students, and residents. His YouTube channel has more than 1.5 million subscribers, and he often receives questions about whether dating is feasible in medical school and how to balance a personal and academic/professional life.

Those who hate dating apps or receive few matches would do well to look inward instead of blaming the process, he said. It helps to view the experience as a learning tool that provides feedback very quickly.

“If you want to find a really amazing person, then you need to be what you want to find,” said Dr. Jubbal. “If you want to find someone who’s fit and intelligent and well read and well traveled, you need to be that. Otherwise, you’re probably not going to attract that person.”
 

An app designed to help single female MDs

Ifie Williams, MD, a psychiatrist in Washington, D.C., believes a wider dating pool is key – provided everyone understands the situation up front. When Dr. Williams started residency in 2014, she was “as single as can be.” She tried many dating apps, but they were extremely time consuming. Even when she set specific preferences, she found herself sifting through “matches” that didn’t fit her criteria.

“Dating nowadays has become almost like a second job,” said Dr. Williams. “Just the amount of time that people are having to spend on apps, swiping left and right and then meeting people. You think they’re interested and then you deal with all these games.”

By 2017, Dr. Williams had invented Miss Doctor, a dating app that would connect female physicians and other doctoral-level professionals with men or women on a similar achievement level.

By definition, these people would not be intimidated by ambitious, busy women. They would be heavily screened and vetted. And one other proviso: they would have to pay for “likes.”

Most dating apps charge a subscription fee. Users are allowed to “like” numerous profiles and perhaps not bother responding to many matches. By contrast, Miss Doctor accounts are free and include a limited number of “likes” to indicate interest. Beyond that, there’s a price.

“We wanted to find a way to make people a little more intentional with how they like people on the app, so they give a little more thought to it,” Dr. Williams said. “So, we monetize it and use that to change behavior.”

After an initial launch in 2017, the app had to take a back seat while Dr. Williams started her psychiatry practice and got married herself. She plans to relaunch it in spring 2023.

Male or female, there is general agreement that finding time to date as a young physician isn’t easy. While DownToDate has had “doctor meets doctor” success stories, many users are still searching for “the one.”

Dr. Boyer believes that career challenges are not a reason to give up. “There are so many single and available people out there,” she said. “And everyone’s deserving of love. Even if you only have an hour a week.”

A version of this article first appeared on Medscape.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

Pound of flesh buys less prison time

We should all have more Shakespeare in our lives. Yeah, yeah, Shakespeare is meant to be played, not read, and it can be a struggle to herd teenagers through the Bard’s interesting and bloody tragedies, but even a perfunctory reading of “The Merchant of Venice” would hopefully have prevented the dystopian nightmare Massachusetts has presented us with today.

Ye Jinghan/Unsplash

The United States has a massive shortage of donor organs. This is an unfortunate truth. So, to combat this issue, a pair of Massachusetts congresspeople have proposed HD 3822, which would allow prisoners to donate organs and/or bone marrow (a pound of flesh, so to speak) in exchange for up to a year in reduced prison time. Yes, that’s right. Give up pieces of yourself and the state of Massachusetts will deign to reduce your long prison sentence.

Oh, and before you dismiss this as typical Republican antics, the bill was sponsored by two Democrats, and in a statement one of them hoped to address racial disparities in organ donation, as people of color are much less likely to receive organs. Never mind that Black people are imprisoned at a much higher rate than Whites.

Yeah, this whole thing is what people in the business like to call an ethical disaster.

Fortunately, the bill will likely never be passed and it’s probably illegal anyway. A federal law from 1984 (how’s that for a coincidence) prevents people from donating organs for use in human transplantation in exchange for “valuable consideration.” In other words, you can’t sell your organs for profit, and in this case, reducing prison time would probably count as valuable consideration in the eyes of the courts.

Oh, and in case you’ve never read Merchant of Venice, Shylock, the character looking for the pound of flesh as payment for a debt? He’s the villain. In fact, it’s pretty safe to say that anyone looking to extract payment from human dismemberment is probably the bad guy of the story. Apparently that wasn’t clear.
 

How do you stop a fungi? With a deadly guy

Thanks to the new HBO series “The Last of Us,” there’s been a lot of talk about the upcoming fungi-pocalypse, as the show depicts the real-life “zombie fungus” Cordyceps turning humans into, you know, zombies.

Liane Hentscher/HBO

No need to worry, ladies and gentleman, because science has discovered a way to turn back the fungal horde. A heroic, and environmentally friendly, alternative to chemical pesticides “in the fight against resistant fungi [that] are now resistant to antimycotics – partly because they are used in large quantities in agricultural fields,” investigators at the Leibniz Institute for Natural Product Research and Infection Biology in Jena, Germany, said in a written statement.

We are, of course, talking about Keanu Reeves. Wait a second. He’s not even in “The Last of Us.” Sorry folks, we are being told that it really is Keanu Reeves. Our champion in the inevitable fungal pandemic is movie star Keanu Reeves. Sort of. It’s actually keanumycin, a substance produced by bacteria of the genus Pseudomonas.

Really? Keanumycin? “The lipopeptides kill so efficiently that we named them after Keanu Reeves because he, too, is extremely deadly in his roles,” lead author Sebastian Götze, PhD, explained.

Dr. Götze and his associates had been working with pseudomonads for quite a while before they were able to isolate the toxins responsible for their ability to kill amoebae, which resemble fungi in some characteristics. When then finally tried the keanumycin against gray mold rot on hydrangea leaves, the intensely contemplative star of “The Matrix” and “John Wick” – sorry, wrong Keanu – the bacterial derivative significantly inhibited growth of the fungus, they said.

Additional testing has shown that keanumycin is not highly toxic to human cells and is effective against fungi such as Candida albicans in very low concentrations, which makes it a good candidate for future pharmaceutical development.

To that news there can be only one response from the substance’s namesake.

High fat, bye parasites

Fat. Fat. Fat. Seems like everyone is trying to avoid it these days, but fat may be good thing when it comes to weaseling out a parasite.

The parasite in this case is the whipworm, aka Trichuris trichiura. You can find this guy in the intestines of millions of people, where it causes long-lasting infections. Yikes … Researchers have found that the plan of attack to get rid of this invasive species is to boost the immune system, but instead of vitamin C and zinc it’s fat they’re pumping in. Yes, fat.

John Worthington

The developing countries with poor sewage that are at the highest risk for contracting parasites such as this also are among those where people ingest cheaper diets that are generally higher in fat. The investigators were interested to see how a high-fat diet would affect immune responses to the whipworms.

And, as with almost everything else, the researchers turned to mice, which were introduced to a closely related species, Trichuris muris.

A high-fat diet, rather than obesity itself, increases a molecule on T-helper cells called ST2, and this allows an increased T-helper 2 response, effectively giving eviction notices to the parasites in the intestinal lining.

To say the least, the researchers were surprised since “high-fat diets are mostly associated with increased pathology during disease,” said senior author Richard Grencis, PhD, of the University of Manchester (England), who noted that ST2 is not normally triggered with a standard diet in mice but the high-fat diet gave it a boost and an “alternate pathway” out.

Now before you start ordering extra-large fries at the drive-through to keep the whipworms away, the researchers added that they “have previously published that weight loss can aid the expulsion of a different gut parasite worm.” Figures.

Once again, though, signs are pointing to the gut for improved health.

Pound of flesh buys less prison time

We should all have more Shakespeare in our lives. Yeah, yeah, Shakespeare is meant to be played, not read, and it can be a struggle to herd teenagers through the Bard’s interesting and bloody tragedies, but even a perfunctory reading of “The Merchant of Venice” would hopefully have prevented the dystopian nightmare Massachusetts has presented us with today.

Ye Jinghan/Unsplash

The United States has a massive shortage of donor organs. This is an unfortunate truth. So, to combat this issue, a pair of Massachusetts congresspeople have proposed HD 3822, which would allow prisoners to donate organs and/or bone marrow (a pound of flesh, so to speak) in exchange for up to a year in reduced prison time. Yes, that’s right. Give up pieces of yourself and the state of Massachusetts will deign to reduce your long prison sentence.

Oh, and before you dismiss this as typical Republican antics, the bill was sponsored by two Democrats, and in a statement one of them hoped to address racial disparities in organ donation, as people of color are much less likely to receive organs. Never mind that Black people are imprisoned at a much higher rate than Whites.

Yeah, this whole thing is what people in the business like to call an ethical disaster.

Fortunately, the bill will likely never be passed and it’s probably illegal anyway. A federal law from 1984 (how’s that for a coincidence) prevents people from donating organs for use in human transplantation in exchange for “valuable consideration.” In other words, you can’t sell your organs for profit, and in this case, reducing prison time would probably count as valuable consideration in the eyes of the courts.

Oh, and in case you’ve never read Merchant of Venice, Shylock, the character looking for the pound of flesh as payment for a debt? He’s the villain. In fact, it’s pretty safe to say that anyone looking to extract payment from human dismemberment is probably the bad guy of the story. Apparently that wasn’t clear.
 

How do you stop a fungi? With a deadly guy

Thanks to the new HBO series “The Last of Us,” there’s been a lot of talk about the upcoming fungi-pocalypse, as the show depicts the real-life “zombie fungus” Cordyceps turning humans into, you know, zombies.

Liane Hentscher/HBO

No need to worry, ladies and gentleman, because science has discovered a way to turn back the fungal horde. A heroic, and environmentally friendly, alternative to chemical pesticides “in the fight against resistant fungi [that] are now resistant to antimycotics – partly because they are used in large quantities in agricultural fields,” investigators at the Leibniz Institute for Natural Product Research and Infection Biology in Jena, Germany, said in a written statement.

We are, of course, talking about Keanu Reeves. Wait a second. He’s not even in “The Last of Us.” Sorry folks, we are being told that it really is Keanu Reeves. Our champion in the inevitable fungal pandemic is movie star Keanu Reeves. Sort of. It’s actually keanumycin, a substance produced by bacteria of the genus Pseudomonas.

Really? Keanumycin? “The lipopeptides kill so efficiently that we named them after Keanu Reeves because he, too, is extremely deadly in his roles,” lead author Sebastian Götze, PhD, explained.

Dr. Götze and his associates had been working with pseudomonads for quite a while before they were able to isolate the toxins responsible for their ability to kill amoebae, which resemble fungi in some characteristics. When then finally tried the keanumycin against gray mold rot on hydrangea leaves, the intensely contemplative star of “The Matrix” and “John Wick” – sorry, wrong Keanu – the bacterial derivative significantly inhibited growth of the fungus, they said.

Additional testing has shown that keanumycin is not highly toxic to human cells and is effective against fungi such as Candida albicans in very low concentrations, which makes it a good candidate for future pharmaceutical development.

To that news there can be only one response from the substance’s namesake.

High fat, bye parasites

Fat. Fat. Fat. Seems like everyone is trying to avoid it these days, but fat may be good thing when it comes to weaseling out a parasite.

The parasite in this case is the whipworm, aka Trichuris trichiura. You can find this guy in the intestines of millions of people, where it causes long-lasting infections. Yikes … Researchers have found that the plan of attack to get rid of this invasive species is to boost the immune system, but instead of vitamin C and zinc it’s fat they’re pumping in. Yes, fat.

John Worthington

The developing countries with poor sewage that are at the highest risk for contracting parasites such as this also are among those where people ingest cheaper diets that are generally higher in fat. The investigators were interested to see how a high-fat diet would affect immune responses to the whipworms.

And, as with almost everything else, the researchers turned to mice, which were introduced to a closely related species, Trichuris muris.

A high-fat diet, rather than obesity itself, increases a molecule on T-helper cells called ST2, and this allows an increased T-helper 2 response, effectively giving eviction notices to the parasites in the intestinal lining.

To say the least, the researchers were surprised since “high-fat diets are mostly associated with increased pathology during disease,” said senior author Richard Grencis, PhD, of the University of Manchester (England), who noted that ST2 is not normally triggered with a standard diet in mice but the high-fat diet gave it a boost and an “alternate pathway” out.

Now before you start ordering extra-large fries at the drive-through to keep the whipworms away, the researchers added that they “have previously published that weight loss can aid the expulsion of a different gut parasite worm.” Figures.

Once again, though, signs are pointing to the gut for improved health.

