Expert discusses red flags for interstitial lung disease in pediatric rheumatology

Article Type
Changed

– Anti-Ro52 autoantibodies are the latest and most potent of the autoantibody predictors of interstitial lung disease (ILD) discovered in patients with juvenile dermatomyositis, Anne M. Stevens, MD, PhD, said at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News
Dr. Anne M. Stevens

In addition to detailing the autoantibody red flags for ILD in juvenile dermatomyositis (JDM), she called for “hypervigilance” in patients with systemic juvenile idiopathic arthritis (SJIA) who exhibit any of a series of risk factors for ILD.

“Most of the lung disease in kids with systemic JIA is asymptomatic until very late, but it can be reversible if we treat it. So it’s worth finding and monitoring and giving everyone PCP [pneumocystis pneumonia] prophylaxis, because they have a high incidence of PCP if they have any of those risk factors,” observed Dr. Stevens, a pediatric rheumatologist at the University of Washington, Seattle, and senior director for the adaptive immunity research program at Janssen Pharmaceuticals.
 

Autoantibodies predict ILD in JDM

Dr. Stevens highlighted recent work by Sara Sabbagh, DO, of the National Institute of Arthritis and Musculoskeletal and Skin Diseases and coinvestigators in the Childhood Myositis Heterogeneity Collaborative Study Group. They reported the presence of anti-Ro52 autoantibodies in 14% of a cohort of 302 patients with JDM as well as in 12% of 25 patients with juvenile polymyositis and in 18% of 44 youths with an overlap of juvenile connective tissue disease and myositis. In addition, 13% of patients were positive for autoantibodies previously identified as being associated with ILD in these forms of juvenile myositis: Namely, 9% of the cohort were positive for antimelanoma differentiation–associated protein 5 (anti-MDA5) autoantibodies, and antiaminoacyl tRNA synthestase (anti-Jo-1) autoantibodies were present in 4%.

A total of 33 of the 371 juvenile myositis patients had ILD based upon CT imaging, chest X-ray, dyspnea on exertion, and/or biopsy. Most patients with anti-Ro52 also had other autoantibodies associated with ILD. Indeed, 31% of patients with anti-MDA5 autoantibodies also had anti-Ro52, as did 64% of those with anti-Jo-1. After controlling for the presence of these other myositis-specific autoantibodies, auto-Ro52 autoantibodies were independently associated with ILD, which was present in 36% of those with and just 4% of those without anti-Ro52 autoantibodies.

Importantly, if a patient with JDM or another form of juvenile myositis had both anti-Ro52 and another myositis-specific autoantibody, the risk for ILD rose dramatically, climbing to 70% in patients with anti-Ro52 and anti-MDA5 autoantibodies, and to 100% in those who were both anti-Ro52- and anti-Jo-1 positive.

Patients with anti-Ro52 autoantibodies had a worse prognosis, with more severe and chronic disease, Dr. Stevens noted.
 

Novel potential treatment for ILD in JDM: JAK inhibitors

Standard treatment of ILD in JDM in all cases includes high-dose pulsed corticosteroids, intravenous immunoglobulin (IVIG), and either methotrexate or mycophenolate mofetil. Consideration should be given to adding cyclosporine, particularly when a macrophage activation syndrome component is present. In addition, several exciting recent lines of evidence suggest a potential role for Janus kinase (JAK) inhibitors in the subset of JDM patients with anti-MDA5 autoantibody-positive disease, according to Dr. Stevens.

For one, Dr. Sabbagh and colleagues have reported impressive success with the use of the JAK 1/3 inhibitor tofacitinib (Xeljanz) in two patients with anti-MDA5 autoantibody-positive refractory JDM with ILD. Both patients experienced moderate clinical improvement in disease activity in their skin, muscles, and other target organs. But particularly striking was what the investigators termed the “remarkable” improvement in ILD, including near-resolution of abnormal findings on high-resolution CT imaging and a more robust performance on pulmonary function testing.

Both of these hitherto treatment-refractory patients were able to wean or discontinue their immunosuppressive medications. The patients’ elevated blood interferon-response gene signature improved significantly in response to tofacitinib, and their problematic upregulation of STAT1 phosphorylation of CD4+ T cells and monocytes stimulated with interferon-gamma was tamed, dropping to levels typically seen in healthy individuals.

Also, French pediatric rheumatologists have identified key phenotypic and cytokine differences between 13 patients with JDM or juvenile overlap myositis who were anti-MDA5 autoantibody positive at presentation and 51 others who were not. The anti-MDA5 autoantibody–positive group had a higher frequency of ILD, arthritis, skin ulcerations, and lupus features, but milder muscle involvement than did the anti-MDA5 autoantibody–negative group. The anti-MDA5 autoantibody–positive patients demonstrated enhanced interferon-alpha signaling based upon their significantly higher serum interferon-alpha levels, compared with the anti-MDA5-negative group, and those levels decreased following treatment with improvement in symptoms.

The French investigators proposed that interferon-alpha may constitute a novel therapeutic target in the subgroup of patients with severe, refractory juvenile myositis and anti-MDA5 autoantibodies – and, as it happens, it’s known that JAK inhibitors modulate the interferon pathway.
 

Risk factors for ILD in SJIA

In the past half-dozen years or so, pediatric rheumatologists have become increasingly aware of and concerned about a new development in SJIA: the occurrence of comorbid ILD. This is a poor-prognosis disease: In a cohort from the United Kingdom, 5-year mortality from the time of diagnosis was 41%, fully 40-fold higher than in patients with SJIA only.

Patient cohorts with SJIA and ILD have unusual clinical and laboratory features that aren’t part of the typical picture in SJIA. These include acute clubbing, lymphopenia, a fixed pruritic rash, unexplained abdominal pain, peripheral eosinophilia, facial swelling, and an increased ferritin level, a hallmark of acute macrophage activation syndrome. Onset of SJIA before 2 years of age is another red flag associated with increased risk for ILD. So is trisomy 21, which is up to 50 times more prevalent in patients with SJIA and ILD than in the general population or in patients with SJIA only. Another clue is an adverse reaction to tocilizumab (Actemra).

Any of these findings warrant hypervigilance: “Be on high alert and monitor these patients for ILD much more closely,” Dr. Stevens advised.

This means ordering a CT scan, prescribing PCP prophylaxis, and regularly measuring pulmonary function, admittedly a challenge in children under 7 years old. In these younger kids, practical solutions include measuring their oxygen saturation before and after running around the room to see if it drops. A 6-minute walk test and sleep oximetry are other options.

The explanation for the abrupt arrival of ILD as part of the picture in SJIA during the past decade remains unclear. The timing coincides with a major advance in the treatment of SJIA: the arrival of biologic agents blocking interleukin-1 and -6. Could this be a serious treatment side effect?

“It’s all association so far, and we’re not really sure why we’re seeing this association. Is it because we’re using a lot [fewer] corticosteroids now, and maybe those were preventing lung disease in the past?” Dr. Stevens speculated.

At this point, she and her fellow pediatric rheumatologists are awaiting further evidence before discussing a curb in their use of IL-1 or -6 inhibitors in patients with SJIA.

“These drugs have turned around the lives of kids with SJIA. They used to suffer through all our ineffective treatments for years, with terrible joint destruction and a pretty high mortality rate. These are great drugs for this disease, and we certainly don’t want to limit them,” she said.

Dr. Stevens reported research collaborations with Kineta and Seattle Genetics in addition to her employment at Janssen Pharmaceuticals.

Meeting/Event
Publications
Topics
Sections
Meeting/Event
Meeting/Event

– Anti-Ro52 autoantibodies are the latest and most potent of the autoantibody predictors of interstitial lung disease (ILD) discovered in patients with juvenile dermatomyositis, Anne M. Stevens, MD, PhD, said at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News
Dr. Anne M. Stevens

In addition to detailing the autoantibody red flags for ILD in juvenile dermatomyositis (JDM), she called for “hypervigilance” in patients with systemic juvenile idiopathic arthritis (SJIA) who exhibit any of a series of risk factors for ILD.

“Most of the lung disease in kids with systemic JIA is asymptomatic until very late, but it can be reversible if we treat it. So it’s worth finding and monitoring and giving everyone PCP [pneumocystis pneumonia] prophylaxis, because they have a high incidence of PCP if they have any of those risk factors,” observed Dr. Stevens, a pediatric rheumatologist at the University of Washington, Seattle, and senior director for the adaptive immunity research program at Janssen Pharmaceuticals.
 

Autoantibodies predict ILD in JDM

Dr. Stevens highlighted recent work by Sara Sabbagh, DO, of the National Institute of Arthritis and Musculoskeletal and Skin Diseases and coinvestigators in the Childhood Myositis Heterogeneity Collaborative Study Group. They reported the presence of anti-Ro52 autoantibodies in 14% of a cohort of 302 patients with JDM as well as in 12% of 25 patients with juvenile polymyositis and in 18% of 44 youths with an overlap of juvenile connective tissue disease and myositis. In addition, 13% of patients were positive for autoantibodies previously identified as being associated with ILD in these forms of juvenile myositis: Namely, 9% of the cohort were positive for antimelanoma differentiation–associated protein 5 (anti-MDA5) autoantibodies, and antiaminoacyl tRNA synthestase (anti-Jo-1) autoantibodies were present in 4%.

A total of 33 of the 371 juvenile myositis patients had ILD based upon CT imaging, chest X-ray, dyspnea on exertion, and/or biopsy. Most patients with anti-Ro52 also had other autoantibodies associated with ILD. Indeed, 31% of patients with anti-MDA5 autoantibodies also had anti-Ro52, as did 64% of those with anti-Jo-1. After controlling for the presence of these other myositis-specific autoantibodies, auto-Ro52 autoantibodies were independently associated with ILD, which was present in 36% of those with and just 4% of those without anti-Ro52 autoantibodies.

Importantly, if a patient with JDM or another form of juvenile myositis had both anti-Ro52 and another myositis-specific autoantibody, the risk for ILD rose dramatically, climbing to 70% in patients with anti-Ro52 and anti-MDA5 autoantibodies, and to 100% in those who were both anti-Ro52- and anti-Jo-1 positive.

Patients with anti-Ro52 autoantibodies had a worse prognosis, with more severe and chronic disease, Dr. Stevens noted.
 

Novel potential treatment for ILD in JDM: JAK inhibitors

Standard treatment of ILD in JDM in all cases includes high-dose pulsed corticosteroids, intravenous immunoglobulin (IVIG), and either methotrexate or mycophenolate mofetil. Consideration should be given to adding cyclosporine, particularly when a macrophage activation syndrome component is present. In addition, several exciting recent lines of evidence suggest a potential role for Janus kinase (JAK) inhibitors in the subset of JDM patients with anti-MDA5 autoantibody-positive disease, according to Dr. Stevens.

For one, Dr. Sabbagh and colleagues have reported impressive success with the use of the JAK 1/3 inhibitor tofacitinib (Xeljanz) in two patients with anti-MDA5 autoantibody-positive refractory JDM with ILD. Both patients experienced moderate clinical improvement in disease activity in their skin, muscles, and other target organs. But particularly striking was what the investigators termed the “remarkable” improvement in ILD, including near-resolution of abnormal findings on high-resolution CT imaging and a more robust performance on pulmonary function testing.

Both of these hitherto treatment-refractory patients were able to wean or discontinue their immunosuppressive medications. The patients’ elevated blood interferon-response gene signature improved significantly in response to tofacitinib, and their problematic upregulation of STAT1 phosphorylation of CD4+ T cells and monocytes stimulated with interferon-gamma was tamed, dropping to levels typically seen in healthy individuals.

Also, French pediatric rheumatologists have identified key phenotypic and cytokine differences between 13 patients with JDM or juvenile overlap myositis who were anti-MDA5 autoantibody positive at presentation and 51 others who were not. The anti-MDA5 autoantibody–positive group had a higher frequency of ILD, arthritis, skin ulcerations, and lupus features, but milder muscle involvement than did the anti-MDA5 autoantibody–negative group. The anti-MDA5 autoantibody–positive patients demonstrated enhanced interferon-alpha signaling based upon their significantly higher serum interferon-alpha levels, compared with the anti-MDA5-negative group, and those levels decreased following treatment with improvement in symptoms.

The French investigators proposed that interferon-alpha may constitute a novel therapeutic target in the subgroup of patients with severe, refractory juvenile myositis and anti-MDA5 autoantibodies – and, as it happens, it’s known that JAK inhibitors modulate the interferon pathway.
 

Risk factors for ILD in SJIA

In the past half-dozen years or so, pediatric rheumatologists have become increasingly aware of and concerned about a new development in SJIA: the occurrence of comorbid ILD. This is a poor-prognosis disease: In a cohort from the United Kingdom, 5-year mortality from the time of diagnosis was 41%, fully 40-fold higher than in patients with SJIA only.

Patient cohorts with SJIA and ILD have unusual clinical and laboratory features that aren’t part of the typical picture in SJIA. These include acute clubbing, lymphopenia, a fixed pruritic rash, unexplained abdominal pain, peripheral eosinophilia, facial swelling, and an increased ferritin level, a hallmark of acute macrophage activation syndrome. Onset of SJIA before 2 years of age is another red flag associated with increased risk for ILD. So is trisomy 21, which is up to 50 times more prevalent in patients with SJIA and ILD than in the general population or in patients with SJIA only. Another clue is an adverse reaction to tocilizumab (Actemra).

Any of these findings warrant hypervigilance: “Be on high alert and monitor these patients for ILD much more closely,” Dr. Stevens advised.

This means ordering a CT scan, prescribing PCP prophylaxis, and regularly measuring pulmonary function, admittedly a challenge in children under 7 years old. In these younger kids, practical solutions include measuring their oxygen saturation before and after running around the room to see if it drops. A 6-minute walk test and sleep oximetry are other options.

The explanation for the abrupt arrival of ILD as part of the picture in SJIA during the past decade remains unclear. The timing coincides with a major advance in the treatment of SJIA: the arrival of biologic agents blocking interleukin-1 and -6. Could this be a serious treatment side effect?

“It’s all association so far, and we’re not really sure why we’re seeing this association. Is it because we’re using a lot [fewer] corticosteroids now, and maybe those were preventing lung disease in the past?” Dr. Stevens speculated.

At this point, she and her fellow pediatric rheumatologists are awaiting further evidence before discussing a curb in their use of IL-1 or -6 inhibitors in patients with SJIA.

“These drugs have turned around the lives of kids with SJIA. They used to suffer through all our ineffective treatments for years, with terrible joint destruction and a pretty high mortality rate. These are great drugs for this disease, and we certainly don’t want to limit them,” she said.

Dr. Stevens reported research collaborations with Kineta and Seattle Genetics in addition to her employment at Janssen Pharmaceuticals.

– Anti-Ro52 autoantibodies are the latest and most potent of the autoantibody predictors of interstitial lung disease (ILD) discovered in patients with juvenile dermatomyositis, Anne M. Stevens, MD, PhD, said at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News
Dr. Anne M. Stevens

In addition to detailing the autoantibody red flags for ILD in juvenile dermatomyositis (JDM), she called for “hypervigilance” in patients with systemic juvenile idiopathic arthritis (SJIA) who exhibit any of a series of risk factors for ILD.

“Most of the lung disease in kids with systemic JIA is asymptomatic until very late, but it can be reversible if we treat it. So it’s worth finding and monitoring and giving everyone PCP [pneumocystis pneumonia] prophylaxis, because they have a high incidence of PCP if they have any of those risk factors,” observed Dr. Stevens, a pediatric rheumatologist at the University of Washington, Seattle, and senior director for the adaptive immunity research program at Janssen Pharmaceuticals.
 

Autoantibodies predict ILD in JDM

Dr. Stevens highlighted recent work by Sara Sabbagh, DO, of the National Institute of Arthritis and Musculoskeletal and Skin Diseases and coinvestigators in the Childhood Myositis Heterogeneity Collaborative Study Group. They reported the presence of anti-Ro52 autoantibodies in 14% of a cohort of 302 patients with JDM as well as in 12% of 25 patients with juvenile polymyositis and in 18% of 44 youths with an overlap of juvenile connective tissue disease and myositis. In addition, 13% of patients were positive for autoantibodies previously identified as being associated with ILD in these forms of juvenile myositis: Namely, 9% of the cohort were positive for antimelanoma differentiation–associated protein 5 (anti-MDA5) autoantibodies, and antiaminoacyl tRNA synthestase (anti-Jo-1) autoantibodies were present in 4%.

A total of 33 of the 371 juvenile myositis patients had ILD based upon CT imaging, chest X-ray, dyspnea on exertion, and/or biopsy. Most patients with anti-Ro52 also had other autoantibodies associated with ILD. Indeed, 31% of patients with anti-MDA5 autoantibodies also had anti-Ro52, as did 64% of those with anti-Jo-1. After controlling for the presence of these other myositis-specific autoantibodies, auto-Ro52 autoantibodies were independently associated with ILD, which was present in 36% of those with and just 4% of those without anti-Ro52 autoantibodies.

Importantly, if a patient with JDM or another form of juvenile myositis had both anti-Ro52 and another myositis-specific autoantibody, the risk for ILD rose dramatically, climbing to 70% in patients with anti-Ro52 and anti-MDA5 autoantibodies, and to 100% in those who were both anti-Ro52- and anti-Jo-1 positive.

Patients with anti-Ro52 autoantibodies had a worse prognosis, with more severe and chronic disease, Dr. Stevens noted.
 

Novel potential treatment for ILD in JDM: JAK inhibitors

Standard treatment of ILD in JDM in all cases includes high-dose pulsed corticosteroids, intravenous immunoglobulin (IVIG), and either methotrexate or mycophenolate mofetil. Consideration should be given to adding cyclosporine, particularly when a macrophage activation syndrome component is present. In addition, several exciting recent lines of evidence suggest a potential role for Janus kinase (JAK) inhibitors in the subset of JDM patients with anti-MDA5 autoantibody-positive disease, according to Dr. Stevens.

For one, Dr. Sabbagh and colleagues have reported impressive success with the use of the JAK 1/3 inhibitor tofacitinib (Xeljanz) in two patients with anti-MDA5 autoantibody-positive refractory JDM with ILD. Both patients experienced moderate clinical improvement in disease activity in their skin, muscles, and other target organs. But particularly striking was what the investigators termed the “remarkable” improvement in ILD, including near-resolution of abnormal findings on high-resolution CT imaging and a more robust performance on pulmonary function testing.

Both of these hitherto treatment-refractory patients were able to wean or discontinue their immunosuppressive medications. The patients’ elevated blood interferon-response gene signature improved significantly in response to tofacitinib, and their problematic upregulation of STAT1 phosphorylation of CD4+ T cells and monocytes stimulated with interferon-gamma was tamed, dropping to levels typically seen in healthy individuals.

Also, French pediatric rheumatologists have identified key phenotypic and cytokine differences between 13 patients with JDM or juvenile overlap myositis who were anti-MDA5 autoantibody positive at presentation and 51 others who were not. The anti-MDA5 autoantibody–positive group had a higher frequency of ILD, arthritis, skin ulcerations, and lupus features, but milder muscle involvement than did the anti-MDA5 autoantibody–negative group. The anti-MDA5 autoantibody–positive patients demonstrated enhanced interferon-alpha signaling based upon their significantly higher serum interferon-alpha levels, compared with the anti-MDA5-negative group, and those levels decreased following treatment with improvement in symptoms.

The French investigators proposed that interferon-alpha may constitute a novel therapeutic target in the subgroup of patients with severe, refractory juvenile myositis and anti-MDA5 autoantibodies – and, as it happens, it’s known that JAK inhibitors modulate the interferon pathway.
 

Risk factors for ILD in SJIA

In the past half-dozen years or so, pediatric rheumatologists have become increasingly aware of and concerned about a new development in SJIA: the occurrence of comorbid ILD. This is a poor-prognosis disease: In a cohort from the United Kingdom, 5-year mortality from the time of diagnosis was 41%, fully 40-fold higher than in patients with SJIA only.

Patient cohorts with SJIA and ILD have unusual clinical and laboratory features that aren’t part of the typical picture in SJIA. These include acute clubbing, lymphopenia, a fixed pruritic rash, unexplained abdominal pain, peripheral eosinophilia, facial swelling, and an increased ferritin level, a hallmark of acute macrophage activation syndrome. Onset of SJIA before 2 years of age is another red flag associated with increased risk for ILD. So is trisomy 21, which is up to 50 times more prevalent in patients with SJIA and ILD than in the general population or in patients with SJIA only. Another clue is an adverse reaction to tocilizumab (Actemra).

Any of these findings warrant hypervigilance: “Be on high alert and monitor these patients for ILD much more closely,” Dr. Stevens advised.

This means ordering a CT scan, prescribing PCP prophylaxis, and regularly measuring pulmonary function, admittedly a challenge in children under 7 years old. In these younger kids, practical solutions include measuring their oxygen saturation before and after running around the room to see if it drops. A 6-minute walk test and sleep oximetry are other options.

The explanation for the abrupt arrival of ILD as part of the picture in SJIA during the past decade remains unclear. The timing coincides with a major advance in the treatment of SJIA: the arrival of biologic agents blocking interleukin-1 and -6. Could this be a serious treatment side effect?

“It’s all association so far, and we’re not really sure why we’re seeing this association. Is it because we’re using a lot [fewer] corticosteroids now, and maybe those were preventing lung disease in the past?” Dr. Stevens speculated.

At this point, she and her fellow pediatric rheumatologists are awaiting further evidence before discussing a curb in their use of IL-1 or -6 inhibitors in patients with SJIA.

“These drugs have turned around the lives of kids with SJIA. They used to suffer through all our ineffective treatments for years, with terrible joint destruction and a pretty high mortality rate. These are great drugs for this disease, and we certainly don’t want to limit them,” she said.

Dr. Stevens reported research collaborations with Kineta and Seattle Genetics in addition to her employment at Janssen Pharmaceuticals.

Publications
Publications
Topics
Article Type
Sections
Article Source

REPORTING FROM RWCS 2020

Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

Primary care physicians reshuffle their work, lives in a pandemic

Article Type
Changed

 

During his shift at a COVID-19 drive-through triage screening area set up outside the University of Arkansas for Medical Sciences in Little Rock, Robert Hopkins Jr., MD, noticed a woman bowled over in the front seat of her car.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

A nurse practitioner had just informed her that she had met the criteria for undergoing testing for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).

“She was very upset and was crying nearly inconsolably,” said Dr. Hopkins, who directs the division of general internal medicine at the University of Arkansas Medical Sciences College of Medicine. “I went over and visited with her for a few minutes. She was scared to death that we [had] told her she was going to die. In her mind, if she had COVID-19 that meant a death sentence, and if we were testing her that meant she was likely to not survive.”

Dr. Hopkins tried his best to put testing in perspective for the woman. “At least she came to a level of comfort and realized that we were doing this for her, that this was not a death sentence, that this was not her fault,” he said. “She was worried about infecting her kids and her grandkids and ending up in the hospital and being a burden. Being able to spend that few minutes with her and help to bring down her level of anxiety – I think that’s where we need to put our efforts as physicians right now, helping people understand, ‘Yes, this is serious. Yes, we need to continue to social distance. Yes, we need to be cautious. But, we will get through this if we all work together to do so.’ ”

Prior to the COVID-19 pandemic, Dr. Hopkins spent part of his time seeing patients in the university’s main hospital, but most of it in an outpatient clinic where he and about 20 other primary care physicians care for patients and precept medical residents. Now, medical residents have been deployed to other services, primarily in the hospital, and he and his physician colleagues are conducting 80%-90% of patient visits by video conferencing or by telephone. It’s a whole new world.

“We’ve gone from a relatively traditional inpatient/outpatient practice where we’re seeing patients face to face to doing some face-to-face visits, but an awful lot of what we do now is in the technology domain,” said Dr. Hopkins, who also assisted with health care relief efforts during hurricanes Rita and Katrina.

“A group of six of us has been redeployed to assist with the surge unit for the inpatient facility, so our outpatient duties are being taken on by some of our partners.”

He also pitches in at the drive-through COVID-19 screening clinic, which was set up on March 27 and operates between 8 a.m. and 8 p.m., 7 days a week. “We’re able to measure people’s temperature, take a quick screening history, decide whether their risk is such that we need to do a COVID-19 PCR [polymerase chain reaction] test,” he said. “Then we make a determination of whether they need to go home on quarantine awaiting those results, or if they don’t have anything that needs to be evaluated, or whether they need to be triaged to an urgent care setting or to the emergency department.”

To minimize his risk of acquiring COVID-19, he follows personal hygiene practices recommended by the Centers for Disease Control and Prevention. He also places his work shoes in a shoebox, which he keeps in his car. “I put them on when I get to the parking deck at work, do my work, and then I put them in the shoebox, slip on another pair of shoes and drive home so I’m not tracking in things I potentially had on me,” said Dr. Hopkins, who is married and a father to two college-aged sons and a daughter in fourth grade. “When I get home I immediately shower, and then I exercise or have dinner with my family.”

Despite the longer-than-usual work hours and upheaval to the traditional medical practice model brought on by the pandemic, Dr. Hopkins, a self-described “glass half full person,” said that he does his best to keep watch over his patients and colleagues. “I’m trying to keep an eye out on my team members – physicians, nurses, medical assistants, and folks at the front desk – trying to make sure that people are getting rest, trying to make sure that people are not overcommitting,” he said. “Because if we’re not all working together and working for the long term, we’re going to be in trouble. This is not going to be a sprint; this is going to be a marathon for us to get through.”

To keep mentally centered, he engages in at least 40 minutes of exercise each day on his bicycle or on the elliptical machine at home. Dr. Hopkins hopes that the current efforts to redeploy resources, expand clinician skill sets, and forge relationships with colleagues in other disciplines will carry over into the delivery of health care when COVID-19 is a distant memory. “I hope that some of those relationships are going to continue and result in better care for all of our patients,” he said.
 

 

 

"We are in dire need of hugs"

MaryAnn Dakkak, MD, is another primary care physician whose work week looks drastically different from how it looked before the pandemic. Typically, Dr. Dakkak, a family physician at Boston University, practices a mix of clinic-based family medicine and obstetrics, and works in inpatient medicine 6 weeks a year. Currently, she is leading a COVID-19 team full time at Boston Medical Center, a 300-bed safety-net hospital located on the campus of Boston University Medical Center.

Courtesy Dr. MaryAnn Dakkak
Dr. MaryAnn Dakkak

COVID-19 has also shaken up her life at home.

When Dr. Dakkak volunteered to take on her new role, the first thing that came to her mind was how making the switch would affect the well-being of her 8-year-old son and 10-year-old daughter.

“I thought, ‘How do I get my children somewhere where I don’t have to worry about them?’ ” Dr. Dakkak said.

She floated the idea with her husband of flying their children out to stay with her recently retired parents, who live outside of Sacramento, Calif., until the pandemic eases up. “I was thinking to myself, ‘Am I overreacting? Is the pandemic not going to be that bad?’ because the rest of the country seemed to be in some amount of denial,” she said. “So, I called my dad, who’s a retired pediatric anesthesiologist. He’s from Egypt so he’s done crisis medicine in his time. He encouraged me to send the kids.”

On the same day that Dr. Dakkak began her first 12-hour COVID-19 shift at the hospital, her husband and children boarded a plane to California, where the kids remain in the care of her parents. Her husband returned after staying there for 2 weeks. “Every day when I’m working, I validate my decision,” she said. “When I first started, I worked 5 nights in a row, had 2 days off, and then worked 6 nights in a row. I was busy so I didn’t think about [being away from my kids], but at the same time I was grateful that I didn’t have to come home and worry about homeschooling the kids or infecting them.”

She checks in with them as she can via cell phone or FaceTime. “My son has been very honest,” Dr. Dakkak said. “He says, ‘FaceTime makes me miss you more, and I don’t like it,’ which I understand. I’ll call my mom, and if they want to talk to me, they’ll talk to me. If they don’t want to talk to me, I’m okay. This is about them being healthy and safe. I sent them a care package a few days ago with cards and some workbooks. I’m optimistic that in June I can at least see them if not bring them home.”

Dr. Dakkak describes leading a COVID-19 team as a grueling experience that challenges her medical know-how nearly every day, with seemingly ever-changing algorithms. “Our knowledge of this disease is five steps behind, and changing at lightning speed,” said Dr. Dakkak, who completed a fellowship in surgical and high-risk obstetrics. “It’s hard to balance continuing to teach evidence-based medicine for everything else in medicine [with continuing] to practice minimal and ever-changing evidence-based COVID medicine. We just don’t know enough [about the virus] yet. This is nothing like we were taught in medical school. Everyone has elevated d-dimers with COVID-19, and we don’t get CT pulmonary angiograms [CTPAs] on all of them; we wouldn’t physically be able to. Some patients have d-dimers in the thousands, and only some are stable to get CTPAs. We are also finding pulmonary embolisms. Now we’re basing our algorithm on anticoagulation due to d-dimers because sometimes you can’t always do a CTPA even if you want to. On the other hand, we have people who are coming into the hospital too late. We’ve had a few who have come in after having days of stroke symptoms. I worry about our patients at home who hesitate to come in when they really should.”

Sometimes she feels sad for the medical residents on her team because their instinct is to go in and check on each patient, “but I don’t want them to get exposed,” she said. “So, we check in by phone, or if they need a physical check-in, we minimize the check-ins; only one of us goes in. I’m more willing to put myself in the room than to put them in the room. I also feel for them because they came into medicine for the humanity of medicine – not the charting or the ordering of medicine. I also worry about the acuity and sadness they’re seeing. This is a rough introduction to medicine for them.”

When interviewed for this story in late April, Dr. Dakkak had kept track of her intubated COVID-19 patients. “Most of my patients get to go home without having been intubated, but those aren’t the ones I worry about,” she said. “I have two patients I have been watching. One of them has just been extubated and I’m still worried about him, but I’m hoping he’s going to be fine. The other one is the first pregnant woman we intubated. She is now extubated, doing really well, and went home. Her fetus is doing well, never had any issues while she was intubated. Those cases make me happy. They were both under the age of 35. It is nice to follow those intubations and find that the majority are doing okay.”

The first patient she had cared for who died was a young man “who was always in good spirits,” she recalled. “We called his brother right before intubating him. After intubation, his oxygen saturation didn’t jump up, which made me worry a bit.” About a week later, the young man died. “I kept thinking, ‘We intubated him when he was still comfortable talking. Should I have put it off and had him call more people to say goodbye? Should I have known that he wasn’t going to wake up?’ ” said Dr. Dakkak, who is also women’s health director at Manet Community Health Centers. “A lot of us have worked on our end-of-life discussions in the past month, just being able to tell somebody, ‘This might be your last time to call family. Call family and talk to whoever you want.’ Guilt isn’t the right word, but it’s unsettling if I’m the last person a patient talks to. I feel that, if that’s the case, then I didn’t do a good enough job trying to get them to their family or friends. If I am worried about a patient’s clinical status declining, I tell families now, when I call them, ‘I hope I’m wrong; I hope they don’t need to be intubated, but I think this is the time to talk.’ ”

To keep herself grounded during off hours, Dr. Dakkak spends time resting, checking in with her family, journaling “to get a lot of feelings out,” gardening, hiking, and joining Zoom chats with friends. Once recentered, she draws from a sense of obligation to others as she prepares for her next shift caring for COVID-19 patients.

“I have a lot of love for the world that I get to expend by doing this hard work,” she said. “I love humanity and I love humanity in times of crisis. The interactions I have with patients and their families are still central to why I do this work. I love my medical teams, and I would never want to let them down. It is nice to feel the sense of teamwork across the hospital. The nurses that I sit with and experience this with are amazing. I keep saying that the only thing I want to do when this pandemic is over is hug everyone. I think we are in dire need of hugs.”
 

 

 

Finding light in the darkness

Internist Katie Jobbins, DO, also has worked in a professional role that was created because of COVID-19.

Dr. Katie Jobbins

Shortly before Dr. Jobbins was deployed to Baystate Medical Center in Springfield, Ma., for 2 weeks in April of 2020 to help clinicians with an anticipated surge of COVID-19 cases, she encountered a patient who walked into Baystate’s High Street Health Center.

“I think I have COVID-19,” the patient proclaimed to her, at the outpatient clinic that serves mostly inner-city, Medicaid patients.

Prior to becoming an ambulatory internist, Dr. Jobbins was a surgical resident. “So I went into that mode of ‘I need to do this, this, and this,’ ” she said. “I went through a checklist in my head to make sure I was prepared to take care of the patient.”

She applied that same systems approach during her redeployment assignment in the tertiary care hospital, which typically involved 10-hour shifts overseeing internal medicine residents in a medical telemetry unit. “We would take care of people under investigation for COVID-19, but we were not assigned to the actual COVID unit,” said Dr. Jobbins, who is also associate program director for the internal medicine residency program at the University of Massachusetts Medical School–Baystate Springfield. “They tried to redeploy other people to those units who had special training, and we were trying to back fill into where those people that got moved to the COVID units or the ICU units were actually working. We were taking more of the medical side of the floors.”

Even so, one patient on the unit was suspected of having COVID-19, so Dr. Jobbins suited up with personal protective equipment and conducted a thorough exam with residents waiting outside the patient’s room, a safe distance away. “I explained everything I found on the exam to the residents, trying to give them some educational benefit, even though they couldn’t physically examine the patient because we’re trying to protect them since they’re in training,” she said. “It was anxiety provoking, on some level, knowing that there’s a potential risk of exposure [to the virus], but knowing that Baystate Health has gone to extraordinary measures to make sure we have the correct PPE and support us is reassuring. I knew I had the right equipment and the right tools to take care of the patient, which calmed my nerves and made me feel like I could do the job. That’s the most important thing as a physician during this time: knowing that you have people supporting you who have your back at all times.”

Like Dr. Dakkak, Dr. Jobbins had to make some adjustments to her interaction with her family.

Before she began the deployment, Dr. Jobbins engaged in a frank discussion with her husband and her two young boys about the risks she faced working in a hospital caring for patients with COVID-19. “My husband and I made sure our wills were up to date, and we talked about what we would do if either of us got the virus,” she said. To minimize the potential risk of transmitting the virus to her loved ones during the two-week deployment, she considered living away from her family in a nearby home owned by her father, but decided against that and to “take it day by day.” Following her hospital shifts, Dr. Jobbins changed into a fresh set of clothes before leaving the hospital. Once she arrived home, she showered to reduce the risk of possibly becoming a vector to her family.

She had to tell her kids: “You can’t kiss me right now.”

“As much as it’s hard for them to understand, we had a conversation [in which I explained] ‘This is a virus. It will go away eventually, but it’s a virus we’re fighting.’ It’s interesting to watch a 3-year-old try to process that and take his play samurai sword or Marvel toys and decide he’s going to run around the neighborhood and try to kill the virus.”

At the High Street Health Center, Dr. Jobbins and her colleagues have transitioned to conducting most patient encounters via telephone or video appointments. “We have tried to maintain as much continuity for our patients to address their chronic medical needs through these visits, such as hypertension management and diabetes care,” she said. “We have begun a rigorous screening process to triage and treat patients suspicious for COVID-19 through telehealth in hopes of keeping them safe and in their own homes. We also continue to see patients for nonrespiratory urgent care needs in person once they have screened negative for COVID-19.”

“In terms of the inpatient setting, we’ve noticed that a lot of people are choosing not to go to the hospital now, unless they’re extremely ill,” Dr. Jobbins noted. “We’re going to need to find a balance with when do people truly need to go to the hospital and when do they not? What can we manage as an outpatient versus having someone go to the emergency department? That’s really the role of the primary care physician. We need to help people understand, ‘You don’t need to go to the ED for everything, but here are the things you really need to go for.’ ”

“It will be interesting to see what health care looks like in 6 months or a year. I’m excited to see where we land,” Dr. Jobbins added.


 

 

 

Hopes for the Future of Telemedicine

When the practice of medicine enters a post–COVID-19 era, Dr. Jobbins hopes that telemedicine will be incorporated more into the delivery of patient care. “I’ve found that many of my patients who often are no-shows to the inpatient version of their visits have had a higher success rate of follow-through when we do the telephone visits,” she said. “It’s been very successful. I hope that the insurance companies and [Centers for Medicare & Medicaid] will continue to reimburse this as they see this is a benefit to our patients.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

Dr. Hopkins is also hopeful that physicians will be able to successfully see patients via telemedicine in the postpandemic world.

“For the ups and downs we’ve had with telemedicine, I’d love for us to be able to enhance the positives and incorporate that into our practice going forward. If we can reach our patients and help treat them where they are, rather than them having to come to us, that may be a plus,” he said.

In the meantime, Dr. Jobbins presses on as the curve of COVID-19 cases flattens in Western Massachusetts and remains grateful that she chose to practice medicine.

“The commitment I have to being an educator in addition to being a physician is part of why I keep doing this,” Dr. Jobbins said. “I find this to be one of the most fulfilling jobs and careers you could ever have: being there for people when they need you the most. That’s really what a physician’s job is: being there for people when a family member has passed away or when they just need to talk because they’re having anxiety. At the end of the day, if we can impart that to those we work with and bring in a positive attitude, it’s infectious and it makes people see this is a reason we keep doing what we’re doing.”

She’s also been heartened by the kindness of strangers during this pandemic, from those who made and donated face shields when they were in short supply, to those who delivered food to the hospital as a gesture of thanks.

“I had a patient who made homemade masks and sent them to my office,” she said. “There’s obviously good and bad during this time, but I get hope from seeing all of the good things that are coming out of this, the whole idea of finding the light in the darkness.”

Publications
Topics
Sections

 

During his shift at a COVID-19 drive-through triage screening area set up outside the University of Arkansas for Medical Sciences in Little Rock, Robert Hopkins Jr., MD, noticed a woman bowled over in the front seat of her car.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

A nurse practitioner had just informed her that she had met the criteria for undergoing testing for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).

“She was very upset and was crying nearly inconsolably,” said Dr. Hopkins, who directs the division of general internal medicine at the University of Arkansas Medical Sciences College of Medicine. “I went over and visited with her for a few minutes. She was scared to death that we [had] told her she was going to die. In her mind, if she had COVID-19 that meant a death sentence, and if we were testing her that meant she was likely to not survive.”

Dr. Hopkins tried his best to put testing in perspective for the woman. “At least she came to a level of comfort and realized that we were doing this for her, that this was not a death sentence, that this was not her fault,” he said. “She was worried about infecting her kids and her grandkids and ending up in the hospital and being a burden. Being able to spend that few minutes with her and help to bring down her level of anxiety – I think that’s where we need to put our efforts as physicians right now, helping people understand, ‘Yes, this is serious. Yes, we need to continue to social distance. Yes, we need to be cautious. But, we will get through this if we all work together to do so.’ ”

Prior to the COVID-19 pandemic, Dr. Hopkins spent part of his time seeing patients in the university’s main hospital, but most of it in an outpatient clinic where he and about 20 other primary care physicians care for patients and precept medical residents. Now, medical residents have been deployed to other services, primarily in the hospital, and he and his physician colleagues are conducting 80%-90% of patient visits by video conferencing or by telephone. It’s a whole new world.

“We’ve gone from a relatively traditional inpatient/outpatient practice where we’re seeing patients face to face to doing some face-to-face visits, but an awful lot of what we do now is in the technology domain,” said Dr. Hopkins, who also assisted with health care relief efforts during hurricanes Rita and Katrina.

“A group of six of us has been redeployed to assist with the surge unit for the inpatient facility, so our outpatient duties are being taken on by some of our partners.”

He also pitches in at the drive-through COVID-19 screening clinic, which was set up on March 27 and operates between 8 a.m. and 8 p.m., 7 days a week. “We’re able to measure people’s temperature, take a quick screening history, decide whether their risk is such that we need to do a COVID-19 PCR [polymerase chain reaction] test,” he said. “Then we make a determination of whether they need to go home on quarantine awaiting those results, or if they don’t have anything that needs to be evaluated, or whether they need to be triaged to an urgent care setting or to the emergency department.”

To minimize his risk of acquiring COVID-19, he follows personal hygiene practices recommended by the Centers for Disease Control and Prevention. He also places his work shoes in a shoebox, which he keeps in his car. “I put them on when I get to the parking deck at work, do my work, and then I put them in the shoebox, slip on another pair of shoes and drive home so I’m not tracking in things I potentially had on me,” said Dr. Hopkins, who is married and a father to two college-aged sons and a daughter in fourth grade. “When I get home I immediately shower, and then I exercise or have dinner with my family.”

Despite the longer-than-usual work hours and upheaval to the traditional medical practice model brought on by the pandemic, Dr. Hopkins, a self-described “glass half full person,” said that he does his best to keep watch over his patients and colleagues. “I’m trying to keep an eye out on my team members – physicians, nurses, medical assistants, and folks at the front desk – trying to make sure that people are getting rest, trying to make sure that people are not overcommitting,” he said. “Because if we’re not all working together and working for the long term, we’re going to be in trouble. This is not going to be a sprint; this is going to be a marathon for us to get through.”