Pound of flesh buys less prison time

We should all have more Shakespeare in our lives. Yeah, yeah, Shakespeare is meant to be played, not read, and it can be a struggle to herd teenagers through the Bard’s interesting and bloody tragedies, but even a perfunctory reading of “The Merchant of Venice” would hopefully have prevented the dystopian nightmare Massachusetts has presented us with today.

Ye Jinghan/Unsplash

The United States has a massive shortage of donor organs. This is an unfortunate truth. So, to combat this issue, a pair of Massachusetts congresspeople have proposed HD 3822, which would allow prisoners to donate organs and/or bone marrow (a pound of flesh, so to speak) in exchange for up to a year in reduced prison time. Yes, that’s right. Give up pieces of yourself and the state of Massachusetts will deign to reduce your long prison sentence.

Oh, and before you dismiss this as typical Republican antics, the bill was sponsored by two Democrats, and in a statement one of them hoped to address racial disparities in organ donation, as people of color are much less likely to receive organs. Never mind that Black people are imprisoned at a much higher rate than Whites.

Yeah, this whole thing is what people in the business like to call an ethical disaster.

Fortunately, the bill will likely never be passed and it’s probably illegal anyway. A federal law from 1984 (how’s that for a coincidence) prevents people from donating organs for use in human transplantation in exchange for “valuable consideration.” In other words, you can’t sell your organs for profit, and in this case, reducing prison time would probably count as valuable consideration in the eyes of the courts.

Oh, and in case you’ve never read Merchant of Venice, Shylock, the character looking for the pound of flesh as payment for a debt? He’s the villain. In fact, it’s pretty safe to say that anyone looking to extract payment from human dismemberment is probably the bad guy of the story. Apparently that wasn’t clear.
 

How do you stop a fungi? With a deadly guy

Thanks to the new HBO series “The Last of Us,” there’s been a lot of talk about the upcoming fungi-pocalypse, as the show depicts the real-life “zombie fungus” Cordyceps turning humans into, you know, zombies.

Liane Hentscher/HBO

No need to worry, ladies and gentleman, because science has discovered a way to turn back the fungal horde. A heroic, and environmentally friendly, alternative to chemical pesticides “in the fight against resistant fungi [that] are now resistant to antimycotics – partly because they are used in large quantities in agricultural fields,” investigators at the Leibniz Institute for Natural Product Research and Infection Biology in Jena, Germany, said in a written statement.

We are, of course, talking about Keanu Reeves. Wait a second. He’s not even in “The Last of Us.” Sorry folks, we are being told that it really is Keanu Reeves. Our champion in the inevitable fungal pandemic is movie star Keanu Reeves. Sort of. It’s actually keanumycin, a substance produced by bacteria of the genus Pseudomonas.

Really? Keanumycin? “The lipopeptides kill so efficiently that we named them after Keanu Reeves because he, too, is extremely deadly in his roles,” lead author Sebastian Götze, PhD, explained.

Dr. Götze and his associates had been working with pseudomonads for quite a while before they were able to isolate the toxins responsible for their ability to kill amoebae, which resemble fungi in some characteristics. When then finally tried the keanumycin against gray mold rot on hydrangea leaves, the intensely contemplative star of “The Matrix” and “John Wick” – sorry, wrong Keanu – the bacterial derivative significantly inhibited growth of the fungus, they said.

Additional testing has shown that keanumycin is not highly toxic to human cells and is effective against fungi such as Candida albicans in very low concentrations, which makes it a good candidate for future pharmaceutical development.

To that news there can be only one response from the substance’s namesake.

High fat, bye parasites

Fat. Fat. Fat. Seems like everyone is trying to avoid it these days, but fat may be good thing when it comes to weaseling out a parasite.

The parasite in this case is the whipworm, aka Trichuris trichiura. You can find this guy in the intestines of millions of people, where it causes long-lasting infections. Yikes … Researchers have found that the plan of attack to get rid of this invasive species is to boost the immune system, but instead of vitamin C and zinc it’s fat they’re pumping in. Yes, fat.

John Worthington

The developing countries with poor sewage that are at the highest risk for contracting parasites such as this also are among those where people ingest cheaper diets that are generally higher in fat. The investigators were interested to see how a high-fat diet would affect immune responses to the whipworms.

And, as with almost everything else, the researchers turned to mice, which were introduced to a closely related species, Trichuris muris.

A high-fat diet, rather than obesity itself, increases a molecule on T-helper cells called ST2, and this allows an increased T-helper 2 response, effectively giving eviction notices to the parasites in the intestinal lining.

To say the least, the researchers were surprised since “high-fat diets are mostly associated with increased pathology during disease,” said senior author Richard Grencis, PhD, of the University of Manchester (England), who noted that ST2 is not normally triggered with a standard diet in mice but the high-fat diet gave it a boost and an “alternate pathway” out.

Now before you start ordering extra-large fries at the drive-through to keep the whipworms away, the researchers added that they “have previously published that weight loss can aid the expulsion of a different gut parasite worm.” Figures.

Once again, though, signs are pointing to the gut for improved health.

While it’s well known that COVID-19 vaccines are less effective in patients with chronic lymphocytic leukemia (CLL) who take immunity-lowering drugs, a new study offers fresh insight into what’s happening inside the body. In these patients, the vaccines often don’t boost B cells, which produce antibodies, but they do strengthen T cells, potentially providing crucial protection against severe illness and death.

These findings don’t reveal whether the T-cell boost actually provides extra protection against COVID-19. Still, the study suggests that patients with CLL should be vaccinated no matter which medications they’re taking, coauthor and hematologist/oncologist Clemens-Martin Wendtner, MD, of the Munich (Germany) Clinic, said in an interview.

“Do not defer or pause treatment,” said Dr. Wendtner, whose study was published in Blood Advances.

Patients with CLL appear to have among the weakest responses to the COVID-19 vaccine among people with various types of blood cancer. A meta-analysis published in 2022 found that seropositivity rates following vaccination were just 51% in patients with CLL, compared with 80%-90% in those with acute leukemia and 76%-80% of those with myeloma.

“Usually, the response rate to vaccination among the nonimmunocompromised would be 95%,” Dr. Wendtner said.

Research has also suggested that patients treated with B-cell pathway inhibitors and anti-CD20 antibodies are especially likely to have poorer responses to COVID-19 vaccines, no surprise considering that their job is to dampen the immune system. But there’s an unanswered question, according to Dr. Wendtner: Does “just measuring B-cell response tell us everything about the immune response?”

The new prospective, single-institution study aims to answer that question in patients who each received two types of vaccines. Researchers compared peripheral blood mononuclear cell transcriptional response with antibody and T-cell response rates in 15 patients with CLL/small lymphocytic lymphoma following vaccination with both the Pfizer-BioNTech and AstraZeneca vaccines.

The average antibody response was limited. “Overall, 7/15 of patients failed to mount a humoral response even after three-dose vaccination,” the researchers reported. All of the patients were “heavily pretreated” with CLL medications such as venetoclax, an anti-CD20 monoclonal antibody.

By contrast, the T-cell response was much stronger: 80% of patients (12/15) had a robust response, a number that grew to 90% (14/15) after a booster. This response is “almost ideal” considering that the response in a nonimmunocompromised person would be about 99%, Dr. Wendtner said.

The study also revealed that vaccine responses were weaker in patients who took a combination of a Bruton tyrosine kinase inhibitor and venetoclax within a year.

Four patients developed COVID-19 infections with the Omicron variant about 6 months after vaccination. All had mild symptoms. A lone patient had a history of COVID-19 infection prior to vaccination.

The researchers noted that the study had several limitations, including its small size, its reliance on a single institution, and the differences in treatments and vaccination protocols among the patient population.

Broadly speaking, the study showed that “a vaccine is not in vain” in patients with CLL, “although the doctor might not detect an antibody response,” Dr. Wendtner said. He added that mixing vaccine types should provide more protection. Start with a viral vector vaccine followed by an mRNA vaccine or vice versa, he suggested.

In an interview, infectious disease physician Joshua A. Hill, MD, from Fred Hutchinson Cancer Center, Seattle, who wasn’t involved with the study, said it makes “important and interesting observations to reinforce other studies with similar findings.”

Specifically, Dr. Hill said, “despite the absence of a robust antibody response some of these patients who are on active treatment, patients can still generate robust cellular immune responses in the form of T-cell immunity. Our understanding is that having T cell immunity will provide important additional protection for developing severe disease, although is less easily tested.”

As for the best vaccination strategies, Dr. Hill said “patients should get vaccinated as soon as they are eligible, according to standard guidelines. If patients have not yet started therapy, they should get their indicated vaccines before starting treatment whenever possible.”

The German study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases and the Bavarian State Ministry of Science and Art. Dr. Wendtner disclosed consultant fees from AstraZeneca and BioNTech, and another author disclosed consultant fees from AstraZeneca. The other authors reported no disclosures. Dr. Hill disclosed consultant fees from Moderna, Pfizer, and Gilead.

While it’s well known that COVID-19 vaccines are less effective in patients with chronic lymphocytic leukemia (CLL) who take immunity-lowering drugs, a new study offers fresh insight into what’s happening inside the body. In these patients, the vaccines often don’t boost B cells, which produce antibodies, but they do strengthen T cells, potentially providing crucial protection against severe illness and death.

These findings don’t reveal whether the T-cell boost actually provides extra protection against COVID-19. Still, the study suggests that patients with CLL should be vaccinated no matter which medications they’re taking, coauthor and hematologist/oncologist Clemens-Martin Wendtner, MD, of the Munich (Germany) Clinic, said in an interview.

“Do not defer or pause treatment,” said Dr. Wendtner, whose study was published in Blood Advances.

Patients with CLL appear to have among the weakest responses to the COVID-19 vaccine among people with various types of blood cancer. A meta-analysis published in 2022 found that seropositivity rates following vaccination were just 51% in patients with CLL, compared with 80%-90% in those with acute leukemia and 76%-80% of those with myeloma.

“Usually, the response rate to vaccination among the nonimmunocompromised would be 95%,” Dr. Wendtner said.

Research has also suggested that patients treated with B-cell pathway inhibitors and anti-CD20 antibodies are especially likely to have poorer responses to COVID-19 vaccines, no surprise considering that their job is to dampen the immune system. But there’s an unanswered question, according to Dr. Wendtner: Does “just measuring B-cell response tell us everything about the immune response?”

The new prospective, single-institution study aims to answer that question in patients who each received two types of vaccines. Researchers compared peripheral blood mononuclear cell transcriptional response with antibody and T-cell response rates in 15 patients with CLL/small lymphocytic lymphoma following vaccination with both the Pfizer-BioNTech and AstraZeneca vaccines.

The average antibody response was limited. “Overall, 7/15 of patients failed to mount a humoral response even after three-dose vaccination,” the researchers reported. All of the patients were “heavily pretreated” with CLL medications such as venetoclax, an anti-CD20 monoclonal antibody.

By contrast, the T-cell response was much stronger: 80% of patients (12/15) had a robust response, a number that grew to 90% (14/15) after a booster. This response is “almost ideal” considering that the response in a nonimmunocompromised person would be about 99%, Dr. Wendtner said.

The study also revealed that vaccine responses were weaker in patients who took a combination of a Bruton tyrosine kinase inhibitor and venetoclax within a year.

Four patients developed COVID-19 infections with the Omicron variant about 6 months after vaccination. All had mild symptoms. A lone patient had a history of COVID-19 infection prior to vaccination.

The researchers noted that the study had several limitations, including its small size, its reliance on a single institution, and the differences in treatments and vaccination protocols among the patient population.

Broadly speaking, the study showed that “a vaccine is not in vain” in patients with CLL, “although the doctor might not detect an antibody response,” Dr. Wendtner said. He added that mixing vaccine types should provide more protection. Start with a viral vector vaccine followed by an mRNA vaccine or vice versa, he suggested.

In an interview, infectious disease physician Joshua A. Hill, MD, from Fred Hutchinson Cancer Center, Seattle, who wasn’t involved with the study, said it makes “important and interesting observations to reinforce other studies with similar findings.”

Specifically, Dr. Hill said, “despite the absence of a robust antibody response some of these patients who are on active treatment, patients can still generate robust cellular immune responses in the form of T-cell immunity. Our understanding is that having T cell immunity will provide important additional protection for developing severe disease, although is less easily tested.”