To keep mentally centered, he engages in at least 40 minutes of exercise each day on his bicycle or on the elliptical machine at home. Dr. Hopkins hopes that the current efforts to redeploy resources, expand clinician skill sets, and forge relationships with colleagues in other disciplines will carry over into the delivery of health care when COVID-19 is a distant memory. “I hope that some of those relationships are going to continue and result in better care for all of our patients,” he said.
 

 

 

"We are in dire need of hugs"

MaryAnn Dakkak, MD, is another primary care physician whose work week looks drastically different from how it looked before the pandemic. Typically, Dr. Dakkak, a family physician at Boston University, practices a mix of clinic-based family medicine and obstetrics, and works in inpatient medicine 6 weeks a year. Currently, she is leading a COVID-19 team full time at Boston Medical Center, a 300-bed safety-net hospital located on the campus of Boston University Medical Center.

Courtesy Dr. MaryAnn Dakkak
Dr. MaryAnn Dakkak

COVID-19 has also shaken up her life at home.

When Dr. Dakkak volunteered to take on her new role, the first thing that came to her mind was how making the switch would affect the well-being of her 8-year-old son and 10-year-old daughter.

“I thought, ‘How do I get my children somewhere where I don’t have to worry about them?’ ” Dr. Dakkak said.

She floated the idea with her husband of flying their children out to stay with her recently retired parents, who live outside of Sacramento, Calif., until the pandemic eases up. “I was thinking to myself, ‘Am I overreacting? Is the pandemic not going to be that bad?’ because the rest of the country seemed to be in some amount of denial,” she said. “So, I called my dad, who’s a retired pediatric anesthesiologist. He’s from Egypt so he’s done crisis medicine in his time. He encouraged me to send the kids.”

On the same day that Dr. Dakkak began her first 12-hour COVID-19 shift at the hospital, her husband and children boarded a plane to California, where the kids remain in the care of her parents. Her husband returned after staying there for 2 weeks. “Every day when I’m working, I validate my decision,” she said. “When I first started, I worked 5 nights in a row, had 2 days off, and then worked 6 nights in a row. I was busy so I didn’t think about [being away from my kids], but at the same time I was grateful that I didn’t have to come home and worry about homeschooling the kids or infecting them.”

She checks in with them as she can via cell phone or FaceTime. “My son has been very honest,” Dr. Dakkak said. “He says, ‘FaceTime makes me miss you more, and I don’t like it,’ which I understand. I’ll call my mom, and if they want to talk to me, they’ll talk to me. If they don’t want to talk to me, I’m okay. This is about them being healthy and safe. I sent them a care package a few days ago with cards and some workbooks. I’m optimistic that in June I can at least see them if not bring them home.”

Dr. Dakkak describes leading a COVID-19 team as a grueling experience that challenges her medical know-how nearly every day, with seemingly ever-changing algorithms. “Our knowledge of this disease is five steps behind, and changing at lightning speed,” said Dr. Dakkak, who completed a fellowship in surgical and high-risk obstetrics. “It’s hard to balance continuing to teach evidence-based medicine for everything else in medicine [with continuing] to practice minimal and ever-changing evidence-based COVID medicine. We just don’t know enough [about the virus] yet. This is nothing like we were taught in medical school. Everyone has elevated d-dimers with COVID-19, and we don’t get CT pulmonary angiograms [CTPAs] on all of them; we wouldn’t physically be able to. Some patients have d-dimers in the thousands, and only some are stable to get CTPAs. We are also finding pulmonary embolisms. Now we’re basing our algorithm on anticoagulation due to d-dimers because sometimes you can’t always do a CTPA even if you want to. On the other hand, we have people who are coming into the hospital too late. We’ve had a few who have come in after having days of stroke symptoms. I worry about our patients at home who hesitate to come in when they really should.”

Sometimes she feels sad for the medical residents on her team because their instinct is to go in and check on each patient, “but I don’t want them to get exposed,” she said. “So, we check in by phone, or if they need a physical check-in, we minimize the check-ins; only one of us goes in. I’m more willing to put myself in the room than to put them in the room. I also feel for them because they came into medicine for the humanity of medicine – not the charting or the ordering of medicine. I also worry about the acuity and sadness they’re seeing. This is a rough introduction to medicine for them.”

When interviewed for this story in late April, Dr. Dakkak had kept track of her intubated COVID-19 patients. “Most of my patients get to go home without having been intubated, but those aren’t the ones I worry about,” she said. “I have two patients I have been watching. One of them has just been extubated and I’m still worried about him, but I’m hoping he’s going to be fine. The other one is the first pregnant woman we intubated. She is now extubated, doing really well, and went home. Her fetus is doing well, never had any issues while she was intubated. Those cases make me happy. They were both under the age of 35. It is nice to follow those intubations and find that the majority are doing okay.”

The first patient she had cared for who died was a young man “who was always in good spirits,” she recalled. “We called his brother right before intubating him. After intubation, his oxygen saturation didn’t jump up, which made me worry a bit.” About a week later, the young man died. “I kept thinking, ‘We intubated him when he was still comfortable talking. Should I have put it off and had him call more people to say goodbye? Should I have known that he wasn’t going to wake up?’ ” said Dr. Dakkak, who is also women’s health director at Manet Community Health Centers. “A lot of us have worked on our end-of-life discussions in the past month, just being able to tell somebody, ‘This might be your last time to call family. Call family and talk to whoever you want.’ Guilt isn’t the right word, but it’s unsettling if I’m the last person a patient talks to. I feel that, if that’s the case, then I didn’t do a good enough job trying to get them to their family or friends. If I am worried about a patient’s clinical status declining, I tell families now, when I call them, ‘I hope I’m wrong; I hope they don’t need to be intubated, but I think this is the time to talk.’ ”

To keep herself grounded during off hours, Dr. Dakkak spends time resting, checking in with her family, journaling “to get a lot of feelings out,” gardening, hiking, and joining Zoom chats with friends. Once recentered, she draws from a sense of obligation to others as she prepares for her next shift caring for COVID-19 patients.

“I have a lot of love for the world that I get to expend by doing this hard work,” she said. “I love humanity and I love humanity in times of crisis. The interactions I have with patients and their families are still central to why I do this work. I love my medical teams, and I would never want to let them down. It is nice to feel the sense of teamwork across the hospital. The nurses that I sit with and experience this with are amazing. I keep saying that the only thing I want to do when this pandemic is over is hug everyone. I think we are in dire need of hugs.”
 

 

 

Finding light in the darkness

Internist Katie Jobbins, DO, also has worked in a professional role that was created because of COVID-19.

Dr. Katie Jobbins

Shortly before Dr. Jobbins was deployed to Baystate Medical Center in Springfield, Ma., for 2 weeks in April of 2020 to help clinicians with an anticipated surge of COVID-19 cases, she encountered a patient who walked into Baystate’s High Street Health Center.

“I think I have COVID-19,” the patient proclaimed to her, at the outpatient clinic that serves mostly inner-city, Medicaid patients.

Prior to becoming an ambulatory internist, Dr. Jobbins was a surgical resident. “So I went into that mode of ‘I need to do this, this, and this,’ ” she said. “I went through a checklist in my head to make sure I was prepared to take care of the patient.”

She applied that same systems approach during her redeployment assignment in the tertiary care hospital, which typically involved 10-hour shifts overseeing internal medicine residents in a medical telemetry unit. “We would take care of people under investigation for COVID-19, but we were not assigned to the actual COVID unit,” said Dr. Jobbins, who is also associate program director for the internal medicine residency program at the University of Massachusetts Medical School–Baystate Springfield. “They tried to redeploy other people to those units who had special training, and we were trying to back fill into where those people that got moved to the COVID units or the ICU units were actually working. We were taking more of the medical side of the floors.”

Even so, one patient on the unit was suspected of having COVID-19, so Dr. Jobbins suited up with personal protective equipment and conducted a thorough exam with residents waiting outside the patient’s room, a safe distance away. “I explained everything I found on the exam to the residents, trying to give them some educational benefit, even though they couldn’t physically examine the patient because we’re trying to protect them since they’re in training,” she said. “It was anxiety provoking, on some level, knowing that there’s a potential risk of exposure [to the virus], but knowing that Baystate Health has gone to extraordinary measures to make sure we have the correct PPE and support us is reassuring. I knew I had the right equipment and the right tools to take care of the patient, which calmed my nerves and made me feel like I could do the job. That’s the most important thing as a physician during this time: knowing that you have people supporting you who have your back at all times.”

Like Dr. Dakkak, Dr. Jobbins had to make some adjustments to her interaction with her family.

Before she began the deployment, Dr. Jobbins engaged in a frank discussion with her husband and her two young boys about the risks she faced working in a hospital caring for patients with COVID-19. “My husband and I made sure our wills were up to date, and we talked about what we would do if either of us got the virus,” she said. To minimize the potential risk of transmitting the virus to her loved ones during the two-week deployment, she considered living away from her family in a nearby home owned by her father, but decided against that and to “take it day by day.” Following her hospital shifts, Dr. Jobbins changed into a fresh set of clothes before leaving the hospital. Once she arrived home, she showered to reduce the risk of possibly becoming a vector to her family.

She had to tell her kids: “You can’t kiss me right now.”

“As much as it’s hard for them to understand, we had a conversation [in which I explained] ‘This is a virus. It will go away eventually, but it’s a virus we’re fighting.’ It’s interesting to watch a 3-year-old try to process that and take his play samurai sword or Marvel toys and decide he’s going to run around the neighborhood and try to kill the virus.”

At the High Street Health Center, Dr. Jobbins and her colleagues have transitioned to conducting most patient encounters via telephone or video appointments. “We have tried to maintain as much continuity for our patients to address their chronic medical needs through these visits, such as hypertension management and diabetes care,” she said. “We have begun a rigorous screening process to triage and treat patients suspicious for COVID-19 through telehealth in hopes of keeping them safe and in their own homes. We also continue to see patients for nonrespiratory urgent care needs in person once they have screened negative for COVID-19.”

“In terms of the inpatient setting, we’ve noticed that a lot of people are choosing not to go to the hospital now, unless they’re extremely ill,” Dr. Jobbins noted. “We’re going to need to find a balance with when do people truly need to go to the hospital and when do they not? What can we manage as an outpatient versus having someone go to the emergency department? That’s really the role of the primary care physician. We need to help people understand, ‘You don’t need to go to the ED for everything, but here are the things you really need to go for.’ ”

“It will be interesting to see what health care looks like in 6 months or a year. I’m excited to see where we land,” Dr. Jobbins added.


 

 

 

Hopes for the Future of Telemedicine

When the practice of medicine enters a post–COVID-19 era, Dr. Jobbins hopes that telemedicine will be incorporated more into the delivery of patient care. “I’ve found that many of my patients who often are no-shows to the inpatient version of their visits have had a higher success rate of follow-through when we do the telephone visits,” she said. “It’s been very successful. I hope that the insurance companies and [Centers for Medicare & Medicaid] will continue to reimburse this as they see this is a benefit to our patients.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

Dr. Hopkins is also hopeful that physicians will be able to successfully see patients via telemedicine in the postpandemic world.

“For the ups and downs we’ve had with telemedicine, I’d love for us to be able to enhance the positives and incorporate that into our practice going forward. If we can reach our patients and help treat them where they are, rather than them having to come to us, that may be a plus,” he said.

In the meantime, Dr. Jobbins presses on as the curve of COVID-19 cases flattens in Western Massachusetts and remains grateful that she chose to practice medicine.

“The commitment I have to being an educator in addition to being a physician is part of why I keep doing this,” Dr. Jobbins said. “I find this to be one of the most fulfilling jobs and careers you could ever have: being there for people when they need you the most. That’s really what a physician’s job is: being there for people when a family member has passed away or when they just need to talk because they’re having anxiety. At the end of the day, if we can impart that to those we work with and bring in a positive attitude, it’s infectious and it makes people see this is a reason we keep doing what we’re doing.”

She’s also been heartened by the kindness of strangers during this pandemic, from those who made and donated face shields when they were in short supply, to those who delivered food to the hospital as a gesture of thanks.

“I had a patient who made homemade masks and sent them to my office,” she said. “There’s obviously good and bad during this time, but I get hope from seeing all of the good things that are coming out of this, the whole idea of finding the light in the darkness.”

 

During his shift at a COVID-19 drive-through triage screening area set up outside the University of Arkansas for Medical Sciences in Little Rock, Robert Hopkins Jr., MD, noticed a woman bowled over in the front seat of her car.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

A nurse practitioner had just informed her that she had met the criteria for undergoing testing for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).

“She was very upset and was crying nearly inconsolably,” said Dr. Hopkins, who directs the division of general internal medicine at the University of Arkansas Medical Sciences College of Medicine. “I went over and visited with her for a few minutes. She was scared to death that we [had] told her she was going to die. In her mind, if she had COVID-19 that meant a death sentence, and if we were testing her that meant she was likely to not survive.”

Dr. Hopkins tried his best to put testing in perspective for the woman. “At least she came to a level of comfort and realized that we were doing this for her, that this was not a death sentence, that this was not her fault,” he said. “She was worried about infecting her kids and her grandkids and ending up in the hospital and being a burden. Being able to spend that few minutes with her and help to bring down her level of anxiety – I think that’s where we need to put our efforts as physicians right now, helping people understand, ‘Yes, this is serious. Yes, we need to continue to social distance. Yes, we need to be cautious. But, we will get through this if we all work together to do so.’ ”

Prior to the COVID-19 pandemic, Dr. Hopkins spent part of his time seeing patients in the university’s main hospital, but most of it in an outpatient clinic where he and about 20 other primary care physicians care for patients and precept medical residents. Now, medical residents have been deployed to other services, primarily in the hospital, and he and his physician colleagues are conducting 80%-90% of patient visits by video conferencing or by telephone. It’s a whole new world.

“We’ve gone from a relatively traditional inpatient/outpatient practice where we’re seeing patients face to face to doing some face-to-face visits, but an awful lot of what we do now is in the technology domain,” said Dr. Hopkins, who also assisted with health care relief efforts during hurricanes Rita and Katrina.

“A group of six of us has been redeployed to assist with the surge unit for the inpatient facility, so our outpatient duties are being taken on by some of our partners.”

He also pitches in at the drive-through COVID-19 screening clinic, which was set up on March 27 and operates between 8 a.m. and 8 p.m., 7 days a week. “We’re able to measure people’s temperature, take a quick screening history, decide whether their risk is such that we need to do a COVID-19 PCR [polymerase chain reaction] test,” he said. “Then we make a determination of whether they need to go home on quarantine awaiting those results, or if they don’t have anything that needs to be evaluated, or whether they need to be triaged to an urgent care setting or to the emergency department.”

To minimize his risk of acquiring COVID-19, he follows personal hygiene practices recommended by the Centers for Disease Control and Prevention. He also places his work shoes in a shoebox, which he keeps in his car. “I put them on when I get to the parking deck at work, do my work, and then I put them in the shoebox, slip on another pair of shoes and drive home so I’m not tracking in things I potentially had on me,” said Dr. Hopkins, who is married and a father to two college-aged sons and a daughter in fourth grade. “When I get home I immediately shower, and then I exercise or have dinner with my family.”

Despite the longer-than-usual work hours and upheaval to the traditional medical practice model brought on by the pandemic, Dr. Hopkins, a self-described “glass half full person,” said that he does his best to keep watch over his patients and colleagues. “I’m trying to keep an eye out on my team members – physicians, nurses, medical assistants, and folks at the front desk – trying to make sure that people are getting rest, trying to make sure that people are not overcommitting,” he said. “Because if we’re not all working together and working for the long term, we’re going to be in trouble. This is not going to be a sprint; this is going to be a marathon for us to get through.”

To keep mentally centered, he engages in at least 40 minutes of exercise each day on his bicycle or on the elliptical machine at home. Dr. Hopkins hopes that the current efforts to redeploy resources, expand clinician skill sets, and forge relationships with colleagues in other disciplines will carry over into the delivery of health care when COVID-19 is a distant memory. “I hope that some of those relationships are going to continue and result in better care for all of our patients,” he said.
 

 

 

"We are in dire need of hugs"

MaryAnn Dakkak, MD, is another primary care physician whose work week looks drastically different from how it looked before the pandemic. Typically, Dr. Dakkak, a family physician at Boston University, practices a mix of clinic-based family medicine and obstetrics, and works in inpatient medicine 6 weeks a year. Currently, she is leading a COVID-19 team full time at Boston Medical Center, a 300-bed safety-net hospital located on the campus of Boston University Medical Center.

Courtesy Dr. MaryAnn Dakkak
Dr. MaryAnn Dakkak

COVID-19 has also shaken up her life at home.

When Dr. Dakkak volunteered to take on her new role, the first thing that came to her mind was how making the switch would affect the well-being of her 8-year-old son and 10-year-old daughter.

“I thought, ‘How do I get my children somewhere where I don’t have to worry about them?’ ” Dr. Dakkak said.

She floated the idea with her husband of flying their children out to stay with her recently retired parents, who live outside of Sacramento, Calif., until the pandemic eases up. “I was thinking to myself, ‘Am I overreacting? Is the pandemic not going to be that bad?’ because the rest of the country seemed to be in some amount of denial,” she said. “So, I called my dad, who’s a retired pediatric anesthesiologist. He’s from Egypt so he’s done crisis medicine in his time. He encouraged me to send the kids.”

On the same day that Dr. Dakkak began her first 12-hour COVID-19 shift at the hospital, her husband and children boarded a plane to California, where the kids remain in the care of her parents. Her husband returned after staying there for 2 weeks. “Every day when I’m working, I validate my decision,” she said. “When I first started, I worked 5 nights in a row, had 2 days off, and then worked 6 nights in a row. I was busy so I didn’t think about [being away from my kids], but at the same time I was grateful that I didn’t have to come home and worry about homeschooling the kids or infecting them.”

She checks in with them as she can via cell phone or FaceTime. “My son has been very honest,” Dr. Dakkak said. “He says, ‘FaceTime makes me miss you more, and I don’t like it,’ which I understand. I’ll call my mom, and if they want to talk to me, they’ll talk to me. If they don’t want to talk to me, I’m okay. This is about them being healthy and safe. I sent them a care package a few days ago with cards and some workbooks. I’m optimistic that in June I can at least see them if not bring them home.”

Dr. Dakkak describes leading a COVID-19 team as a grueling experience that challenges her medical know-how nearly every day, with seemingly ever-changing algorithms. “Our knowledge of this disease is five steps behind, and changing at lightning speed,” said Dr. Dakkak, who completed a fellowship in surgical and high-risk obstetrics. “It’s hard to balance continuing to teach evidence-based medicine for everything else in medicine [with continuing] to practice minimal and ever-changing evidence-based COVID medicine. We just don’t know enough [about the virus] yet. This is nothing like we were taught in medical school. Everyone has elevated d-dimers with COVID-19, and we don’t get CT pulmonary angiograms [CTPAs] on all of them; we wouldn’t physically be able to. Some patients have d-dimers in the thousands, and only some are stable to get CTPAs. We are also finding pulmonary embolisms. Now we’re basing our algorithm on anticoagulation due to d-dimers because sometimes you can’t always do a CTPA even if you want to. On the other hand, we have people who are coming into the hospital too late. We’ve had a few who have come in after having days of stroke symptoms. I worry about our patients at home who hesitate to come in when they really should.”

Sometimes she feels sad for the medical residents on her team because their instinct is to go in and check on each patient, “but I don’t want them to get exposed,” she said. “So, we check in by phone, or if they need a physical check-in, we minimize the check-ins; only one of us goes in. I’m more willing to put myself in the room than to put them in the room. I also feel for them because they came into medicine for the humanity of medicine – not the charting or the ordering of medicine. I also worry about the acuity and sadness they’re seeing. This is a rough introduction to medicine for them.”

When interviewed for this story in late April, Dr. Dakkak had kept track of her intubated COVID-19 patients. “Most of my patients get to go home without having been intubated, but those aren’t the ones I worry about,” she said. “I have two patients I have been watching. One of them has just been extubated and I’m still worried about him, but I’m hoping he’s going to be fine. The other one is the first pregnant woman we intubated. She is now extubated, doing really well, and went home. Her fetus is doing well, never had any issues while she was intubated. Those cases make me happy. They were both under the age of 35. It is nice to follow those intubations and find that the majority are doing okay.”

The first patient she had cared for who died was a young man “who was always in good spirits,” she recalled. “We called his brother right before intubating him. After intubation, his oxygen saturation didn’t jump up, which made me worry a bit.” About a week later, the young man died. “I kept thinking, ‘We intubated him when he was still comfortable talking. Should I have put it off and had him call more people to say goodbye? Should I have known that he wasn’t going to wake up?’ ” said Dr. Dakkak, who is also women’s health director at Manet Community Health Centers. “A lot of us have worked on our end-of-life discussions in the past month, just being able to tell somebody, ‘This might be your last time to call family. Call family and talk to whoever you want.’ Guilt isn’t the right word, but it’s unsettling if I’m the last person a patient talks to. I feel that, if that’s the case, then I didn’t do a good enough job trying to get them to their family or friends. If I am worried about a patient’s clinical status declining, I tell families now, when I call them, ‘I hope I’m wrong; I hope they don’t need to be intubated, but I think this is the time to talk.’ ”

To keep herself grounded during off hours, Dr. Dakkak spends time resting, checking in with her family, journaling “to get a lot of feelings out,” gardening, hiking, and joining Zoom chats with friends. Once recentered, she draws from a sense of obligation to others as she prepares for her next shift caring for COVID-19 patients.

“I have a lot of love for the world that I get to expend by doing this hard work,” she said. “I love humanity and I love humanity in times of crisis. The interactions I have with patients and their families are still central to why I do this work. I love my medical teams, and I would never want to let them down. It is nice to feel the sense of teamwork across the hospital. The nurses that I sit with and experience this with are amazing. I keep saying that the only thing I want to do when this pandemic is over is hug everyone. I think we are in dire need of hugs.”
 

 

 

Finding light in the darkness

Internist Katie Jobbins, DO, also has worked in a professional role that was created because of COVID-19.

Dr. Katie Jobbins

Shortly before Dr. Jobbins was deployed to Baystate Medical Center in Springfield, Ma., for 2 weeks in April of 2020 to help clinicians with an anticipated surge of COVID-19 cases, she encountered a patient who walked into Baystate’s High Street Health Center.

“I think I have COVID-19,” the patient proclaimed to her, at the outpatient clinic that serves mostly inner-city, Medicaid patients.

Prior to becoming an ambulatory internist, Dr. Jobbins was a surgical resident. “So I went into that mode of ‘I need to do this, this, and this,’ ” she said. “I went through a checklist in my head to make sure I was prepared to take care of the patient.”

She applied that same systems approach during her redeployment assignment in the tertiary care hospital, which typically involved 10-hour shifts overseeing internal medicine residents in a medical telemetry unit. “We would take care of people under investigation for COVID-19, but we were not assigned to the actual COVID unit,” said Dr. Jobbins, who is also associate program director for the internal medicine residency program at the University of Massachusetts Medical School–Baystate Springfield. “They tried to redeploy other people to those units who had special training, and we were trying to back fill into where those people that got moved to the COVID units or the ICU units were actually working. We were taking more of the medical side of the floors.”

Even so, one patient on the unit was suspected of having COVID-19, so Dr. Jobbins suited up with personal protective equipment and conducted a thorough exam with residents waiting outside the patient’s room, a safe distance away. “I explained everything I found on the exam to the residents, trying to give them some educational benefit, even though they couldn’t physically examine the patient because we’re trying to protect them since they’re in training,” she said. “It was anxiety provoking, on some level, knowing that there’s a potential risk of exposure [to the virus], but knowing that Baystate Health has gone to extraordinary measures to make sure we have the correct PPE and support us is reassuring. I knew I had the right equipment and the right tools to take care of the patient, which calmed my nerves and made me feel like I could do the job. That’s the most important thing as a physician during this time: knowing that you have people supporting you who have your back at all times.”

Like Dr. Dakkak, Dr. Jobbins had to make some adjustments to her interaction with her family.

Before she began the deployment, Dr. Jobbins engaged in a frank discussion with her husband and her two young boys about the risks she faced working in a hospital caring for patients with COVID-19. “My husband and I made sure our wills were up to date, and we talked about what we would do if either of us got the virus,” she said. To minimize the potential risk of transmitting the virus to her loved ones during the two-week deployment, she considered living away from her family in a nearby home owned by her father, but decided against that and to “take it day by day.” Following her hospital shifts, Dr. Jobbins changed into a fresh set of clothes before leaving the hospital. Once she arrived home, she showered to reduce the risk of possibly becoming a vector to her family.

She had to tell her kids: “You can’t kiss me right now.”

“As much as it’s hard for them to understand, we had a conversation [in which I explained] ‘This is a virus. It will go away eventually, but it’s a virus we’re fighting.’ It’s interesting to watch a 3-year-old try to process that and take his play samurai sword or Marvel toys and decide he’s going to run around the neighborhood and try to kill the virus.”

At the High Street Health Center, Dr. Jobbins and her colleagues have transitioned to conducting most patient encounters via telephone or video appointments. “We have tried to maintain as much continuity for our patients to address their chronic medical needs through these visits, such as hypertension management and diabetes care,” she said. “We have begun a rigorous screening process to triage and treat patients suspicious for COVID-19 through telehealth in hopes of keeping them safe and in their own homes. We also continue to see patients for nonrespiratory urgent care needs in person once they have screened negative for COVID-19.”

“In terms of the inpatient setting, we’ve noticed that a lot of people are choosing not to go to the hospital now, unless they’re extremely ill,” Dr. Jobbins noted. “We’re going to need to find a balance with when do people truly need to go to the hospital and when do they not? What can we manage as an outpatient versus having someone go to the emergency department? That’s really the role of the primary care physician. We need to help people understand, ‘You don’t need to go to the ED for everything, but here are the things you really need to go for.’ ”

“It will be interesting to see what health care looks like in 6 months or a year. I’m excited to see where we land,” Dr. Jobbins added.


 

 

 

Hopes for the Future of Telemedicine

When the practice of medicine enters a post–COVID-19 era, Dr. Jobbins hopes that telemedicine will be incorporated more into the delivery of patient care. “I’ve found that many of my patients who often are no-shows to the inpatient version of their visits have had a higher success rate of follow-through when we do the telephone visits,” she said. “It’s been very successful. I hope that the insurance companies and [Centers for Medicare & Medicaid] will continue to reimburse this as they see this is a benefit to our patients.

Courtesy Dr. Robert Hopkins, Jr.
Dr. Robert Hopkins, Jr.

Dr. Hopkins is also hopeful that physicians will be able to successfully see patients via telemedicine in the postpandemic world.

“For the ups and downs we’ve had with telemedicine, I’d love for us to be able to enhance the positives and incorporate that into our practice going forward. If we can reach our patients and help treat them where they are, rather than them having to come to us, that may be a plus,” he said.

In the meantime, Dr. Jobbins presses on as the curve of COVID-19 cases flattens in Western Massachusetts and remains grateful that she chose to practice medicine.

“The commitment I have to being an educator in addition to being a physician is part of why I keep doing this,” Dr. Jobbins said. “I find this to be one of the most fulfilling jobs and careers you could ever have: being there for people when they need you the most. That’s really what a physician’s job is: being there for people when a family member has passed away or when they just need to talk because they’re having anxiety. At the end of the day, if we can impart that to those we work with and bring in a positive attitude, it’s infectious and it makes people see this is a reason we keep doing what we’re doing.”

She’s also been heartened by the kindness of strangers during this pandemic, from those who made and donated face shields when they were in short supply, to those who delivered food to the hospital as a gesture of thanks.

“I had a patient who made homemade masks and sent them to my office,” she said. “There’s obviously good and bad during this time, but I get hope from seeing all of the good things that are coming out of this, the whole idea of finding the light in the darkness.”

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

New study of diabetes drug for COVID-19 raises eyebrows

Article Type
Changed

 

A just-launched study of the type 2 diabetes agent dapagliflozin (Farxiga, AstraZeneca) in patients with mild to moderate COVID-19 is raising eyebrows, given that several expert groups have advised that drugs in this class – the sodium-glucose cotransporter 2 (SGLT2) inhibitors – be stopped in all patients hospitalized with COVID-19 because of the increased risk for diabetic ketoacidosis (DKA).

The randomized, double-blind, placebo-controlled, phase 3 Dapagliflozin in Respiratory Failure in Patients With COVID-19 (DARE-19) study is sponsored by AstraZeneca and Saint Luke’s Mid America Heart Institute.

The trial will assess whether dapagliflozin reduces the risks of disease progression, clinical complications, and death because of COVID-19 in patients with type 2 diabetes, cardiovascular disease, and/or mild to moderate chronic kidney disease (CKD).

“Dapagliflozin has demonstrated cardio- and renal-protective benefits and improved outcomes in high-risk patients with type 2 diabetes, heart failure with reduced ejection fraction, and CKD,” said the principal investigator of DARE-19, Mikhail N. Kosiborod, MD, a cardiologist at Saint Luke’s Mid America Heart Institute, Kansas City, Mo.

And “patients with COVID-19 and underlying cardiometabolic disease appear to be at the highest risk of morbid complications,” he explained in an AstraZeneca statement.

“Through DARE-19, we hope to decrease the severity of illness, and prevent cardiovascular, respiratory, and kidney decompensation, which are common in patients with COVID-19,” Dr. Kosiborod continued.

However, advice to stop SGLT2 inhibitors in patients hospitalized with COVID-19 because of its associated DKA risk has come from several channels.

These include initial guidance from Diabetes UK; experts who spoke during an American Diabetes Association webinar; and most recently, an international panel of diabetes experts.

Some clinicians went so far as to say that they view the trial as potentially dangerous, while others said they could see some logic to it, as long as it is carefully managed.
 

“A dangerous proposition – a DARE I would not take”

Partha Kar, MD, of Portsmouth Hospitals NHS Trust and national clinical director of diabetes at NHS England, said in an interview: “It’s interesting to see [AstraZeneca] embark on a study with a particular class of drug whereby ... [in] the UK we have said that if you get sent to hospital with COVID-19 you should stop [SGLT2 inhibitors] immediately.”

It “sounds like a risky proposition to go ahead with, [and it] definitely made me raise an eyebrow,” he added.

Nephrologist Bruce R. Leslie, MD, of Seventh Doctor Consulting in Princeton, N.J., agreed with Dr. Kar.

“Giving SGLT2 inhibitors to patients in the DARE-19 study is a dangerous proposition because these drugs can induce ketoacidosis during the stress of acute illness such as COVID-19. ... Moreover, ketoacidosis is associated with hypercoagulability which could be especially dangerous in COVID-19, given that it has been causing thrombophilia with large-vessel occlusive strokes in young patients,” he said in an interview.

“One wonders how these risks were assessed by the authorities that approved the DARE-19 study,” said Dr. Leslie, who formerly worked for Bristol-Myers Squibb.

“How does the sponsor intend to secure informed consent given the risks? This is a DARE I would not take,” he said.

Asked to address these concerns, Dr. Kosiborod said in an interview that “the DARE-19 trial will assess both the efficacy and the safety of dapagliflozin in this patient population in a closely monitored environment of a rigorously designed randomized clinical trial. The trial protocol excludes patients with type 1 diabetes or at high risk for DKA.

“Furthermore, the protocol includes detailed specific instructions to ensure careful monitoring for DKA, including frequent assessments of acid-base status in the hospital setting. The safety data will be closely monitored by an independent data-monitoring committee,” he continued.

Dr. Kosiborod also pointed out that there is “no systematically collected information on the use of dapagliflozin or any other SGLT2 inhibitor in patients being treated for COVID-19, including the associated potential benefits, possible risks such as DKA, and the balance of these potential benefits and risks.”

 

 

DARE-19 design: Several outcomes will be examined

The DARE-19 trial is designed to enroll 900 adults with confirmed SARS-CoV-2 infection and oxygen saturation of 94% or greater.

Inclusion criteria include a medical history of hypertension, type 2 diabetes, atherosclerotic cardiovascular disease, heart failure, and/or stage 3-4 CKD. Exclusion criteria include current SGLT2 inhibitor treatment, type 1 diabetes, severe CKD, and severe COVID-19.

Dapagliflozin is approved in the EU for use in some patients with type 1 diabetes; this is not the case in the United States, although SGLT2 inhibitors in general are sometimes used off label in these patients.

Patients in DARE-19 will be randomized to 10 mg/day dapagliflozin or placebo for 30 days, in addition to standard care, in participating hospital. Primary outcomes are time to first occurrence of either death or new or worsened organ dysfunction, including respiratory decompensation, new or worsening heart failure, requirement for vasopressor therapy, ventricular tachycardia, and renal failure.

Secondary outcomes include a composite of time to death from any cause, time to new/worsened organ dysfunction, clinical status at day 30, and time to hospital discharge.

Rationale for the study

Irl B. Hirsch, MD, professor and diabetes treatment and teaching chair at the University of Washington, Seattle, said in an interview that he does see some logic to the trial.

Admitting that he doesn’t know much about “COVID-19 cardiomyopathy” – which would be one of the targets of dapagliflozin – other than it is quite common, he said that this, along with the potential renal benefits of dapagliflozin in the setting of COVID-19, make the study “intriguing.”

“Perhaps there is some rationale to it,” he said. However, “my concern is these sick COVID-19 patients are often acidemic, and besides the very complex acid-base challenges we see with intubated patients, these patients likely have combination lactic and ketoacidemia, the latter at least some from starvation.

“Still, if enough dextrose and insulin are provided to prevent ketoacid accumulation, my guess is it would do at least as well as hydroxychloroquine,” he said.

And Simon Heller, MD, professor of clinical diabetes at the University of Sheffield (England), said in an interview: “I think it is quite a brave study, mainly because of the increased risk of DKA.

“However, on the basis that these patients will be carefully monitored, the risk of DKA shouldn’t be great. I think it is important that patients with type 2 diabetes can participate whenever possible in such trials,” he said.

The estimated completion date for DARE-19 is December 2020.

Dr. Kosiborod has reported receiving grant support, honoraria, and/or research support from AstraZeneca, Boehringer Ingelheim, Sanofi, Amgen, Novo Nordisk, Merck, Eisai, Janssen, Bayer, GlaxoSmithKline, Glytec, Intarcia Therapeutics, Novartis, Applied Therapeutics, Amarin, and Eli Lilly. Dr. Leslie has reported owning stock in Bristol-Myers Squibb, Pfizer, and Lilly. Dr. Hirsch has reported consulting for Abbott Diabetes Care, Roche, and Bigfoot Biomedical, conducting research for Medtronic, and is a diabetes editor for UpToDate. Dr. Heller has received advisory or consultation fees from Lilly, Novo Nordisk, Takeda, MSD, and Becton Dickinson; has served as a speaker for AstraZeneca, Lilly, Novo Nordisk, Boehringer Ingelheim, and Takeda; and has received research support from Medtronic UK. He is on the advisory board for Medscape. Dr. Kar has reported no relevant financial relationships.

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

Publications
Topics
Sections

 

A just-launched study of the type 2 diabetes agent dapagliflozin (Farxiga, AstraZeneca) in patients with mild to moderate COVID-19 is raising eyebrows, given that several expert groups have advised that drugs in this class – the sodium-glucose cotransporter 2 (SGLT2) inhibitors – be stopped in all patients hospitalized with COVID-19 because of the increased risk for diabetic ketoacidosis (DKA).

The randomized, double-blind, placebo-controlled, phase 3 Dapagliflozin in Respiratory Failure in Patients With COVID-19 (DARE-19) study is sponsored by AstraZeneca and Saint Luke’s Mid America Heart Institute.

The trial will assess whether dapagliflozin reduces the risks of disease progression, clinical complications, and death because of COVID-19 in patients with type 2 diabetes, cardiovascular disease, and/or mild to moderate chronic kidney disease (CKD).

“Dapagliflozin has demonstrated cardio- and renal-protective benefits and improved outcomes in high-risk patients with type 2 diabetes, heart failure with reduced ejection fraction, and CKD,” said the principal investigator of DARE-19, Mikhail N. Kosiborod, MD, a cardiologist at Saint Luke’s Mid America Heart Institute, Kansas City, Mo.

And “patients with COVID-19 and underlying cardiometabolic disease appear to be at the highest risk of morbid complications,” he explained in an AstraZeneca statement.

“Through DARE-19, we hope to decrease the severity of illness, and prevent cardiovascular, respiratory, and kidney decompensation, which are common in patients with COVID-19,” Dr. Kosiborod continued.

However, advice to stop SGLT2 inhibitors in patients hospitalized with COVID-19 because of its associated DKA risk has come from several channels.

These include initial guidance from Diabetes UK; experts who spoke during an American Diabetes Association webinar; and most recently, an international panel of diabetes experts.

Some clinicians went so far as to say that they view the trial as potentially dangerous, while others said they could see some logic to it, as long as it is carefully managed.
 

“A dangerous proposition – a DARE I would not take”

Partha Kar, MD, of Portsmouth Hospitals NHS Trust and national clinical director of diabetes at NHS England, said in an interview: “It’s interesting to see [AstraZeneca] embark on a study with a particular class of drug whereby ... [in] the UK we have said that if you get sent to hospital with COVID-19 you should stop [SGLT2 inhibitors] immediately.”

It “sounds like a risky proposition to go ahead with, [and it] definitely made me raise an eyebrow,” he added.

Nephrologist Bruce R. Leslie, MD, of Seventh Doctor Consulting in Princeton, N.J., agreed with Dr. Kar.

“Giving SGLT2 inhibitors to patients in the DARE-19 study is a dangerous proposition because these drugs can induce ketoacidosis during the stress of acute illness such as COVID-19. ... Moreover, ketoacidosis is associated with hypercoagulability which could be especially dangerous in COVID-19, given that it has been causing thrombophilia with large-vessel occlusive strokes in young patients,” he said in an interview.

“One wonders how these risks were assessed by the authorities that approved the DARE-19 study,” said Dr. Leslie, who formerly worked for Bristol-Myers Squibb.

“How does the sponsor intend to secure informed consent given the risks? This is a DARE I would not take,” he said.

Asked to address these concerns, Dr. Kosiborod said in an interview that “the DARE-19 trial will assess both the efficacy and the safety of dapagliflozin in this patient population in a closely monitored environment of a rigorously designed randomized clinical trial. The trial protocol excludes patients with type 1 diabetes or at high risk for DKA.

“Furthermore, the protocol includes detailed specific instructions to ensure careful monitoring for DKA, including frequent assessments of acid-base status in the hospital setting. The safety data will be closely monitored by an independent data-monitoring committee,” he continued.

Dr. Kosiborod also pointed out that there is “no systematically collected information on the use of dapagliflozin or any other SGLT2 inhibitor in patients being treated for COVID-19, including the associated potential benefits, possible risks such as DKA, and the balance of these potential benefits and risks.”

 

 

DARE-19 design: Several outcomes will be examined

The DARE-19 trial is designed to enroll 900 adults with confirmed SARS-CoV-2 infection and oxygen saturation of 94% or greater.

Inclusion criteria include a medical history of hypertension, type 2 diabetes, atherosclerotic cardiovascular disease, heart failure, and/or stage 3-4 CKD. Exclusion criteria include current SGLT2 inhibitor treatment, type 1 diabetes, severe CKD, and severe COVID-19.

Dapagliflozin is approved in the EU for use in some patients with type 1 diabetes; this is not the case in the United States, although SGLT2 inhibitors in general are sometimes used off label in these patients.

Patients in DARE-19 will be randomized to 10 mg/day dapagliflozin or placebo for 30 days, in addition to standard care, in participating hospital. Primary outcomes are time to first occurrence of either death or new or worsened organ dysfunction, including respiratory decompensation, new or worsening heart failure, requirement for vasopressor therapy, ventricular tachycardia, and renal failure.

Secondary outcomes include a composite of time to death from any cause, time to new/worsened organ dysfunction, clinical status at day 30, and time to hospital discharge.

Rationale for the study

Irl B. Hirsch, MD, professor and diabetes treatment and teaching chair at the University of Washington, Seattle, said in an interview that he does see some logic to the trial.

Admitting that he doesn’t know much about “COVID-19 cardiomyopathy” – which would be one of the targets of dapagliflozin – other than it is quite common, he said that this, along with the potential renal benefits of dapagliflozin in the setting of COVID-19, make the study “intriguing.”

“Perhaps there is some rationale to it,” he said. However, “my concern is these sick COVID-19 patients are often acidemic, and besides the very complex acid-base challenges we see with intubated patients, these patients likely have combination lactic and ketoacidemia, the latter at least some from starvation.