As for the best vaccination strategies, Dr. Hill said “patients should get vaccinated as soon as they are eligible, according to standard guidelines. If patients have not yet started therapy, they should get their indicated vaccines before starting treatment whenever possible.”

The German study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases and the Bavarian State Ministry of Science and Art. Dr. Wendtner disclosed consultant fees from AstraZeneca and BioNTech, and another author disclosed consultant fees from AstraZeneca. The other authors reported no disclosures. Dr. Hill disclosed consultant fees from Moderna, Pfizer, and Gilead.

While it’s well known that COVID-19 vaccines are less effective in patients with chronic lymphocytic leukemia (CLL) who take immunity-lowering drugs, a new study offers fresh insight into what’s happening inside the body. In these patients, the vaccines often don’t boost B cells, which produce antibodies, but they do strengthen T cells, potentially providing crucial protection against severe illness and death.

These findings don’t reveal whether the T-cell boost actually provides extra protection against COVID-19. Still, the study suggests that patients with CLL should be vaccinated no matter which medications they’re taking, coauthor and hematologist/oncologist Clemens-Martin Wendtner, MD, of the Munich (Germany) Clinic, said in an interview.

“Do not defer or pause treatment,” said Dr. Wendtner, whose study was published in Blood Advances.

Patients with CLL appear to have among the weakest responses to the COVID-19 vaccine among people with various types of blood cancer. A meta-analysis published in 2022 found that seropositivity rates following vaccination were just 51% in patients with CLL, compared with 80%-90% in those with acute leukemia and 76%-80% of those with myeloma.

“Usually, the response rate to vaccination among the nonimmunocompromised would be 95%,” Dr. Wendtner said.

Research has also suggested that patients treated with B-cell pathway inhibitors and anti-CD20 antibodies are especially likely to have poorer responses to COVID-19 vaccines, no surprise considering that their job is to dampen the immune system. But there’s an unanswered question, according to Dr. Wendtner: Does “just measuring B-cell response tell us everything about the immune response?”

The new prospective, single-institution study aims to answer that question in patients who each received two types of vaccines. Researchers compared peripheral blood mononuclear cell transcriptional response with antibody and T-cell response rates in 15 patients with CLL/small lymphocytic lymphoma following vaccination with both the Pfizer-BioNTech and AstraZeneca vaccines.

The average antibody response was limited. “Overall, 7/15 of patients failed to mount a humoral response even after three-dose vaccination,” the researchers reported. All of the patients were “heavily pretreated” with CLL medications such as venetoclax, an anti-CD20 monoclonal antibody.

By contrast, the T-cell response was much stronger: 80% of patients (12/15) had a robust response, a number that grew to 90% (14/15) after a booster. This response is “almost ideal” considering that the response in a nonimmunocompromised person would be about 99%, Dr. Wendtner said.

The study also revealed that vaccine responses were weaker in patients who took a combination of a Bruton tyrosine kinase inhibitor and venetoclax within a year.

Four patients developed COVID-19 infections with the Omicron variant about 6 months after vaccination. All had mild symptoms. A lone patient had a history of COVID-19 infection prior to vaccination.

The researchers noted that the study had several limitations, including its small size, its reliance on a single institution, and the differences in treatments and vaccination protocols among the patient population.

Broadly speaking, the study showed that “a vaccine is not in vain” in patients with CLL, “although the doctor might not detect an antibody response,” Dr. Wendtner said. He added that mixing vaccine types should provide more protection. Start with a viral vector vaccine followed by an mRNA vaccine or vice versa, he suggested.

In an interview, infectious disease physician Joshua A. Hill, MD, from Fred Hutchinson Cancer Center, Seattle, who wasn’t involved with the study, said it makes “important and interesting observations to reinforce other studies with similar findings.”

Specifically, Dr. Hill said, “despite the absence of a robust antibody response some of these patients who are on active treatment, patients can still generate robust cellular immune responses in the form of T-cell immunity. Our understanding is that having T cell immunity will provide important additional protection for developing severe disease, although is less easily tested.”

As for the best vaccination strategies, Dr. Hill said “patients should get vaccinated as soon as they are eligible, according to standard guidelines. If patients have not yet started therapy, they should get their indicated vaccines before starting treatment whenever possible.”

The German study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases and the Bavarian State Ministry of Science and Art. Dr. Wendtner disclosed consultant fees from AstraZeneca and BioNTech, and another author disclosed consultant fees from AstraZeneca. The other authors reported no disclosures. Dr. Hill disclosed consultant fees from Moderna, Pfizer, and Gilead.

Posoleucel, an investigational off-the-shelf T-cell therapy, showed promising safety and efficacy for eradicating multiple viruses in a phase 2 study of patients who previously underwent allogeneic stem cell transplant (allo-SCT).

Of 58 adult and pediatric patients with a total of 70 viral infections at the time of enrollment in the open-label trial, 55 (95%) had a treatment response within 6 weeks of infusion with posoleucel, and the amount of circulating virus was reduced by an average of 97%, Thomas Pfeiffer, MD, and colleagues reported.

In 12 patients who had more than one viral infection, 10 (83%) had a response against each of the viruses, researchers noted.

The responses were defined as a reduction of viral load to normal range with complete response, or as a viral load reduction of at least 50 percent or a partial response.

The findings were published online in Clinical Cancer Research.

Specifically, the treatment evoked responses to adenovirus in 83% of 12 affected patients, BK virus in all 27 affected patients, CMV in 96% of 24 affected patients, Epstein-Barr virus in both affected patients, and human herpes virus in 75% of 4 patients. Additionally, one patient with JC virus experienced initial stabilization of viral symptoms, although the symptoms ultimately progressed, and the patient died.

“The key finding is that 95% of patients whose infections had been refractory to conventional therapies responded to posoleucel with corresponding reductions in viral load and with limited rates of GvHD [graft-versus-host disease],” Dr. Pfeiffer, a pediatric cancer specialist at Washington University in St. Louis, explained in a prepared statement. “Overall, posoleucel was found to be very effective and had a favorable safety profile in a highly vulnerable patient population.”

“Another exciting observation from this study was that posoleucel could be administered within 24 hours in some cases, with symptom resolution in a matter of days in some patients,” added senior author Bilal Omer, MD, a pediatric hematologist-oncologist at Texas Children’s Hospital and Baylor College of Medicine, Houston. “It was quite impressive how quickly patients could be treated.”

Dr. Omer explained that currently available treatments for patients who develop viral infections after allo-SCT have numerous limitations, including toxicities such as myelosuppression or kidney injury and limited efficacy.

In this study, 13 patients (22% percent) reported acute GvHD, but only 4 of the cases were considered de novo cases; 9 patients had been diagnosed with GvHD prior to posoleucel treatment. The most common GvHD symptoms were skin flares, which were successfully treated in the majority of cases, Dr. Omer explained.

No patients experienced cytokine release syndrome.

“The ability to target six viruses with a single therapy would be beneficial for patients with multiple viral infections,” he said, adding that posoleucel is the first T-cell therapy in development for BK virus, which can cause severe bladder infections.

Posoleucel utilizes healthy donor T cells rather than the patient’s or transplant donor’s T cells, which circumvents the lengthy development process of more customized therapies and allows for earlier treatment of viral infections, he noted.

The investigators are currently evaluating posoleucel in randomized phase 3 clinical trials to confirm these findings.

This study was supported by the National Heart, Lung, and Blood Institute Production Assistance for Cellular Therapies; Conquer Cancer Foundation/American Society for Clinical Oncology; the Dan L. Duncan Comprehensive Cancer Center; and the National Institutes of Health.

Dr. Omer disclosed pending patent applications for engineered T-cell therapies unrelated to this study, and he has received research funding from AlloVir, which manufactures posoleucel. Dr. Pfeiffer declared no conflicts of interest.
 

Posoleucel, an investigational off-the-shelf T-cell therapy, showed promising safety and efficacy for eradicating multiple viruses in a phase 2 study of patients who previously underwent allogeneic stem cell transplant (allo-SCT).

Of 58 adult and pediatric patients with a total of 70 viral infections at the time of enrollment in the open-label trial, 55 (95%) had a treatment response within 6 weeks of infusion with posoleucel, and the amount of circulating virus was reduced by an average of 97%, Thomas Pfeiffer, MD, and colleagues reported.

In 12 patients who had more than one viral infection, 10 (83%) had a response against each of the viruses, researchers noted.

The responses were defined as a reduction of viral load to normal range with complete response, or as a viral load reduction of at least 50 percent or a partial response.

The findings were published online in Clinical Cancer Research.

Specifically, the treatment evoked responses to adenovirus in 83% of 12 affected patients, BK virus in all 27 affected patients, CMV in 96% of 24 affected patients, Epstein-Barr virus in both affected patients, and human herpes virus in 75% of 4 patients. Additionally, one patient with JC virus experienced initial stabilization of viral symptoms, although the symptoms ultimately progressed, and the patient died.

“The key finding is that 95% of patients whose infections had been refractory to conventional therapies responded to posoleucel with corresponding reductions in viral load and with limited rates of GvHD [graft-versus-host disease],” Dr. Pfeiffer, a pediatric cancer specialist at Washington University in St. Louis, explained in a prepared statement. “Overall, posoleucel was found to be very effective and had a favorable safety profile in a highly vulnerable patient population.”

“Another exciting observation from this study was that posoleucel could be administered within 24 hours in some cases, with symptom resolution in a matter of days in some patients,” added senior author Bilal Omer, MD, a pediatric hematologist-oncologist at Texas Children’s Hospital and Baylor College of Medicine, Houston. “It was quite impressive how quickly patients could be treated.”

Dr. Omer explained that currently available treatments for patients who develop viral infections after allo-SCT have numerous limitations, including toxicities such as myelosuppression or kidney injury and limited efficacy.

In this study, 13 patients (22% percent) reported acute GvHD, but only 4 of the cases were considered de novo cases; 9 patients had been diagnosed with GvHD prior to posoleucel treatment. The most common GvHD symptoms were skin flares, which were successfully treated in the majority of cases, Dr. Omer explained.

No patients experienced cytokine release syndrome.

“The ability to target six viruses with a single therapy would be beneficial for patients with multiple viral infections,” he said, adding that posoleucel is the first T-cell therapy in development for BK virus, which can cause severe bladder infections.

Posoleucel utilizes healthy donor T cells rather than the patient’s or transplant donor’s T cells, which circumvents the lengthy development process of more customized therapies and allows for earlier treatment of viral infections, he noted.

The investigators are currently evaluating posoleucel in randomized phase 3 clinical trials to confirm these findings.

This study was supported by the National Heart, Lung, and Blood Institute Production Assistance for Cellular Therapies; Conquer Cancer Foundation/American Society for Clinical Oncology; the Dan L. Duncan Comprehensive Cancer Center; and the National Institutes of Health.

Dr. Omer disclosed pending patent applications for engineered T-cell therapies unrelated to this study, and he has received research funding from AlloVir, which manufactures posoleucel. Dr. Pfeiffer declared no conflicts of interest.
 

Posoleucel, an investigational off-the-shelf T-cell therapy, showed promising safety and efficacy for eradicating multiple viruses in a phase 2 study of patients who previously underwent allogeneic stem cell transplant (allo-SCT).

Of 58 adult and pediatric patients with a total of 70 viral infections at the time of enrollment in the open-label trial, 55 (95%) had a treatment response within 6 weeks of infusion with posoleucel, and the amount of circulating virus was reduced by an average of 97%, Thomas Pfeiffer, MD, and colleagues reported.

In 12 patients who had more than one viral infection, 10 (83%) had a response against each of the viruses, researchers noted.

The responses were defined as a reduction of viral load to normal range with complete response, or as a viral load reduction of at least 50 percent or a partial response.

The findings were published online in Clinical Cancer Research.

Specifically, the treatment evoked responses to adenovirus in 83% of 12 affected patients, BK virus in all 27 affected patients, CMV in 96% of 24 affected patients, Epstein-Barr virus in both affected patients, and human herpes virus in 75% of 4 patients. Additionally, one patient with JC virus experienced initial stabilization of viral symptoms, although the symptoms ultimately progressed, and the patient died.