“Still, if enough dextrose and insulin are provided to prevent ketoacid accumulation, my guess is it would do at least as well as hydroxychloroquine,” he said.

And Simon Heller, MD, professor of clinical diabetes at the University of Sheffield (England), said in an interview: “I think it is quite a brave study, mainly because of the increased risk of DKA.

“However, on the basis that these patients will be carefully monitored, the risk of DKA shouldn’t be great. I think it is important that patients with type 2 diabetes can participate whenever possible in such trials,” he said.

The estimated completion date for DARE-19 is December 2020.

Dr. Kosiborod has reported receiving grant support, honoraria, and/or research support from AstraZeneca, Boehringer Ingelheim, Sanofi, Amgen, Novo Nordisk, Merck, Eisai, Janssen, Bayer, GlaxoSmithKline, Glytec, Intarcia Therapeutics, Novartis, Applied Therapeutics, Amarin, and Eli Lilly. Dr. Leslie has reported owning stock in Bristol-Myers Squibb, Pfizer, and Lilly. Dr. Hirsch has reported consulting for Abbott Diabetes Care, Roche, and Bigfoot Biomedical, conducting research for Medtronic, and is a diabetes editor for UpToDate. Dr. Heller has received advisory or consultation fees from Lilly, Novo Nordisk, Takeda, MSD, and Becton Dickinson; has served as a speaker for AstraZeneca, Lilly, Novo Nordisk, Boehringer Ingelheim, and Takeda; and has received research support from Medtronic UK. He is on the advisory board for Medscape. Dr. Kar has reported no relevant financial relationships.

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

 

A just-launched study of the type 2 diabetes agent dapagliflozin (Farxiga, AstraZeneca) in patients with mild to moderate COVID-19 is raising eyebrows, given that several expert groups have advised that drugs in this class – the sodium-glucose cotransporter 2 (SGLT2) inhibitors – be stopped in all patients hospitalized with COVID-19 because of the increased risk for diabetic ketoacidosis (DKA).

The randomized, double-blind, placebo-controlled, phase 3 Dapagliflozin in Respiratory Failure in Patients With COVID-19 (DARE-19) study is sponsored by AstraZeneca and Saint Luke’s Mid America Heart Institute.

The trial will assess whether dapagliflozin reduces the risks of disease progression, clinical complications, and death because of COVID-19 in patients with type 2 diabetes, cardiovascular disease, and/or mild to moderate chronic kidney disease (CKD).

“Dapagliflozin has demonstrated cardio- and renal-protective benefits and improved outcomes in high-risk patients with type 2 diabetes, heart failure with reduced ejection fraction, and CKD,” said the principal investigator of DARE-19, Mikhail N. Kosiborod, MD, a cardiologist at Saint Luke’s Mid America Heart Institute, Kansas City, Mo.

And “patients with COVID-19 and underlying cardiometabolic disease appear to be at the highest risk of morbid complications,” he explained in an AstraZeneca statement.

“Through DARE-19, we hope to decrease the severity of illness, and prevent cardiovascular, respiratory, and kidney decompensation, which are common in patients with COVID-19,” Dr. Kosiborod continued.

However, advice to stop SGLT2 inhibitors in patients hospitalized with COVID-19 because of its associated DKA risk has come from several channels.

These include initial guidance from Diabetes UK; experts who spoke during an American Diabetes Association webinar; and most recently, an international panel of diabetes experts.

Some clinicians went so far as to say that they view the trial as potentially dangerous, while others said they could see some logic to it, as long as it is carefully managed.
 

“A dangerous proposition – a DARE I would not take”

Partha Kar, MD, of Portsmouth Hospitals NHS Trust and national clinical director of diabetes at NHS England, said in an interview: “It’s interesting to see [AstraZeneca] embark on a study with a particular class of drug whereby ... [in] the UK we have said that if you get sent to hospital with COVID-19 you should stop [SGLT2 inhibitors] immediately.”

It “sounds like a risky proposition to go ahead with, [and it] definitely made me raise an eyebrow,” he added.

Nephrologist Bruce R. Leslie, MD, of Seventh Doctor Consulting in Princeton, N.J., agreed with Dr. Kar.

“Giving SGLT2 inhibitors to patients in the DARE-19 study is a dangerous proposition because these drugs can induce ketoacidosis during the stress of acute illness such as COVID-19. ... Moreover, ketoacidosis is associated with hypercoagulability which could be especially dangerous in COVID-19, given that it has been causing thrombophilia with large-vessel occlusive strokes in young patients,” he said in an interview.

“One wonders how these risks were assessed by the authorities that approved the DARE-19 study,” said Dr. Leslie, who formerly worked for Bristol-Myers Squibb.

“How does the sponsor intend to secure informed consent given the risks? This is a DARE I would not take,” he said.

Asked to address these concerns, Dr. Kosiborod said in an interview that “the DARE-19 trial will assess both the efficacy and the safety of dapagliflozin in this patient population in a closely monitored environment of a rigorously designed randomized clinical trial. The trial protocol excludes patients with type 1 diabetes or at high risk for DKA.

“Furthermore, the protocol includes detailed specific instructions to ensure careful monitoring for DKA, including frequent assessments of acid-base status in the hospital setting. The safety data will be closely monitored by an independent data-monitoring committee,” he continued.

Dr. Kosiborod also pointed out that there is “no systematically collected information on the use of dapagliflozin or any other SGLT2 inhibitor in patients being treated for COVID-19, including the associated potential benefits, possible risks such as DKA, and the balance of these potential benefits and risks.”

 

 

DARE-19 design: Several outcomes will be examined

The DARE-19 trial is designed to enroll 900 adults with confirmed SARS-CoV-2 infection and oxygen saturation of 94% or greater.

Inclusion criteria include a medical history of hypertension, type 2 diabetes, atherosclerotic cardiovascular disease, heart failure, and/or stage 3-4 CKD. Exclusion criteria include current SGLT2 inhibitor treatment, type 1 diabetes, severe CKD, and severe COVID-19.

Dapagliflozin is approved in the EU for use in some patients with type 1 diabetes; this is not the case in the United States, although SGLT2 inhibitors in general are sometimes used off label in these patients.

Patients in DARE-19 will be randomized to 10 mg/day dapagliflozin or placebo for 30 days, in addition to standard care, in participating hospital. Primary outcomes are time to first occurrence of either death or new or worsened organ dysfunction, including respiratory decompensation, new or worsening heart failure, requirement for vasopressor therapy, ventricular tachycardia, and renal failure.

Secondary outcomes include a composite of time to death from any cause, time to new/worsened organ dysfunction, clinical status at day 30, and time to hospital discharge.

Rationale for the study

Irl B. Hirsch, MD, professor and diabetes treatment and teaching chair at the University of Washington, Seattle, said in an interview that he does see some logic to the trial.

Admitting that he doesn’t know much about “COVID-19 cardiomyopathy” – which would be one of the targets of dapagliflozin – other than it is quite common, he said that this, along with the potential renal benefits of dapagliflozin in the setting of COVID-19, make the study “intriguing.”

“Perhaps there is some rationale to it,” he said. However, “my concern is these sick COVID-19 patients are often acidemic, and besides the very complex acid-base challenges we see with intubated patients, these patients likely have combination lactic and ketoacidemia, the latter at least some from starvation.

“Still, if enough dextrose and insulin are provided to prevent ketoacid accumulation, my guess is it would do at least as well as hydroxychloroquine,” he said.

And Simon Heller, MD, professor of clinical diabetes at the University of Sheffield (England), said in an interview: “I think it is quite a brave study, mainly because of the increased risk of DKA.

“However, on the basis that these patients will be carefully monitored, the risk of DKA shouldn’t be great. I think it is important that patients with type 2 diabetes can participate whenever possible in such trials,” he said.

The estimated completion date for DARE-19 is December 2020.

Dr. Kosiborod has reported receiving grant support, honoraria, and/or research support from AstraZeneca, Boehringer Ingelheim, Sanofi, Amgen, Novo Nordisk, Merck, Eisai, Janssen, Bayer, GlaxoSmithKline, Glytec, Intarcia Therapeutics, Novartis, Applied Therapeutics, Amarin, and Eli Lilly. Dr. Leslie has reported owning stock in Bristol-Myers Squibb, Pfizer, and Lilly. Dr. Hirsch has reported consulting for Abbott Diabetes Care, Roche, and Bigfoot Biomedical, conducting research for Medtronic, and is a diabetes editor for UpToDate. Dr. Heller has received advisory or consultation fees from Lilly, Novo Nordisk, Takeda, MSD, and Becton Dickinson; has served as a speaker for AstraZeneca, Lilly, Novo Nordisk, Boehringer Ingelheim, and Takeda; and has received research support from Medtronic UK. He is on the advisory board for Medscape. Dr. Kar has reported no relevant financial relationships.

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

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

Yale’s COVID-19 inpatient protocol: Hydroxychloroquine plus/minus tocilizumab

Article Type
Changed

Hydroxychloroquine is currently first-line, and tocilizumab second-line, for people hospitalized with polymerase chain reaction–confirmed COVID-19 in the Yale New Haven (Conn.) Health System, which operates hospitals across Connecticut, many of them hard hit by the pandemic.

Dr. Nihar Desai

Patients enter the treatment algorithm if they have an oxygen saturation at or below 93% on room air or chronic supplementation, or by being acutely ill with fever, respiratory signs, or opacities on chest x-ray, plus risk factors for severe illness such as age over 60 years, chronic heart or lung disease, immunosuppression, diabetes, hypertension, or obesity, which makes it harder to ventilate.

Physicians at Yale have seen both presentations – oxygen desaturation and frank illness – and “wanted to make sure we weren’t missing anyone,” said Nihar Desai, MD, a Yale cardiologist who is helping to coordinate the health system’s response to COVID-19.

In either case, the initial treatment is the same at Yale hospitals: hydroxychloroquine for 5 days, with tocilizumab (Actemra) considered when not contraindicated and oxygen requirements reach or pass 3 L, or 2 L with C-reactive protein levels above 70 mg/L.



Patients are put on prophylactic enoxaparin to thin the blood unless contraindicated; inflammatory, cardiac, kidney, and other markers are checked every 12 or 24 hours; and ECGs are taken daily if telemetry isn’t used. Chest x-rays are repeated if clinical signs worsen, and transthoracic echocardiograms are ordered for suspected heart problems.

ICUs are notified early if the clinical situation worsens because patients “can deteriorate very quickly; at the first sign of trouble, people are really aggressive,” said Dr. Desai, also the associate chief of clinical operations in the Section of Cardiovascular Medicine at the Yale University, New Haven.

The haze of battle

Yale has updated its algorithm several times since the virus first hit Connecticut weeks ago. A team including pulmonologists, critical care physicians, pharmacologists, infectious disease experts, and cardiologists, including Dr. Desai, are constantly monitoring the situation and making changes as new information comes in.

Much of what’s being done at Yale and elsewhere is empiric because there are simply not much data to go on. “We are trying to do the best we can” in “the haze of battle. People really came together quickly to develop this. One hopes we never have to go through anything like this again,” he said.

Hydroxychloroquine is first-line at Yale because in-vitro data show potent inhibition of the virus and possible clinical benefit, which is about as good as evidence gets at the moment. Also, “it’s cheap, it’s been used for decades, and people are relatively comfortable with it,” Dr. Desai said.

Tocilizumab, an interleukin-6 (IL-6) receptor antagonist, is second-line because it might counter the cytokine storm thought to be at least partly responsible for severe complications, and retrospective data suggest possible benefit. The antiviral remdesivir and IL-6 blocker sarulimab (Kevzara) are also potential candidates, available through clinical trials.

Dr. Desai wanted to share the algorithm with other providers because, he noted, “there are a lot of places that may not have all the resources we have.”

His home institution, Yale New Haven Hospital, is almost half full with COVID-19 patients, at more than 400.
 

 

 

A moving target

Yale’s approach is similar in confirmed COVID-19 cases already in respiratory failure, including those on mechanical ventilation and extracorporeal membrane oxygenation: hydroxychloroquine and possibly tocilizumab, but also methylprednisolone if clinical status worsens or inflammatory markers go up. The steroid is for additional help battling the cytokine storm, Dr. Desai said.

The degree of anticoagulation in the ICU is based on d-dimer levels or suspicion or confirmation of venous thromboembolism. Telemetry is monitored closely for QTc prolongation, and point of care ultrasound is considered to check left ventricular function in the setting of markedly increased cardiac troponin levels, ECG abnormalities, or hemodynamic instability.

Previous versions of Yale’s algorithm included HIV protease inhibitors, but they were pulled after a recent trial found no benefit. Frequency of monitoring was also reduced from every 8 hours because it didn’t improve decision making and put staff collecting specimens at risk (N Engl J Med. 2020 Mar 18. doi: 10.1056/NEJMoa2001282).



Anticoagulation was added to newer versions after it became clear that COVID-19 is prothrombotic. “We are still seeing thrombotic events that might warrant further intensification,” Dr. Desai said.

Newer algorithms also have Yale watching QTc intervals more closely. It’s unclear if the prolongation risk is caused by the infection or hydroxychloroquine.

On April 24, the Food and Drug Administration reiterated it’s concern about the arrhythmia risk with hydroxychloroquine and emphasized that it should only be used for COVID-19 patients when they are hospitalized and it is not feasible for them to participate in a clinical trial.

To help keep patients safe, ECGs from confirmed or suspected COVID-19 cases are now first in line to be reviewed by cardiologists across Yale hospitals to pick up prolongations and notify providers as soon as possible. Hydroxychloroquine is held if there are no other explanations.

Cardiologists are on the fontline at Yale and elsewhere, Dr. Desai said, because heart complications like myocarditis and arrhythmias emerged early as common problems in hospitalized patients.

aotto@mdedge.com

This article was updated with the latest treatment algorithm on 5/6/2020.

Publications
Topics
Sections

Hydroxychloroquine is currently first-line, and tocilizumab second-line, for people hospitalized with polymerase chain reaction–confirmed COVID-19 in the Yale New Haven (Conn.) Health System, which operates hospitals across Connecticut, many of them hard hit by the pandemic.

Dr. Nihar Desai

Patients enter the treatment algorithm if they have an oxygen saturation at or below 93% on room air or chronic supplementation, or by being acutely ill with fever, respiratory signs, or opacities on chest x-ray, plus risk factors for severe illness such as age over 60 years, chronic heart or lung disease, immunosuppression, diabetes, hypertension, or obesity, which makes it harder to ventilate.

Physicians at Yale have seen both presentations – oxygen desaturation and frank illness – and “wanted to make sure we weren’t missing anyone,” said Nihar Desai, MD, a Yale cardiologist who is helping to coordinate the health system’s response to COVID-19.

In either case, the initial treatment is the same at Yale hospitals: hydroxychloroquine for 5 days, with tocilizumab (Actemra) considered when not contraindicated and oxygen requirements reach or pass 3 L, or 2 L with C-reactive protein levels above 70 mg/L.



Patients are put on prophylactic enoxaparin to thin the blood unless contraindicated; inflammatory, cardiac, kidney, and other markers are checked every 12 or 24 hours; and ECGs are taken daily if telemetry isn’t used. Chest x-rays are repeated if clinical signs worsen, and transthoracic echocardiograms are ordered for suspected heart problems.

ICUs are notified early if the clinical situation worsens because patients “can deteriorate very quickly; at the first sign of trouble, people are really aggressive,” said Dr. Desai, also the associate chief of clinical operations in the Section of Cardiovascular Medicine at the Yale University, New Haven.

The haze of battle

Yale has updated its algorithm several times since the virus first hit Connecticut weeks ago. A team including pulmonologists, critical care physicians, pharmacologists, infectious disease experts, and cardiologists, including Dr. Desai, are constantly monitoring the situation and making changes as new information comes in.

Much of what’s being done at Yale and elsewhere is empiric because there are simply not much data to go on. “We are trying to do the best we can” in “the haze of battle. People really came together quickly to develop this. One hopes we never have to go through anything like this again,” he said.

Hydroxychloroquine is first-line at Yale because in-vitro data show potent inhibition of the virus and possible clinical benefit, which is about as good as evidence gets at the moment. Also, “it’s cheap, it’s been used for decades, and people are relatively comfortable with it,” Dr. Desai said.

Tocilizumab, an interleukin-6 (IL-6) receptor antagonist, is second-line because it might counter the cytokine storm thought to be at least partly responsible for severe complications, and retrospective data suggest possible benefit. The antiviral remdesivir and IL-6 blocker sarulimab (Kevzara) are also potential candidates, available through clinical trials.

Dr. Desai wanted to share the algorithm with other providers because, he noted, “there are a lot of places that may not have all the resources we have.”

His home institution, Yale New Haven Hospital, is almost half full with COVID-19 patients, at more than 400.
 

 

 

A moving target

Yale’s approach is similar in confirmed COVID-19 cases already in respiratory failure, including those on mechanical ventilation and extracorporeal membrane oxygenation: hydroxychloroquine and possibly tocilizumab, but also methylprednisolone if clinical status worsens or inflammatory markers go up. The steroid is for additional help battling the cytokine storm, Dr. Desai said.

The degree of anticoagulation in the ICU is based on d-dimer levels or suspicion or confirmation of venous thromboembolism. Telemetry is monitored closely for QTc prolongation, and point of care ultrasound is considered to check left ventricular function in the setting of markedly increased cardiac troponin levels, ECG abnormalities, or hemodynamic instability.

Previous versions of Yale’s algorithm included HIV protease inhibitors, but they were pulled after a recent trial found no benefit. Frequency of monitoring was also reduced from every 8 hours because it didn’t improve decision making and put staff collecting specimens at risk (N Engl J Med. 2020 Mar 18. doi: 10.1056/NEJMoa2001282).



Anticoagulation was added to newer versions after it became clear that COVID-19 is prothrombotic. “We are still seeing thrombotic events that might warrant further intensification,” Dr. Desai said.

Newer algorithms also have Yale watching QTc intervals more closely. It’s unclear if the prolongation risk is caused by the infection or hydroxychloroquine.

On April 24, the Food and Drug Administration reiterated it’s concern about the arrhythmia risk with hydroxychloroquine and emphasized that it should only be used for COVID-19 patients when they are hospitalized and it is not feasible for them to participate in a clinical trial.

To help keep patients safe, ECGs from confirmed or suspected COVID-19 cases are now first in line to be reviewed by cardiologists across Yale hospitals to pick up prolongations and notify providers as soon as possible. Hydroxychloroquine is held if there are no other explanations.

Cardiologists are on the fontline at Yale and elsewhere, Dr. Desai said, because heart complications like myocarditis and arrhythmias emerged early as common problems in hospitalized patients.

aotto@mdedge.com

This article was updated with the latest treatment algorithm on 5/6/2020.

Hydroxychloroquine is currently first-line, and tocilizumab second-line, for people hospitalized with polymerase chain reaction–confirmed COVID-19 in the Yale New Haven (Conn.) Health System, which operates hospitals across Connecticut, many of them hard hit by the pandemic.

Dr. Nihar Desai

Patients enter the treatment algorithm if they have an oxygen saturation at or below 93% on room air or chronic supplementation, or by being acutely ill with fever, respiratory signs, or opacities on chest x-ray, plus risk factors for severe illness such as age over 60 years, chronic heart or lung disease, immunosuppression, diabetes, hypertension, or obesity, which makes it harder to ventilate.

Physicians at Yale have seen both presentations – oxygen desaturation and frank illness – and “wanted to make sure we weren’t missing anyone,” said Nihar Desai, MD, a Yale cardiologist who is helping to coordinate the health system’s response to COVID-19.

In either case, the initial treatment is the same at Yale hospitals: hydroxychloroquine for 5 days, with tocilizumab (Actemra) considered when not contraindicated and oxygen requirements reach or pass 3 L, or 2 L with C-reactive protein levels above 70 mg/L.



Patients are put on prophylactic enoxaparin to thin the blood unless contraindicated; inflammatory, cardiac, kidney, and other markers are checked every 12 or 24 hours; and ECGs are taken daily if telemetry isn’t used. Chest x-rays are repeated if clinical signs worsen, and transthoracic echocardiograms are ordered for suspected heart problems.

ICUs are notified early if the clinical situation worsens because patients “can deteriorate very quickly; at the first sign of trouble, people are really aggressive,” said Dr. Desai, also the associate chief of clinical operations in the Section of Cardiovascular Medicine at the Yale University, New Haven.

The haze of battle

Yale has updated its algorithm several times since the virus first hit Connecticut weeks ago. A team including pulmonologists, critical care physicians, pharmacologists, infectious disease experts, and cardiologists, including Dr. Desai, are constantly monitoring the situation and making changes as new information comes in.

Much of what’s being done at Yale and elsewhere is empiric because there are simply not much data to go on. “We are trying to do the best we can” in “the haze of battle. People really came together quickly to develop this. One hopes we never have to go through anything like this again,” he said.

Hydroxychloroquine is first-line at Yale because in-vitro data show potent inhibition of the virus and possible clinical benefit, which is about as good as evidence gets at the moment. Also, “it’s cheap, it’s been used for decades, and people are relatively comfortable with it,” Dr. Desai said.

Tocilizumab, an interleukin-6 (IL-6) receptor antagonist, is second-line because it might counter the cytokine storm thought to be at least partly responsible for severe complications, and retrospective data suggest possible benefit. The antiviral remdesivir and IL-6 blocker sarulimab (Kevzara) are also potential candidates, available through clinical trials.

Dr. Desai wanted to share the algorithm with other providers because, he noted, “there are a lot of places that may not have all the resources we have.”

His home institution, Yale New Haven Hospital, is almost half full with COVID-19 patients, at more than 400.
 

 

 

A moving target

Yale’s approach is similar in confirmed COVID-19 cases already in respiratory failure, including those on mechanical ventilation and extracorporeal membrane oxygenation: hydroxychloroquine and possibly tocilizumab, but also methylprednisolone if clinical status worsens or inflammatory markers go up. The steroid is for additional help battling the cytokine storm, Dr. Desai said.

The degree of anticoagulation in the ICU is based on d-dimer levels or suspicion or confirmation of venous thromboembolism. Telemetry is monitored closely for QTc prolongation, and point of care ultrasound is considered to check left ventricular function in the setting of markedly increased cardiac troponin levels, ECG abnormalities, or hemodynamic instability.

Previous versions of Yale’s algorithm included HIV protease inhibitors, but they were pulled after a recent trial found no benefit. Frequency of monitoring was also reduced from every 8 hours because it didn’t improve decision making and put staff collecting specimens at risk (N Engl J Med. 2020 Mar 18. doi: 10.1056/NEJMoa2001282).



Anticoagulation was added to newer versions after it became clear that COVID-19 is prothrombotic. “We are still seeing thrombotic events that might warrant further intensification,” Dr. Desai said.

Newer algorithms also have Yale watching QTc intervals more closely. It’s unclear if the prolongation risk is caused by the infection or hydroxychloroquine.

On April 24, the Food and Drug Administration reiterated it’s concern about the arrhythmia risk with hydroxychloroquine and emphasized that it should only be used for COVID-19 patients when they are hospitalized and it is not feasible for them to participate in a clinical trial.

To help keep patients safe, ECGs from confirmed or suspected COVID-19 cases are now first in line to be reviewed by cardiologists across Yale hospitals to pick up prolongations and notify providers as soon as possible. Hydroxychloroquine is held if there are no other explanations.

Cardiologists are on the fontline at Yale and elsewhere, Dr. Desai said, because heart complications like myocarditis and arrhythmias emerged early as common problems in hospitalized patients.

aotto@mdedge.com

This article was updated with the latest treatment algorithm on 5/6/2020.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

COVID-19: An opportunity, challenge for addiction treatment, NIDA boss says

Article Type
Changed

The COVID-19 pandemic is posing significant challenges while also providing unique opportunities for patients with substance use disorders (SUD), a leading expert says.

Dr. Nora D. Volkow

Nora Volkow, MD, director of the National Institute on Drug Abuse, said that the pandemic has accelerated the use of telemedicine, making it easier for patients with SUD to access treatment. It has also led to the proliferation of more mental health hotlines, which is critical since the vast majority of these patients have comorbid mental illness.

In addition, COVID-19 has resulted in increased availability of “alternative” peer support mechanisms via cellphones or computers to aid individuals’ sobriety.

Dr. Volkow spoke at the virtual American Psychiatric Association Spring Highlights Meeting 2020, which is replacing the organization’s canceled annual meeting.

While methadone clinics have had to close during the pandemic, making it challenging for those on medically assisted treatment to receive methadone or buprenorphine, some of the rules and regulations have been relaxed in order to make these medications accessible without the need for in-person attendance at a clinic. In addition, the Substance Abuse and Mental Health Services Administration has relaxed some of its own regulations regarding telehealth and opioid treatment programs.
 

Social isolation, stigma intensified

A pandemic increases anxiety in the general population, but for patients with SUD who may be also be struggling with homelessness and comorbid mental illness, the situation can further exacerbate social stigma and isolation – leading to relapse, more overdoses, and overdose deaths, Dr. Volkow said. Social interaction is “extraordinarily important” for patients and “one of the most powerful tools we have” to build resilience.

Right now, said Dr. Volkow, “we are in the dark as to how COVID infections have affected the number of overdose deaths.”

However, she noted that NIDA has issued a Notice of Special Interest to spur “urgent” research into how COVID-19 is affecting outcomes in patients with SUD.

“So even through this devastation, we can actually extract something that may help others in future,” she said.

Dr. Volkow noted that during the pandemic it is critical to reinforce the importance of engaging in – and remaining in – treatment to SUD patients. It’s also crucial to make patients aware of social support systems and behavioral interventions to help them cope with stress and to mitigate relapse risk.
 

COVID-19 and relapse

Elie G. Aoun, MD, assistant professor of psychiatry at New York University and vice chair of the APA’s Council on Addiction Psychiatry, said in an interview that Dr. Volkow’s presentation provided “exactly the kind of accessible information” clinicians need.

Dr. Aoun said he sees the impact of the COVID-19 crisis in his practice every day. Patients with SUD “are getting the short end of the stick.”

Social distancing measures prompted by the pandemic can be “very triggering” for SUD patients, he said. One of his patients told him the current isolation, loneliness, movement restrictions, and boredom remind her of the way she felt when she used drugs.

Dr. Aoun said four of his patients have relapsed since the pandemic began. Two of them had just started treatment after years of using drugs, so this was a “major setback” for them.

He and his colleagues were “not really prepared” to provide care via video link, which he believes is not as effective as in-person sessions.

In addition to disrupting patient care, said Dr. Aoun, the pandemic is forcing the medical community to face social determinants of health, such as poverty and homelessness, as they relate to addiction disorders and whether or not someone receives care.

This article originally appeared on Medscape.com.

Meeting/Event
Publications
Topics
Sections
Meeting/Event
Meeting/Event

The COVID-19 pandemic is posing significant challenges while also providing unique opportunities for patients with substance use disorders (SUD), a leading expert says.

Dr. Nora D. Volkow

Nora Volkow, MD, director of the National Institute on Drug Abuse, said that the pandemic has accelerated the use of telemedicine, making it easier for patients with SUD to access treatment. It has also led to the proliferation of more mental health hotlines, which is critical since the vast majority of these patients have comorbid mental illness.

In addition, COVID-19 has resulted in increased availability of “alternative” peer support mechanisms via cellphones or computers to aid individuals’ sobriety.

Dr. Volkow spoke at the virtual American Psychiatric Association Spring Highlights Meeting 2020, which is replacing the organization’s canceled annual meeting.

While methadone clinics have had to close during the pandemic, making it challenging for those on medically assisted treatment to receive methadone or buprenorphine, some of the rules and regulations have been relaxed in order to make these medications accessible without the need for in-person attendance at a clinic. In addition, the Substance Abuse and Mental Health Services Administration has relaxed some of its own regulations regarding telehealth and opioid treatment programs.
 

Social isolation, stigma intensified

A pandemic increases anxiety in the general population, but for patients with SUD who may be also be struggling with homelessness and comorbid mental illness, the situation can further exacerbate social stigma and isolation – leading to relapse, more overdoses, and overdose deaths, Dr. Volkow said. Social interaction is “extraordinarily important” for patients and “one of the most powerful tools we have” to build resilience.

Right now, said Dr. Volkow, “we are in the dark as to how COVID infections have affected the number of overdose deaths.”

However, she noted that NIDA has issued a Notice of Special Interest to spur “urgent” research into how COVID-19 is affecting outcomes in patients with SUD.

“So even through this devastation, we can actually extract something that may help others in future,” she said.

Dr. Volkow noted that during the pandemic it is critical to reinforce the importance of engaging in – and remaining in – treatment to SUD patients. It’s also crucial to make patients aware of social support systems and behavioral interventions to help them cope with stress and to mitigate relapse risk.
 

COVID-19 and relapse

Elie G. Aoun, MD, assistant professor of psychiatry at New York University and vice chair of the APA’s Council on Addiction Psychiatry, said in an interview that Dr. Volkow’s presentation provided “exactly the kind of accessible information” clinicians need.

Dr. Aoun said he sees the impact of the COVID-19 crisis in his practice every day. Patients with SUD “are getting the short end of the stick.”

Social distancing measures prompted by the pandemic can be “very triggering” for SUD patients, he said. One of his patients told him the current isolation, loneliness, movement restrictions, and boredom remind her of the way she felt when she used drugs.

Dr. Aoun said four of his patients have relapsed since the pandemic began. Two of them had just started treatment after years of using drugs, so this was a “major setback” for them.

He and his colleagues were “not really prepared” to provide care via video link, which he believes is not as effective as in-person sessions.

In addition to disrupting patient care, said Dr. Aoun, the pandemic is forcing the medical community to face social determinants of health, such as poverty and homelessness, as they relate to addiction disorders and whether or not someone receives care.

This article originally appeared on Medscape.com.

The COVID-19 pandemic is posing significant challenges while also providing unique opportunities for patients with substance use disorders (SUD), a leading expert says.

Dr. Nora D. Volkow

Nora Volkow, MD, director of the National Institute on Drug Abuse, said that the pandemic has accelerated the use of telemedicine, making it easier for patients with SUD to access treatment. It has also led to the proliferation of more mental health hotlines, which is critical since the vast majority of these patients have comorbid mental illness.

In addition, COVID-19 has resulted in increased availability of “alternative” peer support mechanisms via cellphones or computers to aid individuals’ sobriety.

Dr. Volkow spoke at the virtual American Psychiatric Association Spring Highlights Meeting 2020, which is replacing the organization’s canceled annual meeting.

While methadone clinics have had to close during the pandemic, making it challenging for those on medically assisted treatment to receive methadone or buprenorphine, some of the rules and regulations have been relaxed in order to make these medications accessible without the need for in-person attendance at a clinic. In addition, the Substance Abuse and Mental Health Services Administration has relaxed some of its own regulations regarding telehealth and opioid treatment programs.
 

Social isolation, stigma intensified

A pandemic increases anxiety in the general population, but for patients with SUD who may be also be struggling with homelessness and comorbid mental illness, the situation can further exacerbate social stigma and isolation – leading to relapse, more overdoses, and overdose deaths, Dr. Volkow said. Social interaction is “extraordinarily important” for patients and “one of the most powerful tools we have” to build resilience.

Right now, said Dr. Volkow, “we are in the dark as to how COVID infections have affected the number of overdose deaths.”

However, she noted that NIDA has issued a Notice of Special Interest to spur “urgent” research into how COVID-19 is affecting outcomes in patients with SUD.

“So even through this devastation, we can actually extract something that may help others in future,” she said.

Dr. Volkow noted that during the pandemic it is critical to reinforce the importance of engaging in – and remaining in – treatment to SUD patients. It’s also crucial to make patients aware of social support systems and behavioral interventions to help them cope with stress and to mitigate relapse risk.
 

COVID-19 and relapse

Elie G. Aoun, MD, assistant professor of psychiatry at New York University and vice chair of the APA’s Council on Addiction Psychiatry, said in an interview that Dr. Volkow’s presentation provided “exactly the kind of accessible information” clinicians need.

Dr. Aoun said he sees the impact of the COVID-19 crisis in his practice every day. Patients with SUD “are getting the short end of the stick.”

Social distancing measures prompted by the pandemic can be “very triggering” for SUD patients, he said. One of his patients told him the current isolation, loneliness, movement restrictions, and boredom remind her of the way she felt when she used drugs.

Dr. Aoun said four of his patients have relapsed since the pandemic began. Two of them had just started treatment after years of using drugs, so this was a “major setback” for them.

He and his colleagues were “not really prepared” to provide care via video link, which he believes is not as effective as in-person sessions.

In addition to disrupting patient care, said Dr. Aoun, the pandemic is forcing the medical community to face social determinants of health, such as poverty and homelessness, as they relate to addiction disorders and whether or not someone receives care.

This article originally appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

Volunteer surgeon describes working at a New York hospital

Article Type
Changed

 

After arriving in New York City to volunteer, Arghavan Salles, MD, was immediately struck by the grim realities of caring for patients in a COVID-19 hot spot.

twitter.com/arghavan_salles

In an April 18 Twitter post, Dr. Salles wrote that her unit had experienced three code blues and two deaths in a single night.

“I don’t know how many times I’ve called to tell someone their loved one has died,” she wrote in the post. “I had to do it again last night. ... Of the five patients I’ve personally been responsible for in the past two nights, two have come so close to dying that we called a code blue. That means 40% of my patients have coded. Never in my life has anything close to that happened,” she continued in the thread.

Dr. Salles, a minimally invasive and bariatric surgeon and scholar in residence at Stanford (Calif.) University, headed to New York in mid-April to assist with COVID-19 treatment efforts. Before the trip, she collected as many supplies and as much personal protective equipment as she could acquire, some of which were donated by Good Samaritans. On her first day as a volunteer, Dr. Salles recounted the stark differences between what she is used to seeing and her new environment and the novel challenges she has encountered in New York.

“Things that were not normal now seem normal,” she wrote in an April 15 Twitter post. “ICU patients in [a postanesthesia care unit] and Preop is the new normal. Patients satting in the 70s and 80s seems normal. ICU docs managing [continuous veno-venous hemodialysis] seems normal. Working with strangers seems normal. ... Obviously everyone walking around with barely any skin exposed is also the new normal.”

Similar to a “normal” ICU, new patients are admitted daily, Dr. Salles noted. However, the majority of those who leave the ICU do not go home, she wrote.

“Almost all of the ones who leave are doing so because they’ve died rather than getting better,” she wrote in the same April 19 Twitter thread. “There is a pervasive feeling of helplessness. ... The tools we are working with seem insufficient. For the sickest patients, there are no ventilator settings that seem to work, there are no medications that seem to help. I am not used to this.”

When patients are close to dying, health care workers do their best to connect the patient to loved ones through video calls, watching as family members say their last goodbyes through a screen, Dr. Salles detailed in a later post.

“Their voices cracked, and though they weren’t speaking English, I could hear their pain,” she wrote in an April 20 Twitter post. “For a moment, I imagined having to say goodbye to my mother this way. To not be able to be there, to not be able to hold her hand, to not be able to hug her. And I watched my colleague, who amazingly kept her composure until they had said everything they wanted to say. It was only after they hung up that I saw the tears well up in her eyes.”

But amid the dark days and bleak outcomes, Dr. Salles has found silver linings, humor, and gifts for which to be thankful.

“People are really generous,” she wrote in an April 15 post. “So many have offered to pay for transportation. Other docs in NY have offered to help me with supplies (and I am paying it forward). Grateful to you all!”

twitter.com/arghavan_salles

In another post, Dr. Salles joked that her “small head” makes it difficult to wear PPE.

“Wearing an N95 for hours really sucks,” she wrote. “It rides up, I pull it down. It digs into my cheeks, I pull it up. Repeat.”

The volunteer experience thus far has also made Dr. Salles question the future and worry about the mental health of her fellow health care professionals.

“The people who have been in NYC since the beginning of this, and those who work in Lombardy, Italy, and in Wuhan, China have faced loss for weeks to months,” she wrote in an April 18 Twitter post. “Not only do we not know when this will end, but it is likely that after it fades, it will come back in a second wave. I am lucky. I’m just a visitor here. I have the privilege to observe and learn and hopefully help, knowing I will be able to walk away. But what about those who can’t walk away? Social distancing is starting to work. But for healthcare workers, the ongoing devastation is very real. What is our long term plan?”

Dr. Salles expressed concern for health care workers who are witnessing “horrible things” with little time to process the experiences.

twitter.com/arghavan_salles

“It may be especially hard for those who are now working in specialties they are not used to, having to provide care they are not familiar with. They are all doing their best, but inevitably mistakes will be made, and they will likely blame themselves,” she wrote. “How do we best support them?”

Stay tuned for upcoming commentaries from Dr. Salles on her COVID-19 volunteer experience in New York City.

Publications
Topics
Sections

 

After arriving in New York City to volunteer, Arghavan Salles, MD, was immediately struck by the grim realities of caring for patients in a COVID-19 hot spot.

twitter.com/arghavan_salles

In an April 18 Twitter post, Dr. Salles wrote that her unit had experienced three code blues and two deaths in a single night.

“I don’t know how many times I’ve called to tell someone their loved one has died,” she wrote in the post. “I had to do it again last night. ... Of the five patients I’ve personally been responsible for in the past two nights, two have come so close to dying that we called a code blue. That means 40% of my patients have coded. Never in my life has anything close to that happened,” she continued in the thread.

Dr. Salles, a minimally invasive and bariatric surgeon and scholar in residence at Stanford (Calif.) University, headed to New York in mid-April to assist with COVID-19 treatment efforts. Before the trip, she collected as many supplies and as much personal protective equipment as she could acquire, some of which were donated by Good Samaritans. On her first day as a volunteer, Dr. Salles recounted the stark differences between what she is used to seeing and her new environment and the novel challenges she has encountered in New York.

“Things that were not normal now seem normal,” she wrote in an April 15 Twitter post. “ICU patients in [a postanesthesia care unit] and Preop is the new normal. Patients satting in the 70s and 80s seems normal. ICU docs managing [continuous veno-venous hemodialysis] seems normal. Working with strangers seems normal. ... Obviously everyone walking around with barely any skin exposed is also the new normal.”

Similar to a “normal” ICU, new patients are admitted daily, Dr. Salles noted. However, the majority of those who leave the ICU do not go home, she wrote.

“Almost all of the ones who leave are doing so because they’ve died rather than getting better,” she wrote in the same April 19 Twitter thread. “There is a pervasive feeling of helplessness. ... The tools we are working with seem insufficient. For the sickest patients, there are no ventilator settings that seem to work, there are no medications that seem to help. I am not used to this.”

When patients are close to dying, health care workers do their best to connect the patient to loved ones through video calls, watching as family members say their last goodbyes through a screen, Dr. Salles detailed in a later post.

“Their voices cracked, and though they weren’t speaking English, I could hear their pain,” she wrote in an April 20 Twitter post. “For a moment, I imagined having to say goodbye to my mother this way. To not be able to be there, to not be able to hold her hand, to not be able to hug her. And I watched my colleague, who amazingly kept her composure until they had said everything they wanted to say. It was only after they hung up that I saw the tears well up in her eyes.”

But amid the dark days and bleak outcomes, Dr. Salles has found silver linings, humor, and gifts for which to be thankful.

“People are really generous,” she wrote in an April 15 post. “So many have offered to pay for transportation. Other docs in NY have offered to help me with supplies (and I am paying it forward). Grateful to you all!”

twitter.com/arghavan_salles

In another post, Dr. Salles joked that her “small head” makes it difficult to wear PPE.

“Wearing an N95 for hours really sucks,” she wrote. “It rides up, I pull it down. It digs into my cheeks, I pull it up. Repeat.”

The volunteer experience thus far has also made Dr. Salles question the future and worry about the mental health of her fellow health care professionals.

“The people who have been in NYC since the beginning of this, and those who work in Lombardy, Italy, and in Wuhan, China have faced loss for weeks to months,” she wrote in an April 18 Twitter post. “Not only do we not know when this will end, but it is likely that after it fades, it will come back in a second wave. I am lucky. I’m just a visitor here. I have the privilege to observe and learn and hopefully help, knowing I will be able to walk away. But what about those who can’t walk away? Social distancing is starting to work. But for healthcare workers, the ongoing devastation is very real. What is our long term plan?”

Dr. Salles expressed concern for health care workers who are witnessing “horrible things” with little time to process the experiences.

twitter.com/arghavan_salles

“It may be especially hard for those who are now working in specialties they are not used to, having to provide care they are not familiar with. They are all doing their best, but inevitably mistakes will be made, and they will likely blame themselves,” she wrote. “How do we best support them?”

Stay tuned for upcoming commentaries from Dr. Salles on her COVID-19 volunteer experience in New York City.