“The key finding is that 95% of patients whose infections had been refractory to conventional therapies responded to posoleucel with corresponding reductions in viral load and with limited rates of GvHD [graft-versus-host disease],” Dr. Pfeiffer, a pediatric cancer specialist at Washington University in St. Louis, explained in a prepared statement. “Overall, posoleucel was found to be very effective and had a favorable safety profile in a highly vulnerable patient population.”

“Another exciting observation from this study was that posoleucel could be administered within 24 hours in some cases, with symptom resolution in a matter of days in some patients,” added senior author Bilal Omer, MD, a pediatric hematologist-oncologist at Texas Children’s Hospital and Baylor College of Medicine, Houston. “It was quite impressive how quickly patients could be treated.”

Dr. Omer explained that currently available treatments for patients who develop viral infections after allo-SCT have numerous limitations, including toxicities such as myelosuppression or kidney injury and limited efficacy.

In this study, 13 patients (22% percent) reported acute GvHD, but only 4 of the cases were considered de novo cases; 9 patients had been diagnosed with GvHD prior to posoleucel treatment. The most common GvHD symptoms were skin flares, which were successfully treated in the majority of cases, Dr. Omer explained.

No patients experienced cytokine release syndrome.

“The ability to target six viruses with a single therapy would be beneficial for patients with multiple viral infections,” he said, adding that posoleucel is the first T-cell therapy in development for BK virus, which can cause severe bladder infections.

Posoleucel utilizes healthy donor T cells rather than the patient’s or transplant donor’s T cells, which circumvents the lengthy development process of more customized therapies and allows for earlier treatment of viral infections, he noted.

The investigators are currently evaluating posoleucel in randomized phase 3 clinical trials to confirm these findings.

This study was supported by the National Heart, Lung, and Blood Institute Production Assistance for Cellular Therapies; Conquer Cancer Foundation/American Society for Clinical Oncology; the Dan L. Duncan Comprehensive Cancer Center; and the National Institutes of Health.

Dr. Omer disclosed pending patent applications for engineered T-cell therapies unrelated to this study, and he has received research funding from AlloVir, which manufactures posoleucel. Dr. Pfeiffer declared no conflicts of interest.
 

As physicians well know, magic wands don’t exist. If they did, every patient would recover in the exam room, prior authorization wouldn’t exist, and continuing medical education credits would be printed on bearer bonds.

But in the spirit of suspended disbelief, we asked physicians and other contributors what their three wishes would be for their patients, practice/hospital, and health systems. Because, hey – we all need to dream.
 

Suzanne C. Boulter, MD, adjunct professor of pediatrics and community and family medicine, Geisel School of Medicine at Dartmouth, Hanover, N.H.
Patients: An end to gun violence.
Practice/hospital: Adequate staffing and pediatric bed availability.
Health system: Universal access to health insurance.

Sarah G. Candler, MD, MPH, care team medical director and director of academic relations, Iora Primary Care, Northside Clinic, Houston
Patients: Systems of health that start with communities of safety, including access to affordable housing, food, transportation, and health care.
Practice/hospital: I.N.T.E.R.O.P.E.R.A.B.I.L.I.T.Y.
Health system: Clinician leadership that has the power (often aka funding) to do what’s right, not just what’s right in front of us.

Arthur L. Caplan, PhD, bioethicist, New York University Langone Health
Patients: I wish for patients in the United States greater access to affordable primary care. There are still too many people without insurance or a reasonably accessible quality provider. And I especially wish for the rapid expansion of affordable training programs to meet staffing needs, including more scholarships, 3-year programs, and more new primary care–oriented schools.
Hospital: Increased staffing, especially nursing. There are too many retirements, too much burnout, and too much privatization into boutique practices to ensure the ability to provide high-quality, safe, patient-oriented care.
Health system: I wish for health systems to seriously move into electronic medicine. While billing has become electronic, there is still much to be done to supplement diagnosis, training, and standardized data collection on key metrics. Systems are not yet behaving in a manner consistent with the hype in this regard.

Stephen Devries, MD, executive director, Gaples Institute (nonprofit) and adjunct associate professor of nutrition, Harvard School of Public Health, Boston
Patients: Patients continue to demand more from their health care professionals and insist that they are offered evidence-based counseling on nutrition and lifestyle strategies.
Practice: Quality-based reimbursement for medical services will take hold that will incentivize much-needed preventive care.
Hospital: Hospitals will more fully embrace the role of serving as true centers of health and focus as much on preventive medicine as on the more lucrative areas of high-tech treatment.

Peter D. Friedmann, MD, MPH, chief research officer, Baystate Health, Springfield, Mass.
Seconded by: Elisabeth Poorman, MD, general internist, University of Washington Clinic, Kent
Patients: Don’t forget the ongoing epidemic of substance use disorder, a major cause of premature mortality. Descheduling of cannabis and expungement of cannabis-related convictions.
Practice/hospital: Commitment of hospitals and practices to address stigma and ensure delivery of medications for opioid use disorder in primary care, the emergency department, and inpatient settings.
Health system: Reform of antiquated methadone regulations to permit office-based prescription and pharmacy dispensing to treat opioid use disorder, as is the case in most of the world.

Robert Glatter, MD, emergency physician, New York
Patients: I want all patients to understand the enormous strain the health care system has been under – not just with the pandemic, the tripledemic, and mpox [previously called monkeypox], but well before the onset of these public health crises.
Hospital: The medical profession has endured not only burnout but a growing mental health crisis, staffing shortages, a physician addiction crisis, and increased attrition in the decade leading up to the pandemic. The pandemic was like a punch in the gut, occurring at the most inopportune time one could imagine.
Health system: The intersection of health and the state of our public health deserves important mention. Unless we take action to bolster our public health infrastructure, our health care system will be in jeopardy, unable to handle the next pandemic, which could be just around the corner.

William E. Golden, MD, medical director of Arkansas Medicaid, professor of medicine and public health, University of Arkansas for Medical Sciences, Little Rock
Patients: Affordable options for diabetes and obesity management.
Health system: Greater investment by health systems and third-party payers in primary care infrastructure.

Gregory A. Hood, MD, Baptist Health, Lexington, Ky.
Patients: To embrace the gift of getting out in the world, being active, and connecting with others – having put down the screens.
Health system: To be freed from the financial gamesmanship of the insurers as they continue to serve their goals of promoting their hedge fund investing over meaningful and productive partnering with primary care physicians, and that they gain insight that they are one of the main reasons they can’t find PCPs to connect with to render care in disadvantaged environments – because they made it economically impossible to do so.

Robert H. Hopkins Jr., MD, associate professor of internal medicine and pediatrics and director of the division of general internal medicine, University of Arkansas for Medical Sciences, Little Rock
Patients/Health system: I would wish for staged implementation of universal basic health coverage for all, perhaps closest to the French or Canadian model. This would need to be coupled with expanded funding for nursing education, graduate medical education, and tracing of other health-related professionals.

Harvey Hsu, MD, Banner Health, Phoenix
Patients: More clear guidelines that are simple to understand. This can apply to colonoscopy (now age 45), immunizations, blood pressure goals. I wish medications were not as expensive so patients can take the best medicine for them and not stop taking them when they hit their donut hole in coverage.
Practice: We have been functioning on a leaner basis to cut down costs. When the pandemic hit, turnover was high and we lost PAs, nurses, front-office staff, and physicians. Having adequate staffing is probably number one on many lists. One way we dealt with lack of staffing was converting in-person visits to telehealth. Video visits are paid the same as in-person visits, but if the patient could not get their video to work, then it would be a telephone visit. Now many insurances do not even pay for telephone visits. So I would wish that we could still be reimbursed for telehealth visits.
Health system: I would wish for our health system to recognize the extra work required to take care of patients while improving quality and meeting quality measures. Allowing more time for patient visits could be one way to meet those goals or having more support staff to make sure patients get their colonoscopy/mammograms done, improve their sugars, and take their medications.

Jan L. Shifren, MD, Vincent Trustees Professor, obstetrics, gynecology, and reproductive biology, Harvard Medical School, and director of the Midlife Women’s Health Center at Massachusetts General Hospital, Boston
Patients: I wish for patients to be actively involved in all aspects of their care, well informed with shared decision-making.
Practice: I wish for the enormous time demands of electronic medical records and documentation to not distract from the pleasure of caring for patients.
Health system: Patient care remains at the center of decisions and programs.

Timothy J. Joos, MD, MPH, internal medicine/pediatrics, Seattle
Health system: I wish someone could figure out how we could be reimbursed for the quality of care we provide instead of the volume of patients we see. I wish EMRs could become less complicated and more user-friendly rather than needing advanced training to use.

Peter Kovacs, MD, medical director, Kaali Institute IVF Center, Budapest
Patients: I work as an infertility specialist, so when we talk about infectious diseases and associated risks, we talk about a minimum of two (female and male partner) and ideally three (plus the pregnancy) individuals. We have learned that SARS-CoV-2 affects reproductive health. It may compromise sperm production, could delay fertility treatment, could be associated with lower success rates; and if the treatment is successful, it may harm the pregnant woman/fetus/newborn. The best preventive measure that we can offer is vaccination. One cannot overemphasize the importance of preventive measures, paying attention to personal hygiene and social distancing. Therefore, I wish those planning to become pregnant to listen to their health care provider and accept the recommended vaccines to minimize the risk of getting infected and to minimize the risk for severe disease, especially if one undergoes successful fertility treatment and achieves a long-desired pregnancy.
Practice: During the 2022 calendar year we had many days when one or more employees were out of work on sick leave. This puts extra stress on the others to allow uncompromised work in the clinic. In addition, we all have to work in a less-comfortable environment if we consider mask use every day, all day. For health care workers, vaccination is mandated but many still are affected by milder forms of coronavirus infection and other respiratory diseases. Therefore, I wish my colleagues patience toward the preventive measures to lower the individual risk for infections. As a result, hopefully we will have a less stressful 2023.
Health system: Many resources had to be delegated to dealing with acute and chronic COVID, and this was at the expense of routine daily elective and preventive medical services. I wish the health care system to return to normal daily operations, to have the personnel and financial resources to carry on with the required preventive and elective medical services to avoid long-term consequences of not being able to provide such services. It would be sad if we had to treat otherwise preventable illnesses in the upcoming years that went undiagnosed and/or were not properly managed due to limited resources as the result of the pandemic.

Alan R. Nelson, MD, internist-endocrinologist, retired
Patients: Expansion of the FDA’s authority into over-the-counter drugs, including the veracity of their advertising claims.
Practice: Make diabetes drugs available at a reasonable cost.
Health system: With the expansion of Medicaid eligibility during COVID-19 coming to a close, federal government actions are necessary for those who once again have been dropped from coverage to have their legitimate needs met.

Kevin Powell, MD, PhD, St. Louis
Patients: To be cared for and about, and not just medically, even when illness strikes and health fails.
Hospitals: To hear the thankfulness of a grateful public for the care you provide, and to hear that above the angry noise of outraged individuals who spout vitriol and focus on how they believe others have harmed them.
Health system: A truer understanding of mercy and justice.

Margaret Thew, DNP, FNP-BC, director, department of adolescent medicine, Children’s Hospital of Wisconsin, Milwaukee
Seconded by: M. Susan Jay, MD, professor of pediatrics, chief of adolescent medicine, Medical College of Wisconsin and Children’s Hospital of Wisconsin, Milwaukee
My wish for patients, hospital, and system: health, calm, and grace.

Mark P. Trolice, MD, director of Fertility CARE, the IVF Center, Winter Park, Fla.
Patients: To be proactive in their health care and be their own advocates. Question when unclear and only consult credible resources.
Practice/hospital: Improve support of physicians and all health care providers to allow more input in their practice operations and growth.
Health system: Reduce interference of the “business of medicine” and ensure that the patient experience is the priority.

Charles P. Vega, MD, University of California, Irvine
Three minutes on a routine basis for everyone in health care to reflect on our blessings and the honor and gravity – as well as joy – that are integral to health care. Three minutes that will also help us to recognize our challenges and put them in the proper context. I know 3 minutes is not meeting any standard for reflective practice. But it’s 3 minutes more than I have right now.

Karen Breach Washington, MD, medical director of WellCare of North Carolina/Centene, Charlotte
Seconded by: Lillian M. Beard, MD, physician director, Children’s Pediatricians and Associates, Silver Spring, Md.
Patients: Access to affordable health care.
Hospital: Resources to care for patients (sufficient number of beds and a healthy staff).
Health system: Equity for all.