 

After arriving in New York City to volunteer, Arghavan Salles, MD, was immediately struck by the grim realities of caring for patients in a COVID-19 hot spot.

twitter.com/arghavan_salles

In an April 18 Twitter post, Dr. Salles wrote that her unit had experienced three code blues and two deaths in a single night.

“I don’t know how many times I’ve called to tell someone their loved one has died,” she wrote in the post. “I had to do it again last night. ... Of the five patients I’ve personally been responsible for in the past two nights, two have come so close to dying that we called a code blue. That means 40% of my patients have coded. Never in my life has anything close to that happened,” she continued in the thread.

Dr. Salles, a minimally invasive and bariatric surgeon and scholar in residence at Stanford (Calif.) University, headed to New York in mid-April to assist with COVID-19 treatment efforts. Before the trip, she collected as many supplies and as much personal protective equipment as she could acquire, some of which were donated by Good Samaritans. On her first day as a volunteer, Dr. Salles recounted the stark differences between what she is used to seeing and her new environment and the novel challenges she has encountered in New York.

“Things that were not normal now seem normal,” she wrote in an April 15 Twitter post. “ICU patients in [a postanesthesia care unit] and Preop is the new normal. Patients satting in the 70s and 80s seems normal. ICU docs managing [continuous veno-venous hemodialysis] seems normal. Working with strangers seems normal. ... Obviously everyone walking around with barely any skin exposed is also the new normal.”

Similar to a “normal” ICU, new patients are admitted daily, Dr. Salles noted. However, the majority of those who leave the ICU do not go home, she wrote.

“Almost all of the ones who leave are doing so because they’ve died rather than getting better,” she wrote in the same April 19 Twitter thread. “There is a pervasive feeling of helplessness. ... The tools we are working with seem insufficient. For the sickest patients, there are no ventilator settings that seem to work, there are no medications that seem to help. I am not used to this.”

When patients are close to dying, health care workers do their best to connect the patient to loved ones through video calls, watching as family members say their last goodbyes through a screen, Dr. Salles detailed in a later post.

“Their voices cracked, and though they weren’t speaking English, I could hear their pain,” she wrote in an April 20 Twitter post. “For a moment, I imagined having to say goodbye to my mother this way. To not be able to be there, to not be able to hold her hand, to not be able to hug her. And I watched my colleague, who amazingly kept her composure until they had said everything they wanted to say. It was only after they hung up that I saw the tears well up in her eyes.”

But amid the dark days and bleak outcomes, Dr. Salles has found silver linings, humor, and gifts for which to be thankful.

“People are really generous,” she wrote in an April 15 post. “So many have offered to pay for transportation. Other docs in NY have offered to help me with supplies (and I am paying it forward). Grateful to you all!”

twitter.com/arghavan_salles

In another post, Dr. Salles joked that her “small head” makes it difficult to wear PPE.

“Wearing an N95 for hours really sucks,” she wrote. “It rides up, I pull it down. It digs into my cheeks, I pull it up. Repeat.”

The volunteer experience thus far has also made Dr. Salles question the future and worry about the mental health of her fellow health care professionals.

“The people who have been in NYC since the beginning of this, and those who work in Lombardy, Italy, and in Wuhan, China have faced loss for weeks to months,” she wrote in an April 18 Twitter post. “Not only do we not know when this will end, but it is likely that after it fades, it will come back in a second wave. I am lucky. I’m just a visitor here. I have the privilege to observe and learn and hopefully help, knowing I will be able to walk away. But what about those who can’t walk away? Social distancing is starting to work. But for healthcare workers, the ongoing devastation is very real. What is our long term plan?”

Dr. Salles expressed concern for health care workers who are witnessing “horrible things” with little time to process the experiences.

twitter.com/arghavan_salles

“It may be especially hard for those who are now working in specialties they are not used to, having to provide care they are not familiar with. They are all doing their best, but inevitably mistakes will be made, and they will likely blame themselves,” she wrote. “How do we best support them?”

Stay tuned for upcoming commentaries from Dr. Salles on her COVID-19 volunteer experience in New York City.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

Sleep quality may affect COPD risk in African American smokers

Article Type
Changed

African American smokers who logged more total sleep time and greater sleep efficacy performed better on a functional walk test than did those with poorer sleep, based on data from 209 adults.

beichh4046/Getty Images

African American smokers tend to develop COPD sooner and also report more sleep problems, compared with white smokers, wrote Andrew J. Gangemi, MD, of Temple University Hospital, Philadelphia, and colleagues.

In addition, African Americans tend to develop COPD at a younger age and with lower levels of smoking than do non-Hispanic whites, they said. “Sleep health may be a contributing factor to the lung and cardiovascular health disparity experienced by AA smokers,” in part because data suggest that insufficient sleep may be associated with increased risk of COPD exacerbation in smokers in general, they said.

In a study published in Chest, the researchers reviewed data from 209 African American adults aged 40-65 years who had smoked at least one cigarette in the past month. The average age of the participants was 55 years, 59% were women, and the average smoking habit was nine cigarettes per day.

The researchers measured functional exercise capacity of the participants using the 6-minute walk test (6MWT). Total sleep time (TST) and sleep efficacy (SE) were measured by way of a finger-based device.

Smokers of at least 10 cigarettes per day gained an additional 0.05-0.58 meters in distance covered on the 6MWT for every added minute of total sleep time in a multivariable regression analysis. Similarly, smokers of at least 10 cigarettes per day gained an additional 0.84-6.17–meter increase in distance covered on the 6MWT for every added percentage of sleep efficacy.

The reasons for the impact of SE and TST on functional exercise capacity in smokers remain unclear, the researchers said. “Heavier smokers have higher levels of autonomic imbalance, including higher resting heart rate and heart rate variability, impaired 24-hour cardiovascular sympathetic tone, and blunted cerebrovascular autonomic regulation and baroreflex response to hypercapnia,” they said.

Also unclear is the reason for the large magnitude of the association between SE and smoking vs. the lesser association between TST and smoking on 6MWT results, the researchers wrote. “Poor sleep efficiency, outside of traditional OSA scoring, is predictive of myocardial infarction, stroke, and cardiovascular-related mortality risk. Moreover, deficits in sleep efficiency have been consistently demonstrated in smokers versus nonsmokers,” they said.

The study findings were limited by several factors including inability to extrapolate data to other demographic groups and the cross-sectional design, the researchers noted. In addition, they did not address how TST and SE may relate to lung function.

However, the results “extend current knowledge about the potential role of improved sleep health to functional exercise capacity in AA smokers,” and set the stage for future studies of how changes in sleep health may affect lung and functional exercise capacity in smokers over time, as well as effects on inflammation and autonomic imbalance, the researchers concluded.

The study was supported by the National Institute on Minority Health and Health Disparities and by the National Institute of General Medical Sciences, both part of the National Institutes Health. The researchers had no financial conflicts to disclose.

SOURCE: Gangemi A et al. Chest 2020 Apr 23. doi: 10.1016/j.chest.2020.03.070.

Publications
Topics
Sections

African American smokers who logged more total sleep time and greater sleep efficacy performed better on a functional walk test than did those with poorer sleep, based on data from 209 adults.

beichh4046/Getty Images

African American smokers tend to develop COPD sooner and also report more sleep problems, compared with white smokers, wrote Andrew J. Gangemi, MD, of Temple University Hospital, Philadelphia, and colleagues.

In addition, African Americans tend to develop COPD at a younger age and with lower levels of smoking than do non-Hispanic whites, they said. “Sleep health may be a contributing factor to the lung and cardiovascular health disparity experienced by AA smokers,” in part because data suggest that insufficient sleep may be associated with increased risk of COPD exacerbation in smokers in general, they said.

In a study published in Chest, the researchers reviewed data from 209 African American adults aged 40-65 years who had smoked at least one cigarette in the past month. The average age of the participants was 55 years, 59% were women, and the average smoking habit was nine cigarettes per day.

The researchers measured functional exercise capacity of the participants using the 6-minute walk test (6MWT). Total sleep time (TST) and sleep efficacy (SE) were measured by way of a finger-based device.

Smokers of at least 10 cigarettes per day gained an additional 0.05-0.58 meters in distance covered on the 6MWT for every added minute of total sleep time in a multivariable regression analysis. Similarly, smokers of at least 10 cigarettes per day gained an additional 0.84-6.17–meter increase in distance covered on the 6MWT for every added percentage of sleep efficacy.

The reasons for the impact of SE and TST on functional exercise capacity in smokers remain unclear, the researchers said. “Heavier smokers have higher levels of autonomic imbalance, including higher resting heart rate and heart rate variability, impaired 24-hour cardiovascular sympathetic tone, and blunted cerebrovascular autonomic regulation and baroreflex response to hypercapnia,” they said.

Also unclear is the reason for the large magnitude of the association between SE and smoking vs. the lesser association between TST and smoking on 6MWT results, the researchers wrote. “Poor sleep efficiency, outside of traditional OSA scoring, is predictive of myocardial infarction, stroke, and cardiovascular-related mortality risk. Moreover, deficits in sleep efficiency have been consistently demonstrated in smokers versus nonsmokers,” they said.

The study findings were limited by several factors including inability to extrapolate data to other demographic groups and the cross-sectional design, the researchers noted. In addition, they did not address how TST and SE may relate to lung function.

However, the results “extend current knowledge about the potential role of improved sleep health to functional exercise capacity in AA smokers,” and set the stage for future studies of how changes in sleep health may affect lung and functional exercise capacity in smokers over time, as well as effects on inflammation and autonomic imbalance, the researchers concluded.

The study was supported by the National Institute on Minority Health and Health Disparities and by the National Institute of General Medical Sciences, both part of the National Institutes Health. The researchers had no financial conflicts to disclose.

SOURCE: Gangemi A et al. Chest 2020 Apr 23. doi: 10.1016/j.chest.2020.03.070.

African American smokers who logged more total sleep time and greater sleep efficacy performed better on a functional walk test than did those with poorer sleep, based on data from 209 adults.

beichh4046/Getty Images

African American smokers tend to develop COPD sooner and also report more sleep problems, compared with white smokers, wrote Andrew J. Gangemi, MD, of Temple University Hospital, Philadelphia, and colleagues.

In addition, African Americans tend to develop COPD at a younger age and with lower levels of smoking than do non-Hispanic whites, they said. “Sleep health may be a contributing factor to the lung and cardiovascular health disparity experienced by AA smokers,” in part because data suggest that insufficient sleep may be associated with increased risk of COPD exacerbation in smokers in general, they said.

In a study published in Chest, the researchers reviewed data from 209 African American adults aged 40-65 years who had smoked at least one cigarette in the past month. The average age of the participants was 55 years, 59% were women, and the average smoking habit was nine cigarettes per day.

The researchers measured functional exercise capacity of the participants using the 6-minute walk test (6MWT). Total sleep time (TST) and sleep efficacy (SE) were measured by way of a finger-based device.

Smokers of at least 10 cigarettes per day gained an additional 0.05-0.58 meters in distance covered on the 6MWT for every added minute of total sleep time in a multivariable regression analysis. Similarly, smokers of at least 10 cigarettes per day gained an additional 0.84-6.17–meter increase in distance covered on the 6MWT for every added percentage of sleep efficacy.

The reasons for the impact of SE and TST on functional exercise capacity in smokers remain unclear, the researchers said. “Heavier smokers have higher levels of autonomic imbalance, including higher resting heart rate and heart rate variability, impaired 24-hour cardiovascular sympathetic tone, and blunted cerebrovascular autonomic regulation and baroreflex response to hypercapnia,” they said.

Also unclear is the reason for the large magnitude of the association between SE and smoking vs. the lesser association between TST and smoking on 6MWT results, the researchers wrote. “Poor sleep efficiency, outside of traditional OSA scoring, is predictive of myocardial infarction, stroke, and cardiovascular-related mortality risk. Moreover, deficits in sleep efficiency have been consistently demonstrated in smokers versus nonsmokers,” they said.

The study findings were limited by several factors including inability to extrapolate data to other demographic groups and the cross-sectional design, the researchers noted. In addition, they did not address how TST and SE may relate to lung function.

However, the results “extend current knowledge about the potential role of improved sleep health to functional exercise capacity in AA smokers,” and set the stage for future studies of how changes in sleep health may affect lung and functional exercise capacity in smokers over time, as well as effects on inflammation and autonomic imbalance, the researchers concluded.

The study was supported by the National Institute on Minority Health and Health Disparities and by the National Institute of General Medical Sciences, both part of the National Institutes Health. The researchers had no financial conflicts to disclose.

SOURCE: Gangemi A et al. Chest 2020 Apr 23. doi: 10.1016/j.chest.2020.03.070.

Publications
Publications
Topics
Article Type
Sections
Article Source

FROM CHEST

Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap

Hospitals update hydroxychloroquine protocols after FDA warning

Article Type
Changed

Across the country, hospitals are incorporating Friday’s warning from the US Food and Drug Administration (FDA) about the risks of prescribing hydroxychloroquine and chloroquine for COVID-19 into their treatment protocols.

For some hospitals, the message affirmed the cautious approach they were already taking with hydroxychloroquine. “From a New York state or Northwell perspective, there is no major change,” said Onisis Stefas, PharmD, vice president of pharmacy at Northwell Health in New York. “We were not prescribing it out in the community very early on because of the concerns associated with the heart arrhythmias.”

Brigham and Women’s Hospital in Boston, Massachusetts, is currently in the process of updating its publicly available COVID-19 protocols website “to incorporate the FDA’s updated safety assessment and ongoing clinical trials,” a hospital spokesperson told Medscape Medical News. Prior to the updates, the treatment protocols indicated that hydroxychloroquine should only be considered after weighing the risks and benefits for patients who are not candidates for other clinical trials and meet a specific set of health criteria.

The warning is a timely and important synthesis of what physicians know about the drugs so far and how cautiously clinicians across the country should be using them, said Rajesh T. Gandhi, MD, infectious diseases physician at Massachusetts General Hospital (MGH), Boston, professor of medicine at Harvard Medical School, member of the Infectious Diseases Society of America (IDSA), and chair-elect of the HIV Medicine Association.

“I think to be honest it’s a really important message to the public and clinicians across the country,” said Gandhi. “Because we all know there is just a ton of discussion around this drug ... and it came out fairly and said what we know right now.”

The two antimalarial drugs have been at the center of much political debate and scientific scrutiny in recent weeks, following President Trump’s endorsement and the FDA’s emergency use authorization for the two medications in March. Hospitals across the country had incorporated hydroxychloroquine and chloroquine into their constantly evolving treatment protocols for patients with COVID-19.

But the evidence that these drugs actually help treat COVID-19 remains scant. Some small studies suggest the therapies help patients with COVID-19, while others conclude the drugs have no effect or even harm patients. In the United States, medical societies including the American Heart Association have also warned about the serious cardiac issues that can accompany these drugs for some patients.

In the new warning, the FDA said it “cautions against use of hydroxychloroquine or chloroquine for COVID-19 patients outside of the hospital setting or a clinical trial” and urged “close supervision” of patients treated with these therapies, citing cardiac side effects.

The FDA also said it is aware that the outpatient prescription of these medications has increased since its March authorization, but the drugs still have not been shown to be safe or effective in treating or preventing COVID-19.

The FDA announcement is consistent with protocols established by the National Institutes of Health and IDSA earlier this month that recommend against using hydroxychloroquine or chloroquine, except when these drugs are administered as part of a clinical trial.



“We agree wholeheartedly with the FDA and have been hoping that the FDA would in fact issue that kind of clarification,” said Samuel Brown, MD, study committee cochair of the ORCHID clinical trial, a multicenter, blinded study investigating the safety and efficacy of hydroxychloroquine. These medications need to be tested in clinical trials that are able to focus closely on safety monitoring, he said. Experts at Vanderbilt University, one of the medical centers participating in the ORCHID clinical trial, decided before Tennessee had any cases of COVID-19 that unproven therapies like hydroxychloroquine would only be available through clinical trials, said Wesley Self, MD, associate professor of emergency medicine at Vanderbilt University, Nashville, Tennessee, and chair of the ORCHID study committee.

Northwell Health, like other hospitals in New York, has been following a March executive order issued by Governor Andrew Cuomo limiting the use of these drugs for COVID-19 outside of clinical trials, said Stefas. At Northwell Health, patients with COVID-19 only receive hydroxychloroquine or chloroquine when treated in hospital, where they can be closely monitored, or as part of a clinical trial. The hospital system’s protocols currently do not recommend pairing hydroxychloroquine with azithromycin, said Stefas. The new FDA announcement is “very similar” to New York’s existing executive order, he said. “Reading through this reinforces a lot of what we originally thought.”

At MGH in Boston, the FDA safety warning is in line with and “solidifies” the hospital’s evolving protocols, said Gandhi. Clinicians at MGH have been steadily moving away from prescribing hydroxychloroquine outside of clinical trials as the efficacy has remained murky, the serious side effects have become more evident, and clinical trials to assess the drug have gotten underway in recent weeks, he said. Given the conflicting evidence, Gandhi feels the use of these drugs needs to be focused in clinical trials, where scientists can truly evaluate how much they help or harm.

“We know fundamentally that’s the way to do this,” Gandhi said. “We also don’t know that it doesn’t work, so it is ethical and incumbent upon us to do a study,” Gandhi said.

Other hospitals are already heeding the FDA’s warning. At UW Medicine in Washington state, for example, hydroxychloroquine was considered a possible treatment for COVID-19 prior to the FDA’s recent announcement. “Based on FDA guidance, hydroxychloroquine is no longer recommended as therapy for COVID-19 unless done through a clinical trial,” said Tim Dellit, MD, chief medical officer for UW Medicine.

Michigan Medicine stopped using hydroxychloroquine and azithromycin (both separately and in combination) about a month ago, said Daniel Kaul, MD, a professor of infectious disease at the University of Michigan. “When we reviewed the data that was available in more detail, we realized that it was essentially uninterpretable,” he said. As of Monday, the only patients receiving this drug at Michigan Medicine are those enrolled in the ORCHID clinical trial.

But that does not seem to be the case everywhere. Most patients transferred to Michigan Medicine from other hospitals have received these drugs, indicating they are still being widely used, said Kaul. “I think this FDA guidance is appropriate and may reduce usage of this drug and make people more aware of the potential side effects both in inpatient and outpatient settings.”

Hopefully, the FDA guidance will help slow the use of these drugs outside the appropriate clinical trial setting, said Kaul. “I think that the kind of politicization of this drug, which is pretty much unprecedented in my experience, created a really harmful environment where calm decision making and assessment of the relative risks and benefits became somewhat impossible,” said Kaul.

This article first appeared on Medscape.com.

Publications
Topics
Sections

Across the country, hospitals are incorporating Friday’s warning from the US Food and Drug Administration (FDA) about the risks of prescribing hydroxychloroquine and chloroquine for COVID-19 into their treatment protocols.

For some hospitals, the message affirmed the cautious approach they were already taking with hydroxychloroquine. “From a New York state or Northwell perspective, there is no major change,” said Onisis Stefas, PharmD, vice president of pharmacy at Northwell Health in New York. “We were not prescribing it out in the community very early on because of the concerns associated with the heart arrhythmias.”

Brigham and Women’s Hospital in Boston, Massachusetts, is currently in the process of updating its publicly available COVID-19 protocols website “to incorporate the FDA’s updated safety assessment and ongoing clinical trials,” a hospital spokesperson told Medscape Medical News. Prior to the updates, the treatment protocols indicated that hydroxychloroquine should only be considered after weighing the risks and benefits for patients who are not candidates for other clinical trials and meet a specific set of health criteria.

The warning is a timely and important synthesis of what physicians know about the drugs so far and how cautiously clinicians across the country should be using them, said Rajesh T. Gandhi, MD, infectious diseases physician at Massachusetts General Hospital (MGH), Boston, professor of medicine at Harvard Medical School, member of the Infectious Diseases Society of America (IDSA), and chair-elect of the HIV Medicine Association.

“I think to be honest it’s a really important message to the public and clinicians across the country,” said Gandhi. “Because we all know there is just a ton of discussion around this drug ... and it came out fairly and said what we know right now.”

The two antimalarial drugs have been at the center of much political debate and scientific scrutiny in recent weeks, following President Trump’s endorsement and the FDA’s emergency use authorization for the two medications in March. Hospitals across the country had incorporated hydroxychloroquine and chloroquine into their constantly evolving treatment protocols for patients with COVID-19.