Andrew Wilner, MD, host of the podcast “The Art of Medicine with Dr. Andrew Wilner,” www.andrewwilner.com
Let’s put patients first! Too many extraneous considerations other than the patient’s best interest obstruct optimal patient care.

Here are just a few examples of patients coming last instead of first.

• If a patient needs to start a new medication in hospital, we shouldn’t have to wait until the patient is an outpatient because “that’s when insurance will pay.”
• If there’s a new medication that’s better than the old medication, we shouldn’t be forced to choose the old medication and provide inferior care because “that’s when insurance will pay.”
• If patients need to stay in hospital, we shouldn’t be pressured to discharge them because the hospital has decided that decreasing “length of stay” is its highest priority.

Dr. Francis Peabody said it best in 1927: “The secret of the care of the patient is in caring for the patient.” How hard is that?

In 2023, why don’t we follow Dr. Peabody’s sage advice from nearly 100 years ago and see what happens?
 

James M. Wooten, PharmD, University of Missouri–Kansas City, University Health, Kansas City, Mo.
Patients: I want patients to understand and properly realize the advantage of vaccinations – not only for COVID-19 but also for influenza. There is so much misinformation that I spend a lot of time trying to convince patients to get vaccinated. Most patients don’t realize that through their lives, most of them have already been vaccinated for something just to be able to attend school. How the COVID-19 vaccine created so much stigma makes little sense to me. I also want patients to understand that COVID-19 vaccination and boosters do not always prevent infection but will many times prevent severe infection. I believe that better patient communication and education is the key and will always be the key to improving vaccination numbers. Not only communicating and educating patients on vaccination itself but also making patients realize that personal vaccination decisions may affect what happens to your neighbor. Allowing infection means that you may be more likely to infect someone else. As a society, we must take care of each other.
Health system: It will be interesting to see what happens when vaccines are no longer reimbursed by the federal government. Understanding which vaccines work best and are better tolerated will be key to choosing appropriate vaccine brands. Health care providers will need to be very selective regarding which vaccines are selected for formulary inclusion. Thorough meta-analysis studies must be done to provide more evaluable information to allow for appropriate selection. “Knowledge is power!” Appropriate knowledge will help distinguish which vaccines work best for various patient populations.

A version of this article first appeared on Medscape.com.

As physicians well know, magic wands don’t exist. If they did, every patient would recover in the exam room, prior authorization wouldn’t exist, and continuing medical education credits would be printed on bearer bonds.

But in the spirit of suspended disbelief, we asked physicians and other contributors what their three wishes would be for their patients, practice/hospital, and health systems. Because, hey – we all need to dream.
 

Suzanne C. Boulter, MD, adjunct professor of pediatrics and community and family medicine, Geisel School of Medicine at Dartmouth, Hanover, N.H.
Patients: An end to gun violence.
Practice/hospital: Adequate staffing and pediatric bed availability.
Health system: Universal access to health insurance.

Sarah G. Candler, MD, MPH, care team medical director and director of academic relations, Iora Primary Care, Northside Clinic, Houston
Patients: Systems of health that start with communities of safety, including access to affordable housing, food, transportation, and health care.
Practice/hospital: I.N.T.E.R.O.P.E.R.A.B.I.L.I.T.Y.
Health system: Clinician leadership that has the power (often aka funding) to do what’s right, not just what’s right in front of us.

Arthur L. Caplan, PhD, bioethicist, New York University Langone Health
Patients: I wish for patients in the United States greater access to affordable primary care. There are still too many people without insurance or a reasonably accessible quality provider. And I especially wish for the rapid expansion of affordable training programs to meet staffing needs, including more scholarships, 3-year programs, and more new primary care–oriented schools.
Hospital: Increased staffing, especially nursing. There are too many retirements, too much burnout, and too much privatization into boutique practices to ensure the ability to provide high-quality, safe, patient-oriented care.
Health system: I wish for health systems to seriously move into electronic medicine. While billing has become electronic, there is still much to be done to supplement diagnosis, training, and standardized data collection on key metrics. Systems are not yet behaving in a manner consistent with the hype in this regard.

Stephen Devries, MD, executive director, Gaples Institute (nonprofit) and adjunct associate professor of nutrition, Harvard School of Public Health, Boston
Patients: Patients continue to demand more from their health care professionals and insist that they are offered evidence-based counseling on nutrition and lifestyle strategies.
Practice: Quality-based reimbursement for medical services will take hold that will incentivize much-needed preventive care.
Hospital: Hospitals will more fully embrace the role of serving as true centers of health and focus as much on preventive medicine as on the more lucrative areas of high-tech treatment.

Peter D. Friedmann, MD, MPH, chief research officer, Baystate Health, Springfield, Mass.
Seconded by: Elisabeth Poorman, MD, general internist, University of Washington Clinic, Kent
Patients: Don’t forget the ongoing epidemic of substance use disorder, a major cause of premature mortality. Descheduling of cannabis and expungement of cannabis-related convictions.
Practice/hospital: Commitment of hospitals and practices to address stigma and ensure delivery of medications for opioid use disorder in primary care, the emergency department, and inpatient settings.
Health system: Reform of antiquated methadone regulations to permit office-based prescription and pharmacy dispensing to treat opioid use disorder, as is the case in most of the world.

Robert Glatter, MD, emergency physician, New York
Patients: I want all patients to understand the enormous strain the health care system has been under – not just with the pandemic, the tripledemic, and mpox [previously called monkeypox], but well before the onset of these public health crises.
Hospital: The medical profession has endured not only burnout but a growing mental health crisis, staffing shortages, a physician addiction crisis, and increased attrition in the decade leading up to the pandemic. The pandemic was like a punch in the gut, occurring at the most inopportune time one could imagine.
Health system: The intersection of health and the state of our public health deserves important mention. Unless we take action to bolster our public health infrastructure, our health care system will be in jeopardy, unable to handle the next pandemic, which could be just around the corner.

William E. Golden, MD, medical director of Arkansas Medicaid, professor of medicine and public health, University of Arkansas for Medical Sciences, Little Rock
Patients: Affordable options for diabetes and obesity management.
Health system: Greater investment by health systems and third-party payers in primary care infrastructure.

Gregory A. Hood, MD, Baptist Health, Lexington, Ky.
Patients: To embrace the gift of getting out in the world, being active, and connecting with others – having put down the screens.
Health system: To be freed from the financial gamesmanship of the insurers as they continue to serve their goals of promoting their hedge fund investing over meaningful and productive partnering with primary care physicians, and that they gain insight that they are one of the main reasons they can’t find PCPs to connect with to render care in disadvantaged environments – because they made it economically impossible to do so.

Robert H. Hopkins Jr., MD, associate professor of internal medicine and pediatrics and director of the division of general internal medicine, University of Arkansas for Medical Sciences, Little Rock
Patients/Health system: I would wish for staged implementation of universal basic health coverage for all, perhaps closest to the French or Canadian model. This would need to be coupled with expanded funding for nursing education, graduate medical education, and tracing of other health-related professionals.

Harvey Hsu, MD, Banner Health, Phoenix
Patients: More clear guidelines that are simple to understand. This can apply to colonoscopy (now age 45), immunizations, blood pressure goals. I wish medications were not as expensive so patients can take the best medicine for them and not stop taking them when they hit their donut hole in coverage.
Practice: We have been functioning on a leaner basis to cut down costs. When the pandemic hit, turnover was high and we lost PAs, nurses, front-office staff, and physicians. Having adequate staffing is probably number one on many lists. One way we dealt with lack of staffing was converting in-person visits to telehealth. Video visits are paid the same as in-person visits, but if the patient could not get their video to work, then it would be a telephone visit. Now many insurances do not even pay for telephone visits. So I would wish that we could still be reimbursed for telehealth visits.
Health system: I would wish for our health system to recognize the extra work required to take care of patients while improving quality and meeting quality measures. Allowing more time for patient visits could be one way to meet those goals or having more support staff to make sure patients get their colonoscopy/mammograms done, improve their sugars, and take their medications.

Jan L. Shifren, MD, Vincent Trustees Professor, obstetrics, gynecology, and reproductive biology, Harvard Medical School, and director of the Midlife Women’s Health Center at Massachusetts General Hospital, Boston
Patients: I wish for patients to be actively involved in all aspects of their care, well informed with shared decision-making.
Practice: I wish for the enormous time demands of electronic medical records and documentation to not distract from the pleasure of caring for patients.
Health system: Patient care remains at the center of decisions and programs.

Timothy J. Joos, MD, MPH, internal medicine/pediatrics, Seattle
Health system: I wish someone could figure out how we could be reimbursed for the quality of care we provide instead of the volume of patients we see. I wish EMRs could become less complicated and more user-friendly rather than needing advanced training to use.

Peter Kovacs, MD, medical director, Kaali Institute IVF Center, Budapest
Patients: I work as an infertility specialist, so when we talk about infectious diseases and associated risks, we talk about a minimum of two (female and male partner) and ideally three (plus the pregnancy) individuals. We have learned that SARS-CoV-2 affects reproductive health. It may compromise sperm production, could delay fertility treatment, could be associated with lower success rates; and if the treatment is successful, it may harm the pregnant woman/fetus/newborn. The best preventive measure that we can offer is vaccination. One cannot overemphasize the importance of preventive measures, paying attention to personal hygiene and social distancing. Therefore, I wish those planning to become pregnant to listen to their health care provider and accept the recommended vaccines to minimize the risk of getting infected and to minimize the risk for severe disease, especially if one undergoes successful fertility treatment and achieves a long-desired pregnancy.
Practice: During the 2022 calendar year we had many days when one or more employees were out of work on sick leave. This puts extra stress on the others to allow uncompromised work in the clinic. In addition, we all have to work in a less-comfortable environment if we consider mask use every day, all day. For health care workers, vaccination is mandated but many still are affected by milder forms of coronavirus infection and other respiratory diseases. Therefore, I wish my colleagues patience toward the preventive measures to lower the individual risk for infections. As a result, hopefully we will have a less stressful 2023.
Health system: Many resources had to be delegated to dealing with acute and chronic COVID, and this was at the expense of routine daily elective and preventive medical services. I wish the health care system to return to normal daily operations, to have the personnel and financial resources to carry on with the required preventive and elective medical services to avoid long-term consequences of not being able to provide such services. It would be sad if we had to treat otherwise preventable illnesses in the upcoming years that went undiagnosed and/or were not properly managed due to limited resources as the result of the pandemic.

Alan R. Nelson, MD, internist-endocrinologist, retired
Patients: Expansion of the FDA’s authority into over-the-counter drugs, including the veracity of their advertising claims.
Practice: Make diabetes drugs available at a reasonable cost.
Health system: With the expansion of Medicaid eligibility during COVID-19 coming to a close, federal government actions are necessary for those who once again have been dropped from coverage to have their legitimate needs met.

Kevin Powell, MD, PhD, St. Louis
Patients: To be cared for and about, and not just medically, even when illness strikes and health fails.
Hospitals: To hear the thankfulness of a grateful public for the care you provide, and to hear that above the angry noise of outraged individuals who spout vitriol and focus on how they believe others have harmed them.
Health system: A truer understanding of mercy and justice.

Margaret Thew, DNP, FNP-BC, director, department of adolescent medicine, Children’s Hospital of Wisconsin, Milwaukee
Seconded by: M. Susan Jay, MD, professor of pediatrics, chief of adolescent medicine, Medical College of Wisconsin and Children’s Hospital of Wisconsin, Milwaukee
My wish for patients, hospital, and system: health, calm, and grace.

Mark P. Trolice, MD, director of Fertility CARE, the IVF Center, Winter Park, Fla.
Patients: To be proactive in their health care and be their own advocates. Question when unclear and only consult credible resources.
Practice/hospital: Improve support of physicians and all health care providers to allow more input in their practice operations and growth.
Health system: Reduce interference of the “business of medicine” and ensure that the patient experience is the priority.

Charles P. Vega, MD, University of California, Irvine
Three minutes on a routine basis for everyone in health care to reflect on our blessings and the honor and gravity – as well as joy – that are integral to health care. Three minutes that will also help us to recognize our challenges and put them in the proper context. I know 3 minutes is not meeting any standard for reflective practice. But it’s 3 minutes more than I have right now.

Karen Breach Washington, MD, medical director of WellCare of North Carolina/Centene, Charlotte
Seconded by: Lillian M. Beard, MD, physician director, Children’s Pediatricians and Associates, Silver Spring, Md.
Patients: Access to affordable health care.
Hospital: Resources to care for patients (sufficient number of beds and a healthy staff).
Health system: Equity for all.

Andrew Wilner, MD, host of the podcast “The Art of Medicine with Dr. Andrew Wilner,” www.andrewwilner.com
Let’s put patients first! Too many extraneous considerations other than the patient’s best interest obstruct optimal patient care.

Here are just a few examples of patients coming last instead of first.

• If a patient needs to start a new medication in hospital, we shouldn’t have to wait until the patient is an outpatient because “that’s when insurance will pay.”
• If there’s a new medication that’s better than the old medication, we shouldn’t be forced to choose the old medication and provide inferior care because “that’s when insurance will pay.”
• If patients need to stay in hospital, we shouldn’t be pressured to discharge them because the hospital has decided that decreasing “length of stay” is its highest priority.

Dr. Francis Peabody said it best in 1927: “The secret of the care of the patient is in caring for the patient.” How hard is that?

In 2023, why don’t we follow Dr. Peabody’s sage advice from nearly 100 years ago and see what happens?
 

James M. Wooten, PharmD, University of Missouri–Kansas City, University Health, Kansas City, Mo.
Patients: I want patients to understand and properly realize the advantage of vaccinations – not only for COVID-19 but also for influenza. There is so much misinformation that I spend a lot of time trying to convince patients to get vaccinated. Most patients don’t realize that through their lives, most of them have already been vaccinated for something just to be able to attend school. How the COVID-19 vaccine created so much stigma makes little sense to me. I also want patients to understand that COVID-19 vaccination and boosters do not always prevent infection but will many times prevent severe infection. I believe that better patient communication and education is the key and will always be the key to improving vaccination numbers. Not only communicating and educating patients on vaccination itself but also making patients realize that personal vaccination decisions may affect what happens to your neighbor. Allowing infection means that you may be more likely to infect someone else. As a society, we must take care of each other.
Health system: It will be interesting to see what happens when vaccines are no longer reimbursed by the federal government. Understanding which vaccines work best and are better tolerated will be key to choosing appropriate vaccine brands. Health care providers will need to be very selective regarding which vaccines are selected for formulary inclusion. Thorough meta-analysis studies must be done to provide more evaluable information to allow for appropriate selection. “Knowledge is power!” Appropriate knowledge will help distinguish which vaccines work best for various patient populations.

A version of this article first appeared on Medscape.com.

As physicians well know, magic wands don’t exist. If they did, every patient would recover in the exam room, prior authorization wouldn’t exist, and continuing medical education credits would be printed on bearer bonds.

But in the spirit of suspended disbelief, we asked physicians and other contributors what their three wishes would be for their patients, practice/hospital, and health systems. Because, hey – we all need to dream.
 

Suzanne C. Boulter, MD, adjunct professor of pediatrics and community and family medicine, Geisel School of Medicine at Dartmouth, Hanover, N.H.
Patients: An end to gun violence.
Practice/hospital: Adequate staffing and pediatric bed availability.
Health system: Universal access to health insurance.

Sarah G. Candler, MD, MPH, care team medical director and director of academic relations, Iora Primary Care, Northside Clinic, Houston
Patients: Systems of health that start with communities of safety, including access to affordable housing, food, transportation, and health care.
Practice/hospital: I.N.T.E.R.O.P.E.R.A.B.I.L.I.T.Y.
Health system: Clinician leadership that has the power (often aka funding) to do what’s right, not just what’s right in front of us.

Arthur L. Caplan, PhD, bioethicist, New York University Langone Health
Patients: I wish for patients in the United States greater access to affordable primary care. There are still too many people without insurance or a reasonably accessible quality provider. And I especially wish for the rapid expansion of affordable training programs to meet staffing needs, including more scholarships, 3-year programs, and more new primary care–oriented schools.
Hospital: Increased staffing, especially nursing. There are too many retirements, too much burnout, and too much privatization into boutique practices to ensure the ability to provide high-quality, safe, patient-oriented care.
Health system: I wish for health systems to seriously move into electronic medicine. While billing has become electronic, there is still much to be done to supplement diagnosis, training, and standardized data collection on key metrics. Systems are not yet behaving in a manner consistent with the hype in this regard.

Stephen Devries, MD, executive director, Gaples Institute (nonprofit) and adjunct associate professor of nutrition, Harvard School of Public Health, Boston
Patients: Patients continue to demand more from their health care professionals and insist that they are offered evidence-based counseling on nutrition and lifestyle strategies.
Practice: Quality-based reimbursement for medical services will take hold that will incentivize much-needed preventive care.
Hospital: Hospitals will more fully embrace the role of serving as true centers of health and focus as much on preventive medicine as on the more lucrative areas of high-tech treatment.

Peter D. Friedmann, MD, MPH, chief research officer, Baystate Health, Springfield, Mass.
Seconded by: Elisabeth Poorman, MD, general internist, University of Washington Clinic, Kent
Patients: Don’t forget the ongoing epidemic of substance use disorder, a major cause of premature mortality. Descheduling of cannabis and expungement of cannabis-related convictions.
Practice/hospital: Commitment of hospitals and practices to address stigma and ensure delivery of medications for opioid use disorder in primary care, the emergency department, and inpatient settings.
Health system: Reform of antiquated methadone regulations to permit office-based prescription and pharmacy dispensing to treat opioid use disorder, as is the case in most of the world.

Robert Glatter, MD, emergency physician, New York
Patients: I want all patients to understand the enormous strain the health care system has been under – not just with the pandemic, the tripledemic, and mpox [previously called monkeypox], but well before the onset of these public health crises.
Hospital: The medical profession has endured not only burnout but a growing mental health crisis, staffing shortages, a physician addiction crisis, and increased attrition in the decade leading up to the pandemic. The pandemic was like a punch in the gut, occurring at the most inopportune time one could imagine.
Health system: The intersection of health and the state of our public health deserves important mention. Unless we take action to bolster our public health infrastructure, our health care system will be in jeopardy, unable to handle the next pandemic, which could be just around the corner.

William E. Golden, MD, medical director of Arkansas Medicaid, professor of medicine and public health, University of Arkansas for Medical Sciences, Little Rock
Patients: Affordable options for diabetes and obesity management.
Health system: Greater investment by health systems and third-party payers in primary care infrastructure.

Gregory A. Hood, MD, Baptist Health, Lexington, Ky.
Patients: To embrace the gift of getting out in the world, being active, and connecting with others – having put down the screens.
Health system: To be freed from the financial gamesmanship of the insurers as they continue to serve their goals of promoting their hedge fund investing over meaningful and productive partnering with primary care physicians, and that they gain insight that they are one of the main reasons they can’t find PCPs to connect with to render care in disadvantaged environments – because they made it economically impossible to do so.

Robert H. Hopkins Jr., MD, associate professor of internal medicine and pediatrics and director of the division of general internal medicine, University of Arkansas for Medical Sciences, Little Rock
Patients/Health system: I would wish for staged implementation of universal basic health coverage for all, perhaps closest to the French or Canadian model. This would need to be coupled with expanded funding for nursing education, graduate medical education, and tracing of other health-related professionals.

Harvey Hsu, MD, Banner Health, Phoenix
Patients: More clear guidelines that are simple to understand. This can apply to colonoscopy (now age 45), immunizations, blood pressure goals. I wish medications were not as expensive so patients can take the best medicine for them and not stop taking them when they hit their donut hole in coverage.
Practice: We have been functioning on a leaner basis to cut down costs. When the pandemic hit, turnover was high and we lost PAs, nurses, front-office staff, and physicians. Having adequate staffing is probably number one on many lists. One way we dealt with lack of staffing was converting in-person visits to telehealth. Video visits are paid the same as in-person visits, but if the patient could not get their video to work, then it would be a telephone visit. Now many insurances do not even pay for telephone visits. So I would wish that we could still be reimbursed for telehealth visits.
Health system: I would wish for our health system to recognize the extra work required to take care of patients while improving quality and meeting quality measures. Allowing more time for patient visits could be one way to meet those goals or having more support staff to make sure patients get their colonoscopy/mammograms done, improve their sugars, and take their medications.

Jan L. Shifren, MD, Vincent Trustees Professor, obstetrics, gynecology, and reproductive biology, Harvard Medical School, and director of the Midlife Women’s Health Center at Massachusetts General Hospital, Boston
Patients: I wish for patients to be actively involved in all aspects of their care, well informed with shared decision-making.
Practice: I wish for the enormous time demands of electronic medical records and documentation to not distract from the pleasure of caring for patients.
Health system: Patient care remains at the center of decisions and programs.

Timothy J. Joos, MD, MPH, internal medicine/pediatrics, Seattle
Health system: I wish someone could figure out how we could be reimbursed for the quality of care we provide instead of the volume of patients we see. I wish EMRs could become less complicated and more user-friendly rather than needing advanced training to use.

Peter Kovacs, MD, medical director, Kaali Institute IVF Center, Budapest
Patients: I work as an infertility specialist, so when we talk about infectious diseases and associated risks, we talk about a minimum of two (female and male partner) and ideally three (plus the pregnancy) individuals. We have learned that SARS-CoV-2 affects reproductive health. It may compromise sperm production, could delay fertility treatment, could be associated with lower success rates; and if the treatment is successful, it may harm the pregnant woman/fetus/newborn. The best preventive measure that we can offer is vaccination. One cannot overemphasize the importance of preventive measures, paying attention to personal hygiene and social distancing. Therefore, I wish those planning to become pregnant to listen to their health care provider and accept the recommended vaccines to minimize the risk of getting infected and to minimize the risk for severe disease, especially if one undergoes successful fertility treatment and achieves a long-desired pregnancy.
Practice: During the 2022 calendar year we had many days when one or more employees were out of work on sick leave. This puts extra stress on the others to allow uncompromised work in the clinic. In addition, we all have to work in a less-comfortable environment if we consider mask use every day, all day. For health care workers, vaccination is mandated but many still are affected by milder forms of coronavirus infection and other respiratory diseases. Therefore, I wish my colleagues patience toward the preventive measures to lower the individual risk for infections. As a result, hopefully we will have a less stressful 2023.
Health system: Many resources had to be delegated to dealing with acute and chronic COVID, and this was at the expense of routine daily elective and preventive medical services. I wish the health care system to return to normal daily operations, to have the personnel and financial resources to carry on with the required preventive and elective medical services to avoid long-term consequences of not being able to provide such services. It would be sad if we had to treat otherwise preventable illnesses in the upcoming years that went undiagnosed and/or were not properly managed due to limited resources as the result of the pandemic.

Alan R. Nelson, MD, internist-endocrinologist, retired
Patients: Expansion of the FDA’s authority into over-the-counter drugs, including the veracity of their advertising claims.
Practice: Make diabetes drugs available at a reasonable cost.
Health system: With the expansion of Medicaid eligibility during COVID-19 coming to a close, federal government actions are necessary for those who once again have been dropped from coverage to have their legitimate needs met.

Kevin Powell, MD, PhD, St. Louis
Patients: To be cared for and about, and not just medically, even when illness strikes and health fails.
Hospitals: To hear the thankfulness of a grateful public for the care you provide, and to hear that above the angry noise of outraged individuals who spout vitriol and focus on how they believe others have harmed them.
Health system: A truer understanding of mercy and justice.

Margaret Thew, DNP, FNP-BC, director, department of adolescent medicine, Children’s Hospital of Wisconsin, Milwaukee
Seconded by: M. Susan Jay, MD, professor of pediatrics, chief of adolescent medicine, Medical College of Wisconsin and Children’s Hospital of Wisconsin, Milwaukee
My wish for patients, hospital, and system: health, calm, and grace.

Mark P. Trolice, MD, director of Fertility CARE, the IVF Center, Winter Park, Fla.
Patients: To be proactive in their health care and be their own advocates. Question when unclear and only consult credible resources.
Practice/hospital: Improve support of physicians and all health care providers to allow more input in their practice operations and growth.
Health system: Reduce interference of the “business of medicine” and ensure that the patient experience is the priority.

Charles P. Vega, MD, University of California, Irvine
Three minutes on a routine basis for everyone in health care to reflect on our blessings and the honor and gravity – as well as joy – that are integral to health care. Three minutes that will also help us to recognize our challenges and put them in the proper context. I know 3 minutes is not meeting any standard for reflective practice. But it’s 3 minutes more than I have right now.

Karen Breach Washington, MD, medical director of WellCare of North Carolina/Centene, Charlotte
Seconded by: Lillian M. Beard, MD, physician director, Children’s Pediatricians and Associates, Silver Spring, Md.
Patients: Access to affordable health care.
Hospital: Resources to care for patients (sufficient number of beds and a healthy staff).
Health system: Equity for all.

Andrew Wilner, MD, host of the podcast “The Art of Medicine with Dr. Andrew Wilner,” www.andrewwilner.com
Let’s put patients first! Too many extraneous considerations other than the patient’s best interest obstruct optimal patient care.

Here are just a few examples of patients coming last instead of first.

• If a patient needs to start a new medication in hospital, we shouldn’t have to wait until the patient is an outpatient because “that’s when insurance will pay.”
• If there’s a new medication that’s better than the old medication, we shouldn’t be forced to choose the old medication and provide inferior care because “that’s when insurance will pay.”
• If patients need to stay in hospital, we shouldn’t be pressured to discharge them because the hospital has decided that decreasing “length of stay” is its highest priority.

Dr. Francis Peabody said it best in 1927: “The secret of the care of the patient is in caring for the patient.” How hard is that?

In 2023, why don’t we follow Dr. Peabody’s sage advice from nearly 100 years ago and see what happens?
 

James M. Wooten, PharmD, University of Missouri–Kansas City, University Health, Kansas City, Mo.
Patients: I want patients to understand and properly realize the advantage of vaccinations – not only for COVID-19 but also for influenza. There is so much misinformation that I spend a lot of time trying to convince patients to get vaccinated. Most patients don’t realize that through their lives, most of them have already been vaccinated for something just to be able to attend school. How the COVID-19 vaccine created so much stigma makes little sense to me. I also want patients to understand that COVID-19 vaccination and boosters do not always prevent infection but will many times prevent severe infection. I believe that better patient communication and education is the key and will always be the key to improving vaccination numbers. Not only communicating and educating patients on vaccination itself but also making patients realize that personal vaccination decisions may affect what happens to your neighbor. Allowing infection means that you may be more likely to infect someone else. As a society, we must take care of each other.
Health system: It will be interesting to see what happens when vaccines are no longer reimbursed by the federal government. Understanding which vaccines work best and are better tolerated will be key to choosing appropriate vaccine brands. Health care providers will need to be very selective regarding which vaccines are selected for formulary inclusion. Thorough meta-analysis studies must be done to provide more evaluable information to allow for appropriate selection. “Knowledge is power!” Appropriate knowledge will help distinguish which vaccines work best for various patient populations.

A version of this article first appeared on Medscape.com.

Nonstop inflammation and immune problems top the list of potential causes of long COVID, but doctors say it’s growing clear that more than one thing is to blame for the wide swath of often debilitating symptoms that could last months or even years.

“I think that it’s a much more complex picture than just inflammation, or just autoimmunity, or just immune dysregulation. And it’s probably a combination of all three causing a cascade of effects that then manifests itself as brain fog, or shortness of breath, or chronic fatigue,” says Alexander Truong, MD, a pulmonologist and assistant professor at Emory University, Atlanta, who also runs a long-COVID clinic.

Long COVID, post–COVID-19 condition, and postacute sequelae of SARS-CoV-2 (PASC) are among the terms used by the National Institutes of Health to describe the long-term health issues faced by an estimated 10%-30% of people infected with COVID-19. Symptoms – as many as 200 – can range from inconvenient to crippling, damage multiple organ systems, come and go, and relapse. Long COVID increases the risk of worsening existing health problems and triggering new ones, including cardiovascular disease and type 2 diabetes.

So far, research suggests there is no single cause, condition, or disease that explains why some people have an extensive range of symptoms long after the early COVID-19 infection has cleared up. Many experts believe some combination of biological processes – including the virus hanging around in our bodies, inflammation, autoimmunity, tiny blood clots, immune system problems, and even the reactivation of dormant viruses such as the Epstein-Barr virus – could be the culprit, a theory also supported by a comprehensive and in-depth review of long-COVID studies published in the journal Nature Reviews Microbiology.

“It’s become clear over the last couple of years that there are different [symptoms] of long COVID … that cannot all be lumped together,” says Michael Peluso, MD, an assistant professor of medicine and an infectious diseases doctor at the University of California, San Francisco.
 

Inflammation and a virus that hangs around

Multiple studies have shown that the virus or pieces of it can remain in many parts of the body, including the kidneys, brain, heart, and gastrointestinal system, long after the early infection. 

“One major question that I think is the area of most intense investigation now is whether there is viral persistence that is driving immune dysregulation and therefore symptoms,” says Dr. Peluso.

A small Harvard University study, for example, found evidence that reservoirs of the coronavirus could linger in patients up to a year after they’re first diagnosed. 

An earlier German study found that patients with post-COVID-19 symptoms had higher levels of three cytokines – small proteins that tell the body’s immune system what to do and are involved in the growth and activity of immune system cells and blood cells. Researchers said the results supported the theory that there is persistent reprogramming of certain immune cells, and that the uncontrolled “self-fueled hyperinflammation” during the early COVID-19 infection can become continued immune cell disruption that drives long-COVID symptoms.

“Long COVID is more likely due to either an inflammatory response by the body or reservoirs of virus that the body is still trying to clear … and the symptoms we’re seeing are a side effect of that,” says Rainu Kaushal, MD, senior associate dean for clinical research at Weill Cornell Medicine in New York.

Australian researchers found that immune system recovery appeared different, compared with those who were infected with other common coronaviruses.

These findings also support concerns that some experts express over the long-term risks of COVID-19 infections in general, but especially repeat infections.

“Anything that kind of revs up inflammation in the body can boil that pot over and make the symptoms worse. That’s very easily an infection or some other insult to the body. So that’s the generalized hypothesis as to why insults to the body may worsen the symptoms,” says Dr. Truong.
 

An autoimmune condition?

But inflammation alone does not fully explain post–COVID-19 problems.

Dr. Truong and his team, for example, have been documenting inflammatory markers in patients at the post-COVID clinic he cofounded more than 2 years ago at Emory Executive Park in Atlanta. When the clinic was first launched, high-dose nonsteroidal anti-inflammatory drugs – including ibuprofen – and prednisone were prescribed to long-COVID patients.

“It didn’t make a difference at all for any of these folks,” he says, adding that there are signs that autoimmunity is at play. But he cautions that it is still too early to suggest treating long-COVID patients with medications used for other autoimmune conditions.

In autoimmune conditions such as rheumatoid arthritis, lupus, and type 1 diabetes, a person’s immune system can’t tell normal cells from foreign pathogens and attacks healthy cells. There is typically no single diagnostic test, and many share similar symptoms, making detection and diagnosis potentially difficult, according to Johns Hopkins Medicine.

A small study published in the journal  Science Translational Medicine found that, among patients who failed to regain their sense of smell long after their initial infection, there was inflammation in the nose tissue where smell nerve cells are found, even though no detectable virus remained. Fewer olfactory sensory neurons were seen, as well – findings that researchers said resembled some kind of “autoimmune-like process.”

Meanwhile, scientists in Canada found signs of autoimmunity in blood samples taken from patients who still had fatigue and shortness of breath after their initial COVID-19 infection. Two specific proteins were present a year after infection in up to 30% of patients, many of whom still had shortness of breath and fatigue, the researchers reported in the Jan. 1 issue of the European Respiratory Journal. These patients had been healthy and had no autoimmune condition or other diseases before they were infected.
 

Immune system problems

A number of studies have suggested that a problematic immune response could also explain why symptoms persist for some people.

Researchers in France, for example, found that the immune response problems in those with severe COVID-19 infections caused exaggerated or uncontrolled formation of a type of bug-fighting defense mechanism called a neutrophil extracellular trap (NET), which in turn triggers harmful inflammation that can result in multiorgan damage. These traps are netlike structures made from fibers composed mostly of DNA strings that bind, or trap, pathogens.

Long COVID is not like an acute infectious disease, says Alexander Charney, MD, PhD, the lead principal investigator of the RECOVER adult cohort at Mount Sinai in New York, and an associate professor at Icahn School of Medicine at Mount Sinai. It is more similar to other complex chronic diseases that have taken decades to understand, such as heart disease, mental illness, and rheumatologic diseases, he says.
 

Biomarkers and blood clots

Scientists are homing in on biomarkers, or detectable and measurable traits – in this case, molecular indicators – that can make diagnosing long COVID easier and give better direction for treatment. These biomarkers are also key to helping sort out the complex biology of long COVID.

In one study, data from blood samples taken from hundreds of hospitalized COVID-19 patients suggests changes are happening at the molecular level during initial severe infections. These changes may be tied to the development of longer-term symptoms, according to the study by Dr. Charney and his team at Mount Sinai published in Nature Medicine

Blood clotting issues have also been detected in long COVID patients. At least one study found signs that long-COVID patients had higher levels of a type of auto-antibody linked to the abnormal formation of clots. Researchers suspect that tiny, persistent microclots – undetectable via regular pathology tests – may be cutting off oxygen flow to tissue by blocking capillaries – and could explain many of the post-COVID symptoms described by patients.

While enormous progress has been made toward understanding long COVID, the research is still considered early and faces many challenges, including varying criteria used to define the condition, the types and quality of data used, differences in how patients are defined and recruited, and the small size of many studies. Some research also appears to conflict with other studies. And while there are specialized tools for diagnosing some aspects of the condition, standard tests often don’t detect many of the signs seen in long-COVID patients. But given the urgency and global scale of the problem, experts say more funding and support should be prioritized.

“People are suffering now, and they want answers now. ... It’s not like with COVID, where the path towards a great and meaningful solution to this unbelievable problem was clear – we need a vaccine,” says Dr. Charney. 

“It’s going to be a long haul to figure out what is going on.”

A version of this article originally appeared on WebMD.com.

Nonstop inflammation and immune problems top the list of potential causes of long COVID, but doctors say it’s growing clear that more than one thing is to blame for the wide swath of often debilitating symptoms that could last months or even years.

“I think that it’s a much more complex picture than just inflammation, or just autoimmunity, or just immune dysregulation. And it’s probably a combination of all three causing a cascade of effects that then manifests itself as brain fog, or shortness of breath, or chronic fatigue,” says Alexander Truong, MD, a pulmonologist and assistant professor at Emory University, Atlanta, who also runs a long-COVID clinic.

Long COVID, post–COVID-19 condition, and postacute sequelae of SARS-CoV-2 (PASC) are among the terms used by the National Institutes of Health to describe the long-term health issues faced by an estimated 10%-30% of people infected with COVID-19. Symptoms – as many as 200 – can range from inconvenient to crippling, damage multiple organ systems, come and go, and relapse. Long COVID increases the risk of worsening existing health problems and triggering new ones, including cardiovascular disease and type 2 diabetes.

So far, research suggests there is no single cause, condition, or disease that explains why some people have an extensive range of symptoms long after the early COVID-19 infection has cleared up. Many experts believe some combination of biological processes – including the virus hanging around in our bodies, inflammation, autoimmunity, tiny blood clots, immune system problems, and even the reactivation of dormant viruses such as the Epstein-Barr virus – could be the culprit, a theory also supported by a comprehensive and in-depth review of long-COVID studies published in the journal Nature Reviews Microbiology.

“It’s become clear over the last couple of years that there are different [symptoms] of long COVID … that cannot all be lumped together,” says Michael Peluso, MD, an assistant professor of medicine and an infectious diseases doctor at the University of California, San Francisco.
 

Inflammation and a virus that hangs around

Multiple studies have shown that the virus or pieces of it can remain in many parts of the body, including the kidneys, brain, heart, and gastrointestinal system, long after the early infection. 

“One major question that I think is the area of most intense investigation now is whether there is viral persistence that is driving immune dysregulation and therefore symptoms,” says Dr. Peluso.

A small Harvard University study, for example, found evidence that reservoirs of the coronavirus could linger in patients up to a year after they’re first diagnosed. 

An earlier German study found that patients with post-COVID-19 symptoms had higher levels of three cytokines – small proteins that tell the body’s immune system what to do and are involved in the growth and activity of immune system cells and blood cells. Researchers said the results supported the theory that there is persistent reprogramming of certain immune cells, and that the uncontrolled “self-fueled hyperinflammation” during the early COVID-19 infection can become continued immune cell disruption that drives long-COVID symptoms.

“Long COVID is more likely due to either an inflammatory response by the body or reservoirs of virus that the body is still trying to clear … and the symptoms we’re seeing are a side effect of that,” says Rainu Kaushal, MD, senior associate dean for clinical research at Weill Cornell Medicine in New York.

Australian researchers found that immune system recovery appeared different, compared with those who were infected with other common coronaviruses.

These findings also support concerns that some experts express over the long-term risks of COVID-19 infections in general, but especially repeat infections.

“Anything that kind of revs up inflammation in the body can boil that pot over and make the symptoms worse. That’s very easily an infection or some other insult to the body. So that’s the generalized hypothesis as to why insults to the body may worsen the symptoms,” says Dr. Truong.
 

An autoimmune condition?

But inflammation alone does not fully explain post–COVID-19 problems.

Dr. Truong and his team, for example, have been documenting inflammatory markers in patients at the post-COVID clinic he cofounded more than 2 years ago at Emory Executive Park in Atlanta. When the clinic was first launched, high-dose nonsteroidal anti-inflammatory drugs – including ibuprofen – and prednisone were prescribed to long-COVID patients.

“It didn’t make a difference at all for any of these folks,” he says, adding that there are signs that autoimmunity is at play. But he cautions that it is still too early to suggest treating long-COVID patients with medications used for other autoimmune conditions.

In autoimmune conditions such as rheumatoid arthritis, lupus, and type 1 diabetes, a person’s immune system can’t tell normal cells from foreign pathogens and attacks healthy cells. There is typically no single diagnostic test, and many share similar symptoms, making detection and diagnosis potentially difficult, according to Johns Hopkins Medicine.

A small study published in the journal  Science Translational Medicine found that, among patients who failed to regain their sense of smell long after their initial infection, there was inflammation in the nose tissue where smell nerve cells are found, even though no detectable virus remained. Fewer olfactory sensory neurons were seen, as well – findings that researchers said resembled some kind of “autoimmune-like process.”

Meanwhile, scientists in Canada found signs of autoimmunity in blood samples taken from patients who still had fatigue and shortness of breath after their initial COVID-19 infection. Two specific proteins were present a year after infection in up to 30% of patients, many of whom still had shortness of breath and fatigue, the researchers reported in the Jan. 1 issue of the European Respiratory Journal. These patients had been healthy and had no autoimmune condition or other diseases before they were infected.
 

Immune system problems

A number of studies have suggested that a problematic immune response could also explain why symptoms persist for some people.

Researchers in France, for example, found that the immune response problems in those with severe COVID-19 infections caused exaggerated or uncontrolled formation of a type of bug-fighting defense mechanism called a neutrophil extracellular trap (NET), which in turn triggers harmful inflammation that can result in multiorgan damage. These traps are netlike structures made from fibers composed mostly of DNA strings that bind, or trap, pathogens.

Long COVID is not like an acute infectious disease, says Alexander Charney, MD, PhD, the lead principal investigator of the RECOVER adult cohort at Mount Sinai in New York, and an associate professor at Icahn School of Medicine at Mount Sinai. It is more similar to other complex chronic diseases that have taken decades to understand, such as heart disease, mental illness, and rheumatologic diseases, he says.
 

Biomarkers and blood clots

Scientists are homing in on biomarkers, or detectable and measurable traits – in this case, molecular indicators – that can make diagnosing long COVID easier and give better direction for treatment. These biomarkers are also key to helping sort out the complex biology of long COVID.

In one study, data from blood samples taken from hundreds of hospitalized COVID-19 patients suggests changes are happening at the molecular level during initial severe infections. These changes may be tied to the development of longer-term symptoms, according to the study by Dr. Charney and his team at Mount Sinai published in Nature Medicine

Blood clotting issues have also been detected in long COVID patients. At least one study found signs that long-COVID patients had higher levels of a type of auto-antibody linked to the abnormal formation of clots. Researchers suspect that tiny, persistent microclots – undetectable via regular pathology tests – may be cutting off oxygen flow to tissue by blocking capillaries – and could explain many of the post-COVID symptoms described by patients.

While enormous progress has been made toward understanding long COVID, the research is still considered early and faces many challenges, including varying criteria used to define the condition, the types and quality of data used, differences in how patients are defined and recruited, and the small size of many studies. Some research also appears to conflict with other studies. And while there are specialized tools for diagnosing some aspects of the condition, standard tests often don’t detect many of the signs seen in long-COVID patients. But given the urgency and global scale of the problem, experts say more funding and support should be prioritized.

“People are suffering now, and they want answers now. ... It’s not like with COVID, where the path towards a great and meaningful solution to this unbelievable problem was clear – we need a vaccine,” says Dr. Charney. 

“It’s going to be a long haul to figure out what is going on.”

A version of this article originally appeared on WebMD.com.

Nonstop inflammation and immune problems top the list of potential causes of long COVID, but doctors say it’s growing clear that more than one thing is to blame for the wide swath of often debilitating symptoms that could last months or even years.

“I think that it’s a much more complex picture than just inflammation, or just autoimmunity, or just immune dysregulation. And it’s probably a combination of all three causing a cascade of effects that then manifests itself as brain fog, or shortness of breath, or chronic fatigue,” says Alexander Truong, MD, a pulmonologist and assistant professor at Emory University, Atlanta, who also runs a long-COVID clinic.

Long COVID, post–COVID-19 condition, and postacute sequelae of SARS-CoV-2 (PASC) are among the terms used by the National Institutes of Health to describe the long-term health issues faced by an estimated 10%-30% of people infected with COVID-19. Symptoms – as many as 200 – can range from inconvenient to crippling, damage multiple organ systems, come and go, and relapse. Long COVID increases the risk of worsening existing health problems and triggering new ones, including cardiovascular disease and type 2 diabetes.

So far, research suggests there is no single cause, condition, or disease that explains why some people have an extensive range of symptoms long after the early COVID-19 infection has cleared up. Many experts believe some combination of biological processes – including the virus hanging around in our bodies, inflammation, autoimmunity, tiny blood clots, immune system problems, and even the reactivation of dormant viruses such as the Epstein-Barr virus – could be the culprit, a theory also supported by a comprehensive and in-depth review of long-COVID studies published in the journal Nature Reviews Microbiology.

“It’s become clear over the last couple of years that there are different [symptoms] of long COVID … that cannot all be lumped together,” says Michael Peluso, MD, an assistant professor of medicine and an infectious diseases doctor at the University of California, San Francisco.
 

Inflammation and a virus that hangs around

Multiple studies have shown that the virus or pieces of it can remain in many parts of the body, including the kidneys, brain, heart, and gastrointestinal system, long after the early infection. 

“One major question that I think is the area of most intense investigation now is whether there is viral persistence that is driving immune dysregulation and therefore symptoms,” says Dr. Peluso.

A small Harvard University study, for example, found evidence that reservoirs of the coronavirus could linger in patients up to a year after they’re first diagnosed. 

An earlier German study found that patients with post-COVID-19 symptoms had higher levels of three cytokines – small proteins that tell the body’s immune system what to do and are involved in the growth and activity of immune system cells and blood cells. Researchers said the results supported the theory that there is persistent reprogramming of certain immune cells, and that the uncontrolled “self-fueled hyperinflammation” during the early COVID-19 infection can become continued immune cell disruption that drives long-COVID symptoms.

“Long COVID is more likely due to either an inflammatory response by the body or reservoirs of virus that the body is still trying to clear … and the symptoms we’re seeing are a side effect of that,” says Rainu Kaushal, MD, senior associate dean for clinical research at Weill Cornell Medicine in New York.

Australian researchers found that immune system recovery appeared different, compared with those who were infected with other common coronaviruses.

These findings also support concerns that some experts express over the long-term risks of COVID-19 infections in general, but especially repeat infections.

“Anything that kind of revs up inflammation in the body can boil that pot over and make the symptoms worse. That’s very easily an infection or some other insult to the body. So that’s the generalized hypothesis as to why insults to the body may worsen the symptoms,” says Dr. Truong.
 

An autoimmune condition?

But inflammation alone does not fully explain post–COVID-19 problems.

Dr. Truong and his team, for example, have been documenting inflammatory markers in patients at the post-COVID clinic he cofounded more than 2 years ago at Emory Executive Park in Atlanta. When the clinic was first launched, high-dose nonsteroidal anti-inflammatory drugs – including ibuprofen – and prednisone were prescribed to long-COVID patients.

“It didn’t make a difference at all for any of these folks,” he says, adding that there are signs that autoimmunity is at play. But he cautions that it is still too early to suggest treating long-COVID patients with medications used for other autoimmune conditions.

In autoimmune conditions such as rheumatoid arthritis, lupus, and type 1 diabetes, a person’s immune system can’t tell normal cells from foreign pathogens and attacks healthy cells. There is typically no single diagnostic test, and many share similar symptoms, making detection and diagnosis potentially difficult, according to Johns Hopkins Medicine.

A small study published in the journal  Science Translational Medicine found that, among patients who failed to regain their sense of smell long after their initial infection, there was inflammation in the nose tissue where smell nerve cells are found, even though no detectable virus remained. Fewer olfactory sensory neurons were seen, as well – findings that researchers said resembled some kind of “autoimmune-like process.”

Meanwhile, scientists in Canada found signs of autoimmunity in blood samples taken from patients who still had fatigue and shortness of breath after their initial COVID-19 infection. Two specific proteins were present a year after infection in up to 30% of patients, many of whom still had shortness of breath and fatigue, the researchers reported in the Jan. 1 issue of the European Respiratory Journal. These patients had been healthy and had no autoimmune condition or other diseases before they were infected.
 

Immune system problems

A number of studies have suggested that a problematic immune response could also explain why symptoms persist for some people.

Researchers in France, for example, found that the immune response problems in those with severe COVID-19 infections caused exaggerated or uncontrolled formation of a type of bug-fighting defense mechanism called a neutrophil extracellular trap (NET), which in turn triggers harmful inflammation that can result in multiorgan damage. These traps are netlike structures made from fibers composed mostly of DNA strings that bind, or trap, pathogens.

Long COVID is not like an acute infectious disease, says Alexander Charney, MD, PhD, the lead principal investigator of the RECOVER adult cohort at Mount Sinai in New York, and an associate professor at Icahn School of Medicine at Mount Sinai. It is more similar to other complex chronic diseases that have taken decades to understand, such as heart disease, mental illness, and rheumatologic diseases, he says.
 

Biomarkers and blood clots

Scientists are homing in on biomarkers, or detectable and measurable traits – in this case, molecular indicators – that can make diagnosing long COVID easier and give better direction for treatment. These biomarkers are also key to helping sort out the complex biology of long COVID.

In one study, data from blood samples taken from hundreds of hospitalized COVID-19 patients suggests changes are happening at the molecular level during initial severe infections. These changes may be tied to the development of longer-term symptoms, according to the study by Dr. Charney and his team at Mount Sinai published in Nature Medicine

Blood clotting issues have also been detected in long COVID patients. At least one study found signs that long-COVID patients had higher levels of a type of auto-antibody linked to the abnormal formation of clots. Researchers suspect that tiny, persistent microclots – undetectable via regular pathology tests – may be cutting off oxygen flow to tissue by blocking capillaries – and could explain many of the post-COVID symptoms described by patients.

While enormous progress has been made toward understanding long COVID, the research is still considered early and faces many challenges, including varying criteria used to define the condition, the types and quality of data used, differences in how patients are defined and recruited, and the small size of many studies. Some research also appears to conflict with other studies. And while there are specialized tools for diagnosing some aspects of the condition, standard tests often don’t detect many of the signs seen in long-COVID patients. But given the urgency and global scale of the problem, experts say more funding and support should be prioritized.

“People are suffering now, and they want answers now. ... It’s not like with COVID, where the path towards a great and meaningful solution to this unbelievable problem was clear – we need a vaccine,” says Dr. Charney. 

“It’s going to be a long haul to figure out what is going on.”

A version of this article originally appeared on WebMD.com.