But the evidence that these drugs actually help treat COVID-19 remains scant. Some small studies suggest the therapies help patients with COVID-19, while others conclude the drugs have no effect or even harm patients. In the United States, medical societies including the American Heart Association have also warned about the serious cardiac issues that can accompany these drugs for some patients.

In the new warning, the FDA said it “cautions against use of hydroxychloroquine or chloroquine for COVID-19 patients outside of the hospital setting or a clinical trial” and urged “close supervision” of patients treated with these therapies, citing cardiac side effects.

The FDA also said it is aware that the outpatient prescription of these medications has increased since its March authorization, but the drugs still have not been shown to be safe or effective in treating or preventing COVID-19.

The FDA announcement is consistent with protocols established by the National Institutes of Health and IDSA earlier this month that recommend against using hydroxychloroquine or chloroquine, except when these drugs are administered as part of a clinical trial.



“We agree wholeheartedly with the FDA and have been hoping that the FDA would in fact issue that kind of clarification,” said Samuel Brown, MD, study committee cochair of the ORCHID clinical trial, a multicenter, blinded study investigating the safety and efficacy of hydroxychloroquine. These medications need to be tested in clinical trials that are able to focus closely on safety monitoring, he said. Experts at Vanderbilt University, one of the medical centers participating in the ORCHID clinical trial, decided before Tennessee had any cases of COVID-19 that unproven therapies like hydroxychloroquine would only be available through clinical trials, said Wesley Self, MD, associate professor of emergency medicine at Vanderbilt University, Nashville, Tennessee, and chair of the ORCHID study committee.

Northwell Health, like other hospitals in New York, has been following a March executive order issued by Governor Andrew Cuomo limiting the use of these drugs for COVID-19 outside of clinical trials, said Stefas. At Northwell Health, patients with COVID-19 only receive hydroxychloroquine or chloroquine when treated in hospital, where they can be closely monitored, or as part of a clinical trial. The hospital system’s protocols currently do not recommend pairing hydroxychloroquine with azithromycin, said Stefas. The new FDA announcement is “very similar” to New York’s existing executive order, he said. “Reading through this reinforces a lot of what we originally thought.”

At MGH in Boston, the FDA safety warning is in line with and “solidifies” the hospital’s evolving protocols, said Gandhi. Clinicians at MGH have been steadily moving away from prescribing hydroxychloroquine outside of clinical trials as the efficacy has remained murky, the serious side effects have become more evident, and clinical trials to assess the drug have gotten underway in recent weeks, he said. Given the conflicting evidence, Gandhi feels the use of these drugs needs to be focused in clinical trials, where scientists can truly evaluate how much they help or harm.

“We know fundamentally that’s the way to do this,” Gandhi said. “We also don’t know that it doesn’t work, so it is ethical and incumbent upon us to do a study,” Gandhi said.

Other hospitals are already heeding the FDA’s warning. At UW Medicine in Washington state, for example, hydroxychloroquine was considered a possible treatment for COVID-19 prior to the FDA’s recent announcement. “Based on FDA guidance, hydroxychloroquine is no longer recommended as therapy for COVID-19 unless done through a clinical trial,” said Tim Dellit, MD, chief medical officer for UW Medicine.

Michigan Medicine stopped using hydroxychloroquine and azithromycin (both separately and in combination) about a month ago, said Daniel Kaul, MD, a professor of infectious disease at the University of Michigan. “When we reviewed the data that was available in more detail, we realized that it was essentially uninterpretable,” he said. As of Monday, the only patients receiving this drug at Michigan Medicine are those enrolled in the ORCHID clinical trial.

But that does not seem to be the case everywhere. Most patients transferred to Michigan Medicine from other hospitals have received these drugs, indicating they are still being widely used, said Kaul. “I think this FDA guidance is appropriate and may reduce usage of this drug and make people more aware of the potential side effects both in inpatient and outpatient settings.”

Hopefully, the FDA guidance will help slow the use of these drugs outside the appropriate clinical trial setting, said Kaul. “I think that the kind of politicization of this drug, which is pretty much unprecedented in my experience, created a really harmful environment where calm decision making and assessment of the relative risks and benefits became somewhat impossible,” said Kaul.

This article first appeared on Medscape.com.

Across the country, hospitals are incorporating Friday’s warning from the US Food and Drug Administration (FDA) about the risks of prescribing hydroxychloroquine and chloroquine for COVID-19 into their treatment protocols.

For some hospitals, the message affirmed the cautious approach they were already taking with hydroxychloroquine. “From a New York state or Northwell perspective, there is no major change,” said Onisis Stefas, PharmD, vice president of pharmacy at Northwell Health in New York. “We were not prescribing it out in the community very early on because of the concerns associated with the heart arrhythmias.”

Brigham and Women’s Hospital in Boston, Massachusetts, is currently in the process of updating its publicly available COVID-19 protocols website “to incorporate the FDA’s updated safety assessment and ongoing clinical trials,” a hospital spokesperson told Medscape Medical News. Prior to the updates, the treatment protocols indicated that hydroxychloroquine should only be considered after weighing the risks and benefits for patients who are not candidates for other clinical trials and meet a specific set of health criteria.

The warning is a timely and important synthesis of what physicians know about the drugs so far and how cautiously clinicians across the country should be using them, said Rajesh T. Gandhi, MD, infectious diseases physician at Massachusetts General Hospital (MGH), Boston, professor of medicine at Harvard Medical School, member of the Infectious Diseases Society of America (IDSA), and chair-elect of the HIV Medicine Association.

“I think to be honest it’s a really important message to the public and clinicians across the country,” said Gandhi. “Because we all know there is just a ton of discussion around this drug ... and it came out fairly and said what we know right now.”

The two antimalarial drugs have been at the center of much political debate and scientific scrutiny in recent weeks, following President Trump’s endorsement and the FDA’s emergency use authorization for the two medications in March. Hospitals across the country had incorporated hydroxychloroquine and chloroquine into their constantly evolving treatment protocols for patients with COVID-19.

But the evidence that these drugs actually help treat COVID-19 remains scant. Some small studies suggest the therapies help patients with COVID-19, while others conclude the drugs have no effect or even harm patients. In the United States, medical societies including the American Heart Association have also warned about the serious cardiac issues that can accompany these drugs for some patients.

In the new warning, the FDA said it “cautions against use of hydroxychloroquine or chloroquine for COVID-19 patients outside of the hospital setting or a clinical trial” and urged “close supervision” of patients treated with these therapies, citing cardiac side effects.

The FDA also said it is aware that the outpatient prescription of these medications has increased since its March authorization, but the drugs still have not been shown to be safe or effective in treating or preventing COVID-19.

The FDA announcement is consistent with protocols established by the National Institutes of Health and IDSA earlier this month that recommend against using hydroxychloroquine or chloroquine, except when these drugs are administered as part of a clinical trial.



“We agree wholeheartedly with the FDA and have been hoping that the FDA would in fact issue that kind of clarification,” said Samuel Brown, MD, study committee cochair of the ORCHID clinical trial, a multicenter, blinded study investigating the safety and efficacy of hydroxychloroquine. These medications need to be tested in clinical trials that are able to focus closely on safety monitoring, he said. Experts at Vanderbilt University, one of the medical centers participating in the ORCHID clinical trial, decided before Tennessee had any cases of COVID-19 that unproven therapies like hydroxychloroquine would only be available through clinical trials, said Wesley Self, MD, associate professor of emergency medicine at Vanderbilt University, Nashville, Tennessee, and chair of the ORCHID study committee.

Northwell Health, like other hospitals in New York, has been following a March executive order issued by Governor Andrew Cuomo limiting the use of these drugs for COVID-19 outside of clinical trials, said Stefas. At Northwell Health, patients with COVID-19 only receive hydroxychloroquine or chloroquine when treated in hospital, where they can be closely monitored, or as part of a clinical trial. The hospital system’s protocols currently do not recommend pairing hydroxychloroquine with azithromycin, said Stefas. The new FDA announcement is “very similar” to New York’s existing executive order, he said. “Reading through this reinforces a lot of what we originally thought.”

At MGH in Boston, the FDA safety warning is in line with and “solidifies” the hospital’s evolving protocols, said Gandhi. Clinicians at MGH have been steadily moving away from prescribing hydroxychloroquine outside of clinical trials as the efficacy has remained murky, the serious side effects have become more evident, and clinical trials to assess the drug have gotten underway in recent weeks, he said. Given the conflicting evidence, Gandhi feels the use of these drugs needs to be focused in clinical trials, where scientists can truly evaluate how much they help or harm.

“We know fundamentally that’s the way to do this,” Gandhi said. “We also don’t know that it doesn’t work, so it is ethical and incumbent upon us to do a study,” Gandhi said.

Other hospitals are already heeding the FDA’s warning. At UW Medicine in Washington state, for example, hydroxychloroquine was considered a possible treatment for COVID-19 prior to the FDA’s recent announcement. “Based on FDA guidance, hydroxychloroquine is no longer recommended as therapy for COVID-19 unless done through a clinical trial,” said Tim Dellit, MD, chief medical officer for UW Medicine.

Michigan Medicine stopped using hydroxychloroquine and azithromycin (both separately and in combination) about a month ago, said Daniel Kaul, MD, a professor of infectious disease at the University of Michigan. “When we reviewed the data that was available in more detail, we realized that it was essentially uninterpretable,” he said. As of Monday, the only patients receiving this drug at Michigan Medicine are those enrolled in the ORCHID clinical trial.

But that does not seem to be the case everywhere. Most patients transferred to Michigan Medicine from other hospitals have received these drugs, indicating they are still being widely used, said Kaul. “I think this FDA guidance is appropriate and may reduce usage of this drug and make people more aware of the potential side effects both in inpatient and outpatient settings.”

Hopefully, the FDA guidance will help slow the use of these drugs outside the appropriate clinical trial setting, said Kaul. “I think that the kind of politicization of this drug, which is pretty much unprecedented in my experience, created a really harmful environment where calm decision making and assessment of the relative risks and benefits became somewhat impossible,” said Kaul.

This article first appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Medscape Article

Consensus recommendations on AMI management during COVID-19

Article Type
Changed

A consensus statement from the American College of Cardiology (ACC), the American College of Emergency Physicians (ACEP), and the Society for Cardiovascular Angiography & Interventions (SCAI) outlines recommendations for a systematic approach for the care of patients with an acute myocardial infarction (AMI) during the COVID-19 pandemic.

The statement was published in the Journal of the American College of Cardiology.

During the COVID-19 pandemic, percutaneous coronary intervention (PCI) remains the standard of care for patients with ST-segment elevation MI (STEMI) at PCI-capable hospitals when it can be provided in a timely fashion in a dedicated cardiac catheterization laboratory with an expert care team wearing personal protection equipment (PPE), the writing group advised.

“A fibrinolysis-based strategy may be entertained at non-PCI capable referral hospitals or in specific situations where primary PCI cannot be executed or is not deemed the best option,” they said.

SCAI President Ehtisham Mahmud, MD, of the University of California, San Diego, and the writing group also said that clinicians should recognize that cardiovascular manifestations of COVID-19 are “complex” in patients presenting with AMI, myocarditis simulating a STEMI, stress cardiomyopathy, nonischemic cardiomyopathy, coronary spasm, or nonspecific myocardial injury.

A “broad differential diagnosis for ST elevations (including COVID-associated myocarditis) should be considered in the ED prior to choosing a reperfusion strategy,” they advised.



In the absence of hemodynamic instability or ongoing ischemic symptoms, non-STEMI patients with known or suspected COVID-19 are best managed with an initial medical stabilization strategy, the group said.

They also said it is “imperative that health care workers use appropriate PPE for all invasive procedures during this pandemic” and that new rapid COVID-19 testing be “expeditiously” disseminated to all hospitals that manage patients with AMI.

Major challenges are that the prevalence of the COVID-19 in the United States remains unknown and there is the risk for asymptomatic spread.

The writing group said it’s “critical” to “inform the public that we can minimize exposure to the coronavirus so they can continue to call the Emergency Medical System (EMS) for acute ischemic heart disease symptoms and therefore get the appropriate level of cardiac care that their presentation warrants.”

This research had no commercial funding. Dr. Mahmud reported receiving clinical trial research support from Corindus, Abbott Vascular, and CSI; consulting with Medtronic; and consulting and equity with Abiomed. A complete list of author disclosures is included with the original article.

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

Publications
Topics
Sections

A consensus statement from the American College of Cardiology (ACC), the American College of Emergency Physicians (ACEP), and the Society for Cardiovascular Angiography & Interventions (SCAI) outlines recommendations for a systematic approach for the care of patients with an acute myocardial infarction (AMI) during the COVID-19 pandemic.

The statement was published in the Journal of the American College of Cardiology.

During the COVID-19 pandemic, percutaneous coronary intervention (PCI) remains the standard of care for patients with ST-segment elevation MI (STEMI) at PCI-capable hospitals when it can be provided in a timely fashion in a dedicated cardiac catheterization laboratory with an expert care team wearing personal protection equipment (PPE), the writing group advised.

“A fibrinolysis-based strategy may be entertained at non-PCI capable referral hospitals or in specific situations where primary PCI cannot be executed or is not deemed the best option,” they said.

SCAI President Ehtisham Mahmud, MD, of the University of California, San Diego, and the writing group also said that clinicians should recognize that cardiovascular manifestations of COVID-19 are “complex” in patients presenting with AMI, myocarditis simulating a STEMI, stress cardiomyopathy, nonischemic cardiomyopathy, coronary spasm, or nonspecific myocardial injury.

A “broad differential diagnosis for ST elevations (including COVID-associated myocarditis) should be considered in the ED prior to choosing a reperfusion strategy,” they advised.



In the absence of hemodynamic instability or ongoing ischemic symptoms, non-STEMI patients with known or suspected COVID-19 are best managed with an initial medical stabilization strategy, the group said.

They also said it is “imperative that health care workers use appropriate PPE for all invasive procedures during this pandemic” and that new rapid COVID-19 testing be “expeditiously” disseminated to all hospitals that manage patients with AMI.

Major challenges are that the prevalence of the COVID-19 in the United States remains unknown and there is the risk for asymptomatic spread.

The writing group said it’s “critical” to “inform the public that we can minimize exposure to the coronavirus so they can continue to call the Emergency Medical System (EMS) for acute ischemic heart disease symptoms and therefore get the appropriate level of cardiac care that their presentation warrants.”

This research had no commercial funding. Dr. Mahmud reported receiving clinical trial research support from Corindus, Abbott Vascular, and CSI; consulting with Medtronic; and consulting and equity with Abiomed. A complete list of author disclosures is included with the original article.

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

A consensus statement from the American College of Cardiology (ACC), the American College of Emergency Physicians (ACEP), and the Society for Cardiovascular Angiography & Interventions (SCAI) outlines recommendations for a systematic approach for the care of patients with an acute myocardial infarction (AMI) during the COVID-19 pandemic.

The statement was published in the Journal of the American College of Cardiology.

During the COVID-19 pandemic, percutaneous coronary intervention (PCI) remains the standard of care for patients with ST-segment elevation MI (STEMI) at PCI-capable hospitals when it can be provided in a timely fashion in a dedicated cardiac catheterization laboratory with an expert care team wearing personal protection equipment (PPE), the writing group advised.

“A fibrinolysis-based strategy may be entertained at non-PCI capable referral hospitals or in specific situations where primary PCI cannot be executed or is not deemed the best option,” they said.

SCAI President Ehtisham Mahmud, MD, of the University of California, San Diego, and the writing group also said that clinicians should recognize that cardiovascular manifestations of COVID-19 are “complex” in patients presenting with AMI, myocarditis simulating a STEMI, stress cardiomyopathy, nonischemic cardiomyopathy, coronary spasm, or nonspecific myocardial injury.

A “broad differential diagnosis for ST elevations (including COVID-associated myocarditis) should be considered in the ED prior to choosing a reperfusion strategy,” they advised.



In the absence of hemodynamic instability or ongoing ischemic symptoms, non-STEMI patients with known or suspected COVID-19 are best managed with an initial medical stabilization strategy, the group said.

They also said it is “imperative that health care workers use appropriate PPE for all invasive procedures during this pandemic” and that new rapid COVID-19 testing be “expeditiously” disseminated to all hospitals that manage patients with AMI.

Major challenges are that the prevalence of the COVID-19 in the United States remains unknown and there is the risk for asymptomatic spread.

The writing group said it’s “critical” to “inform the public that we can minimize exposure to the coronavirus so they can continue to call the Emergency Medical System (EMS) for acute ischemic heart disease symptoms and therefore get the appropriate level of cardiac care that their presentation warrants.”

This research had no commercial funding. Dr. Mahmud reported receiving clinical trial research support from Corindus, Abbott Vascular, and CSI; consulting with Medtronic; and consulting and equity with Abiomed. A complete list of author disclosures is included with the original article.

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

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

FDA grants Breakthrough Therapy status to sotatercept for PAH treatment

Article Type
Changed

The Food and Drug Administration has granted Breakthrough Therapy status to sotatercept for treatment of patients with pulmonary arterial hypertension (PAH).

Approval for sotatercept, “a selective ligand trap for members of the TGF-beta [transforming growth factor-beta] superfamily which rebalances BMPR-II [bone morphogenetic protein receptor type II] signaling,” was based on two types of research. It was based on results of preclinical research indicating “reversed pulmonary vessel muscularization and improved indicators of right heart failure,” as well as results of the phase 2, placebo-controlled PULSAR study, in which sotatercept showed positive results, meeting primary and secondary endpoints.

Adverse events during PULSAR “were consistent with previously published data on sotatercept” in other diseases. The drug is also under investigation in the phase 2 SPECTRA trial, which includes patients with PAH.

“We believe that sotatercept has the potential to shift the current treatment paradigm and provide significant benefit to patients with PAH on top of currently available therapies. Thus, we’re thrilled that the FDA has granted this Breakthrough Therapy designation – a first for an Acceleron-discovered medicine and for a therapeutic candidate in PAH – as it supports and aligns with our mission to deliver novel therapeutic options to patients in need as quickly as possible,” Habib Dable, president and CEO of Acceleron Pharma, said in the press release.

Publications
Topics
Sections

The Food and Drug Administration has granted Breakthrough Therapy status to sotatercept for treatment of patients with pulmonary arterial hypertension (PAH).

Approval for sotatercept, “a selective ligand trap for members of the TGF-beta [transforming growth factor-beta] superfamily which rebalances BMPR-II [bone morphogenetic protein receptor type II] signaling,” was based on two types of research. It was based on results of preclinical research indicating “reversed pulmonary vessel muscularization and improved indicators of right heart failure,” as well as results of the phase 2, placebo-controlled PULSAR study, in which sotatercept showed positive results, meeting primary and secondary endpoints.

Adverse events during PULSAR “were consistent with previously published data on sotatercept” in other diseases. The drug is also under investigation in the phase 2 SPECTRA trial, which includes patients with PAH.

“We believe that sotatercept has the potential to shift the current treatment paradigm and provide significant benefit to patients with PAH on top of currently available therapies. Thus, we’re thrilled that the FDA has granted this Breakthrough Therapy designation – a first for an Acceleron-discovered medicine and for a therapeutic candidate in PAH – as it supports and aligns with our mission to deliver novel therapeutic options to patients in need as quickly as possible,” Habib Dable, president and CEO of Acceleron Pharma, said in the press release.

The Food and Drug Administration has granted Breakthrough Therapy status to sotatercept for treatment of patients with pulmonary arterial hypertension (PAH).

Approval for sotatercept, “a selective ligand trap for members of the TGF-beta [transforming growth factor-beta] superfamily which rebalances BMPR-II [bone morphogenetic protein receptor type II] signaling,” was based on two types of research. It was based on results of preclinical research indicating “reversed pulmonary vessel muscularization and improved indicators of right heart failure,” as well as results of the phase 2, placebo-controlled PULSAR study, in which sotatercept showed positive results, meeting primary and secondary endpoints.

Adverse events during PULSAR “were consistent with previously published data on sotatercept” in other diseases. The drug is also under investigation in the phase 2 SPECTRA trial, which includes patients with PAH.

“We believe that sotatercept has the potential to shift the current treatment paradigm and provide significant benefit to patients with PAH on top of currently available therapies. Thus, we’re thrilled that the FDA has granted this Breakthrough Therapy designation – a first for an Acceleron-discovered medicine and for a therapeutic candidate in PAH – as it supports and aligns with our mission to deliver novel therapeutic options to patients in need as quickly as possible,” Habib Dable, president and CEO of Acceleron Pharma, said in the press release.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap