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Working while sick: Why doctors don’t stay home when ill
The reasons are likely as varied as, “you weren’t feeling bad enough to miss work,” “you couldn’t afford to miss pay,” “you had too many patients to see,” or “too much work to do.”
In Medscape’s Employed Physicians Report: Loving the Focus, Hating the Bureaucracy, 61% of physicians reported that they sometimes or often come to work sick. Only 2% of respondents said they never come to work unwell.
Medscape wanted to know more about how often you call in sick, how often you come to work feeling unwell, what symptoms you have, and the dogma of your workplace culture regarding sick days. Not to mention the brutal ethos that starts in medical school, in which calling in sick shows weakness or is unacceptable.
So, we polled 2,347 physicians in the United States and abroad and asked them about their sniffling, sneezing, cold, flu, and fever symptoms, and, of course, COVID. Results were split about 50-50 among male and female physicians. The poll ran from Sept. 28 through Oct. 11.
Coming to work sick
It’s no surprise that the majority of physicians who were polled (85%) have come to work sick in 2022. In the last prepandemic year (2019), about 70% came to work feeling sick one to five times, and 13% worked while sick six to ten times.
When asked about the symptoms that they’ve previously come to work with, 48% of U.S. physicians said multiple symptoms. They gave high marks for runny nose, cough, congestion, and sore throat. Only 27% have worked with a fever, 22% have worked with other symptoms, and 7% have worked with both strep throat and COVID.
“My workplace, especially in the COVID years, accommodates persons who honestly do not feel well enough to report. Sooner or later, everyone covers for someone else who has to be out,” says Kenneth Abbott, MD, an oncologist in Maryland.
The culture of working while sick
Why doctors come to work when they’re sick is complicated. The overwhelming majority of U.S. respondents cited professional obligations; 73% noted that they feel a professional obligation to their patients, and 72% feel a professional obligation to their co-workers. Half of the polled U.S. physicians said they didn’t feel bad enough to stay home, while 48% said they had too much work to do to stay home.
Some 45% said the expectation at their workplace is to come to work unless seriously ill; 43% had too many patients to see; and 18% didn’t think they were contagious when they headed to work sick. Unfortunately, 15% chose to work while sick because otherwise they would lose pay.
In light of these responses, it’s not surprising that 93% reported they’d seen other medical professionals working when sick.
“My schedule is almost always booked weeks in advance. If someone misses or has to cancel their appointment, they typically have 2-4 weeks to wait to get back in. If I was sick and a full day of patients (or God forbid more than a day) had to be canceled because I called in, it’s so much more work when I return,” says Caitlin Briggs, MD, a psychiatrist in Lexington, Ky.
Doctors’ workplace sick day policy
Most employees’ benefits allow at least a few sick days, but doctors who treat society’s ill patients don’t seem to stay home from work when they’re suffering. So, we asked physicians, official policy aside, whether they thought going to work sick was expected in their workplace. The majority (76%) said yes, while 24% said no.
“Unless I’m dying or extremely contagious, I usually work. At least now, I have the telehealth option. Not saying any of this is right, but it’s the reality we deal with and the choice we must make,” says Dr. Briggs.
Additionally, 58% of polled physicians said their workplace did not have a clearly defined policy against coming to work sick, while 20% said theirs did, and 22% weren’t sure.
“The first thing I heard on the subject as a medical student was that sick people come to the hospital, so if you’re sick, then you come to the hospital too ... to work. If you can’t work, then you will be admitted. Another aphorism was from Churchill, that ‘most of the world’s work is done by people who don’t feel very well,’ ” says Paul Andreason, MD, a psychiatrist in Bethesda, Md.
Working in the time of COVID
Working while ill during ordinary times is one thing, but what about working in the time of COVID? Has the pandemic changed the culture of coming to work sick because medical facilities, such as doctor’s offices and hospitals, don’t want their staff coming in when they have COVID?
Surprisingly, when we asked physicians whether the pandemic has made it more or less acceptable to come to work sick, only 61% thought COVID has made it less acceptable to work while sick, while 16% thought it made it more acceptable, and 23% said there’s no change.
“I draw the line at fevers/chills, feeling like you’ve just been run over, or significant enteritis,” says Dr. Abbott. “Also, if I have to take palliative meds that interfere with alertness, I’m not doing my patients any favors.”
While a minority of physicians may call in sick, most still suffer through their sneezing, coughing, chills, and fever while seeing patients as usual.
A version of this article first appeared on Medscape.com.
The reasons are likely as varied as, “you weren’t feeling bad enough to miss work,” “you couldn’t afford to miss pay,” “you had too many patients to see,” or “too much work to do.”
In Medscape’s Employed Physicians Report: Loving the Focus, Hating the Bureaucracy, 61% of physicians reported that they sometimes or often come to work sick. Only 2% of respondents said they never come to work unwell.
Medscape wanted to know more about how often you call in sick, how often you come to work feeling unwell, what symptoms you have, and the dogma of your workplace culture regarding sick days. Not to mention the brutal ethos that starts in medical school, in which calling in sick shows weakness or is unacceptable.
So, we polled 2,347 physicians in the United States and abroad and asked them about their sniffling, sneezing, cold, flu, and fever symptoms, and, of course, COVID. Results were split about 50-50 among male and female physicians. The poll ran from Sept. 28 through Oct. 11.
Coming to work sick
It’s no surprise that the majority of physicians who were polled (85%) have come to work sick in 2022. In the last prepandemic year (2019), about 70% came to work feeling sick one to five times, and 13% worked while sick six to ten times.
When asked about the symptoms that they’ve previously come to work with, 48% of U.S. physicians said multiple symptoms. They gave high marks for runny nose, cough, congestion, and sore throat. Only 27% have worked with a fever, 22% have worked with other symptoms, and 7% have worked with both strep throat and COVID.
“My workplace, especially in the COVID years, accommodates persons who honestly do not feel well enough to report. Sooner or later, everyone covers for someone else who has to be out,” says Kenneth Abbott, MD, an oncologist in Maryland.
The culture of working while sick
Why doctors come to work when they’re sick is complicated. The overwhelming majority of U.S. respondents cited professional obligations; 73% noted that they feel a professional obligation to their patients, and 72% feel a professional obligation to their co-workers. Half of the polled U.S. physicians said they didn’t feel bad enough to stay home, while 48% said they had too much work to do to stay home.
Some 45% said the expectation at their workplace is to come to work unless seriously ill; 43% had too many patients to see; and 18% didn’t think they were contagious when they headed to work sick. Unfortunately, 15% chose to work while sick because otherwise they would lose pay.
In light of these responses, it’s not surprising that 93% reported they’d seen other medical professionals working when sick.
“My schedule is almost always booked weeks in advance. If someone misses or has to cancel their appointment, they typically have 2-4 weeks to wait to get back in. If I was sick and a full day of patients (or God forbid more than a day) had to be canceled because I called in, it’s so much more work when I return,” says Caitlin Briggs, MD, a psychiatrist in Lexington, Ky.
Doctors’ workplace sick day policy
Most employees’ benefits allow at least a few sick days, but doctors who treat society’s ill patients don’t seem to stay home from work when they’re suffering. So, we asked physicians, official policy aside, whether they thought going to work sick was expected in their workplace. The majority (76%) said yes, while 24% said no.
“Unless I’m dying or extremely contagious, I usually work. At least now, I have the telehealth option. Not saying any of this is right, but it’s the reality we deal with and the choice we must make,” says Dr. Briggs.
Additionally, 58% of polled physicians said their workplace did not have a clearly defined policy against coming to work sick, while 20% said theirs did, and 22% weren’t sure.
“The first thing I heard on the subject as a medical student was that sick people come to the hospital, so if you’re sick, then you come to the hospital too ... to work. If you can’t work, then you will be admitted. Another aphorism was from Churchill, that ‘most of the world’s work is done by people who don’t feel very well,’ ” says Paul Andreason, MD, a psychiatrist in Bethesda, Md.
Working in the time of COVID
Working while ill during ordinary times is one thing, but what about working in the time of COVID? Has the pandemic changed the culture of coming to work sick because medical facilities, such as doctor’s offices and hospitals, don’t want their staff coming in when they have COVID?
Surprisingly, when we asked physicians whether the pandemic has made it more or less acceptable to come to work sick, only 61% thought COVID has made it less acceptable to work while sick, while 16% thought it made it more acceptable, and 23% said there’s no change.
“I draw the line at fevers/chills, feeling like you’ve just been run over, or significant enteritis,” says Dr. Abbott. “Also, if I have to take palliative meds that interfere with alertness, I’m not doing my patients any favors.”
While a minority of physicians may call in sick, most still suffer through their sneezing, coughing, chills, and fever while seeing patients as usual.
A version of this article first appeared on Medscape.com.
The reasons are likely as varied as, “you weren’t feeling bad enough to miss work,” “you couldn’t afford to miss pay,” “you had too many patients to see,” or “too much work to do.”
In Medscape’s Employed Physicians Report: Loving the Focus, Hating the Bureaucracy, 61% of physicians reported that they sometimes or often come to work sick. Only 2% of respondents said they never come to work unwell.
Medscape wanted to know more about how often you call in sick, how often you come to work feeling unwell, what symptoms you have, and the dogma of your workplace culture regarding sick days. Not to mention the brutal ethos that starts in medical school, in which calling in sick shows weakness or is unacceptable.
So, we polled 2,347 physicians in the United States and abroad and asked them about their sniffling, sneezing, cold, flu, and fever symptoms, and, of course, COVID. Results were split about 50-50 among male and female physicians. The poll ran from Sept. 28 through Oct. 11.
Coming to work sick
It’s no surprise that the majority of physicians who were polled (85%) have come to work sick in 2022. In the last prepandemic year (2019), about 70% came to work feeling sick one to five times, and 13% worked while sick six to ten times.
When asked about the symptoms that they’ve previously come to work with, 48% of U.S. physicians said multiple symptoms. They gave high marks for runny nose, cough, congestion, and sore throat. Only 27% have worked with a fever, 22% have worked with other symptoms, and 7% have worked with both strep throat and COVID.
“My workplace, especially in the COVID years, accommodates persons who honestly do not feel well enough to report. Sooner or later, everyone covers for someone else who has to be out,” says Kenneth Abbott, MD, an oncologist in Maryland.
The culture of working while sick
Why doctors come to work when they’re sick is complicated. The overwhelming majority of U.S. respondents cited professional obligations; 73% noted that they feel a professional obligation to their patients, and 72% feel a professional obligation to their co-workers. Half of the polled U.S. physicians said they didn’t feel bad enough to stay home, while 48% said they had too much work to do to stay home.
Some 45% said the expectation at their workplace is to come to work unless seriously ill; 43% had too many patients to see; and 18% didn’t think they were contagious when they headed to work sick. Unfortunately, 15% chose to work while sick because otherwise they would lose pay.
In light of these responses, it’s not surprising that 93% reported they’d seen other medical professionals working when sick.
“My schedule is almost always booked weeks in advance. If someone misses or has to cancel their appointment, they typically have 2-4 weeks to wait to get back in. If I was sick and a full day of patients (or God forbid more than a day) had to be canceled because I called in, it’s so much more work when I return,” says Caitlin Briggs, MD, a psychiatrist in Lexington, Ky.
Doctors’ workplace sick day policy
Most employees’ benefits allow at least a few sick days, but doctors who treat society’s ill patients don’t seem to stay home from work when they’re suffering. So, we asked physicians, official policy aside, whether they thought going to work sick was expected in their workplace. The majority (76%) said yes, while 24% said no.
“Unless I’m dying or extremely contagious, I usually work. At least now, I have the telehealth option. Not saying any of this is right, but it’s the reality we deal with and the choice we must make,” says Dr. Briggs.
Additionally, 58% of polled physicians said their workplace did not have a clearly defined policy against coming to work sick, while 20% said theirs did, and 22% weren’t sure.
“The first thing I heard on the subject as a medical student was that sick people come to the hospital, so if you’re sick, then you come to the hospital too ... to work. If you can’t work, then you will be admitted. Another aphorism was from Churchill, that ‘most of the world’s work is done by people who don’t feel very well,’ ” says Paul Andreason, MD, a psychiatrist in Bethesda, Md.
Working in the time of COVID
Working while ill during ordinary times is one thing, but what about working in the time of COVID? Has the pandemic changed the culture of coming to work sick because medical facilities, such as doctor’s offices and hospitals, don’t want their staff coming in when they have COVID?
Surprisingly, when we asked physicians whether the pandemic has made it more or less acceptable to come to work sick, only 61% thought COVID has made it less acceptable to work while sick, while 16% thought it made it more acceptable, and 23% said there’s no change.
“I draw the line at fevers/chills, feeling like you’ve just been run over, or significant enteritis,” says Dr. Abbott. “Also, if I have to take palliative meds that interfere with alertness, I’m not doing my patients any favors.”
While a minority of physicians may call in sick, most still suffer through their sneezing, coughing, chills, and fever while seeing patients as usual.
A version of this article first appeared on Medscape.com.
Mid-October flulike illness cases higher than past 5 years
Outpatient visits for influenzalike illness (ILI), which includes influenza, SARS-CoV-2, and RSV, were higher after 3 weeks than for any of the previous five flu seasons: 3.3% of visits reported through the CDC’s Outpatient Influenza-like Illness Surveillance Network involved ILI as of Oct. 22. The highest comparable rate in the previous 5 years was the 1.9% recorded in late October of 2021, shortly after the definition of ILI was changed to also include illnesses other than influenza.
This season’s higher flu activity is in contrast to the previous two, which were unusually mild. The change, however, is not unexpected, as William Schaffner, MD, an infectious disease expert and professor of preventive medicine at Vanderbilt University, recently told CNN.
“Here we are in the middle of October – not the middle of November – we’re already seeing scattered influenza cases, even hospitalized influenza cases, around the country,” he said. “So we know that this virus is now spreading out in the community already. It’s gathering speed already. It looks to me to be about a month early.”
One indication of the mildness of the previous two flu seasons was the number of deaths, both pediatric and overall. Influenza-associated pediatric deaths had averaged about 110 per season over the previous eight seasons, compared with just 1 for 2020-2021 and 43 in 2021-2022. Overall flu deaths never reached 1% of all weekly deaths for either season, well below baseline levels for the flu, which range from 5.5% to 6.8%, CDC data show.
Other indicators of early severity
This season’s early rise in viral activity also can be seen in hospitalizations. The cumulative rate of flu-related admissions was 1.5 per 100,000 population as of Oct. 22, higher than the rate observed in the comparable week of previous seasons going back to 2010-2011, according to the CDC’s Influenza Hospitalization Surveillance Network.
A look at state reports of ILI outpatient visit rates shows that the District of Columbia and South Carolina are already in the very high range of the CDC’s severity scale, while 11 states are in the high range. Again going back to 2010-2011, no jurisdiction has ever been in the very high range this early in the season, based on data from the Outpatient Influenza-like Illness Surveillance Network.
Outpatient visits for influenzalike illness (ILI), which includes influenza, SARS-CoV-2, and RSV, were higher after 3 weeks than for any of the previous five flu seasons: 3.3% of visits reported through the CDC’s Outpatient Influenza-like Illness Surveillance Network involved ILI as of Oct. 22. The highest comparable rate in the previous 5 years was the 1.9% recorded in late October of 2021, shortly after the definition of ILI was changed to also include illnesses other than influenza.
This season’s higher flu activity is in contrast to the previous two, which were unusually mild. The change, however, is not unexpected, as William Schaffner, MD, an infectious disease expert and professor of preventive medicine at Vanderbilt University, recently told CNN.
“Here we are in the middle of October – not the middle of November – we’re already seeing scattered influenza cases, even hospitalized influenza cases, around the country,” he said. “So we know that this virus is now spreading out in the community already. It’s gathering speed already. It looks to me to be about a month early.”
One indication of the mildness of the previous two flu seasons was the number of deaths, both pediatric and overall. Influenza-associated pediatric deaths had averaged about 110 per season over the previous eight seasons, compared with just 1 for 2020-2021 and 43 in 2021-2022. Overall flu deaths never reached 1% of all weekly deaths for either season, well below baseline levels for the flu, which range from 5.5% to 6.8%, CDC data show.
Other indicators of early severity
This season’s early rise in viral activity also can be seen in hospitalizations. The cumulative rate of flu-related admissions was 1.5 per 100,000 population as of Oct. 22, higher than the rate observed in the comparable week of previous seasons going back to 2010-2011, according to the CDC’s Influenza Hospitalization Surveillance Network.
A look at state reports of ILI outpatient visit rates shows that the District of Columbia and South Carolina are already in the very high range of the CDC’s severity scale, while 11 states are in the high range. Again going back to 2010-2011, no jurisdiction has ever been in the very high range this early in the season, based on data from the Outpatient Influenza-like Illness Surveillance Network.
Outpatient visits for influenzalike illness (ILI), which includes influenza, SARS-CoV-2, and RSV, were higher after 3 weeks than for any of the previous five flu seasons: 3.3% of visits reported through the CDC’s Outpatient Influenza-like Illness Surveillance Network involved ILI as of Oct. 22. The highest comparable rate in the previous 5 years was the 1.9% recorded in late October of 2021, shortly after the definition of ILI was changed to also include illnesses other than influenza.
This season’s higher flu activity is in contrast to the previous two, which were unusually mild. The change, however, is not unexpected, as William Schaffner, MD, an infectious disease expert and professor of preventive medicine at Vanderbilt University, recently told CNN.
“Here we are in the middle of October – not the middle of November – we’re already seeing scattered influenza cases, even hospitalized influenza cases, around the country,” he said. “So we know that this virus is now spreading out in the community already. It’s gathering speed already. It looks to me to be about a month early.”
One indication of the mildness of the previous two flu seasons was the number of deaths, both pediatric and overall. Influenza-associated pediatric deaths had averaged about 110 per season over the previous eight seasons, compared with just 1 for 2020-2021 and 43 in 2021-2022. Overall flu deaths never reached 1% of all weekly deaths for either season, well below baseline levels for the flu, which range from 5.5% to 6.8%, CDC data show.
Other indicators of early severity
This season’s early rise in viral activity also can be seen in hospitalizations. The cumulative rate of flu-related admissions was 1.5 per 100,000 population as of Oct. 22, higher than the rate observed in the comparable week of previous seasons going back to 2010-2011, according to the CDC’s Influenza Hospitalization Surveillance Network.
A look at state reports of ILI outpatient visit rates shows that the District of Columbia and South Carolina are already in the very high range of the CDC’s severity scale, while 11 states are in the high range. Again going back to 2010-2011, no jurisdiction has ever been in the very high range this early in the season, based on data from the Outpatient Influenza-like Illness Surveillance Network.
You and the skeptical patient: Who’s the doctor here?
“I spoke to him on many occasions about the dangers of COVID, but he just didn’t believe me,” said Dr. Hood, an internist in Lexington, Ky. “He just didn’t give me enough time to help him. He waited to let me know he was ill with COVID and took days to pick up the medicine. Unfortunately, he then passed away.”
The rise of the skeptical patient
It can be extremely frustrating for doctors when patients question or disbelieve their physician’s medical advice and explanations. And many physicians resent the amount of time they spend trying to explain or make their case, especially during a busy day. But patients’ skepticism about the validity of some treatments seems to be increasing.
“Patients are now more likely to have their own medical explanation for their complaint than they used to, and that can be bad for their health,” Dr. Hood said.
Dr. Hood sees medical cynicism as part of Americans’ growing distrust of experts, leveraged by easy access to the internet. “When people Google, they tend to look for support of their opinions, rather than arrive at a fully educated decision.”
Only about half of patients believe their physicians “provide fair and accurate treatment information all or most of the time,” according to a 2019 survey by the Pew Research Center.
Patients’ distrust has become more obvious during the COVID-19 pandemic, said John Schumann, MD, an internist with Oak Street Health, a practice with more than 500 physicians and other providers in 20 states, treating almost exclusively Medicare patients.
“The skeptics became more entrenched during the pandemic,” said Dr. Schumann, who is based in Tulsa, Okla. “They may think the COVID vaccines were approved too quickly, or believe the pandemic itself is a hoax.”
“There’s a lot of antiscience rhetoric now,” Dr. Schumann added. “I’d say about half of my patients are comfortable with science-based decisions and the other half are not.”
What are patients mistrustful about?
Patients’ suspicions of certain therapies began long before the pandemic. In dermatology, for example, some patients refuse to take topical steroids, said Steven R. Feldman, MD, a dermatologist in Winston-Salem, N.C.
“Their distrust is usually based on anecdotal stories they read about,” he noted. “Patients in other specialties are dead set against vaccinations.”
In addition to refusing treatments and inoculations, some patients ask for questionable regimens mentioned in the news. “Some patients have demanded hydroxychloroquine or Noromectin, drugs that are unproven in the treatment of COVID,” Dr. Schumann said. “We refuse to prescribe them.”
Dr. Hood said patients’ reluctance to follow medical advice can often be based on cost. “I have a patient who was more willing to save $20 than to save his life. But when the progression of his test results fit my predictions, he became more willing to take treatments. I had to wait for the opportune moment to convince him.”
Many naysayer patients keep their views to themselves, and physicians may be unaware that the patients are stonewalling. A 2006 study estimated that about 10%-16% of primary care patients actively resist medical authority.
Dr. Schumann cited patients who don’t want to hear an upsetting diagnosis. “Some patients might refuse to take a biopsy to see if they have cancer because they don’t want to know,” he said. “In many cases, they simply won’t get the biopsy and won’t tell the doctor that they didn’t.”
Sometimes skeptics’ arguments have merit
Some patients’ concerns can be valid, such as when they refuse to go on statins, said Zain Hakeem, DO, a physician in Austin, Tex.
“In some cases, I feel that statins are not necessary,” he said. “The science on statins for primary prevention is not strong, although they should be used for exceedingly high-risk patients.”
Certain patients, especially those with chronic conditions, do a great deal of research, using legitimate sources on the Web, and their research is well supported.
However, these patients can be overconfident in their conclusions. Several studies have shown that with just a little experience, people can replace beginners’ caution with a false sense of competence.
For example, “Patients may not weigh the risks correctly,” Dr. Hakeem said. “They can be more concerned about the risk of having their colon perforated during a colonoscopy, while the risk of cancer if they don’t have a colonoscopy is much higher.”
Some highly successful people may be more likely to trust their own medical instincts. When Steve Jobs, the founder of Apple, was diagnosed with pancreatic cancer in 2003, he put off surgery for 9 months while he tried to cure his disease with a vegan diet, acupuncture, herbs, bowel cleansings, and other remedies he read about. He died in 2011. Some experts believe that delay hastened his death.
Of course, not all physicians’ diagnoses or treatments are correct. One study indicated doctors’ diagnostic error rate could be as high as 15%. And just as patients can be overconfident in their conclusions, so can doctors. Another study found that physicians’ stated confidence in their diagnosis was only slightly affected by the inaccuracy of that diagnosis or the difficulty of the case.
Best ways to deal with cynical patients
Patients’ skepticism can frustrate doctors, reduce the efficiency of care delivery, and interfere with recovery. What can doctors do to deal with these problems?
1. Build the patient’s trust in you. “Getting patients to adhere to your advice involves making sure they feel they have a caring doctor whom they trust,” Dr. Feldman said.
“I want to show patients that I am entirely focused on them,” he added. “For example, I may rush to the door of the exam room from my last appointment, but I open the door very slowly and deliberately, because I want the patient to see that I won’t hurry with them.”
2. Spend time with the patient. Familiarity builds trust. Dr. Schumann said doctors at Oak Street Health see their patients an average of six to eight times a year, an unusually high number. “The more patients see their physicians, the more likely they are to trust them.”
3. Keep up to date. “I make sure I’m up to date with the literature, and I try to present a truthful message,” Dr. Hood said. “For instance, my research showed that inflammation played a strong role in developing complications from COVID, so I wrote a detailed treatment protocol aimed at the inflammation and the immune response, which has been very effective.”
4. Confront patients tactfully. Patients who do research on the Web don’t want to be scolded, Dr. Feldman said. In fact, he praises them, even if he doesn’t agree with their findings. “I might say: ‘What a relief to finally find patients who’ve taken the time to educate themselves before coming here.’ ”
Dr. Feldman is careful not to dispute patients’ conclusions. “Debating the issues is not an effective approach to get patients to trust you. The last thing you want to tell a patient is: ‘Listen to me! I’m an expert.’ People just dig in.”
However, it does help to give patients feedback. “I’m a big fan of patients arguing with me,” Dr. Hakeem said. “It means you can straighten out misunderstandings and improve decision-making.”
5. Explain your reasoning. “You need to communicate clearly and show them your thinking,” Dr. Hood said. “For instance, I’ll explain why a patient has a strong risk for heart attack.”
6. Acknowledge uncertainties. “The doctor may present the science as far more certain than it is,” Dr. Hakeem said. “If you don’t acknowledge the uncertainties, you could break the patient’s trust in you.”
7. Don’t use a lot of numbers. “Data is not a good tool to convince patients,” Dr. Feldman said. “The human brain isn’t designed to work that way.”
If you want to use numbers to show clinical risk, Dr. Hakeem advisd using natural frequencies, such as 10 out of 10,000, which is less confusing to the patient than the equivalent percentage of 0.1%.
It can be helpful to refer to familiar concepts. One way to understand a risk is to compare it with risks in daily life, such as the dangers of driving or falling in the shower, Dr. Hakeem added.
Dr. Feldman often refers to another person’s experience when presenting his medical advice. “I might say to the patient: ‘You remind me of another patient I had. They were sitting in the same chair you’re sitting in. They did really well on this drug, and I think it’s probably the best choice for you, too.’ ”
8. Adopt shared decision-making. This approach involves empowering the patient to become an equal partner in medical decisions. The patient is given information through portals and is encouraged to do research. Critics, however, say that most patients don’t want this degree of empowerment and would rather depend on the doctor’s advice.
Conclusion
It’s often impossible to get through to a skeptical patient, which can be disheartening for doctors. “Physicians want to do what is best for the patient, so when the patient doesn’t listen, they may take it personally,” Dr. Hood said. “But you always have to remember, the patient is the one with disease, and it’s up to the patient to open the door.”
Still, some skeptical patients ultimately change their minds. Dr. Schumann said patients who initially declined the COVID vaccine eventually decided to get it. “It often took them more than a year. but it’s never too late.”
A version of this article first appeared on Medscape.com.
“I spoke to him on many occasions about the dangers of COVID, but he just didn’t believe me,” said Dr. Hood, an internist in Lexington, Ky. “He just didn’t give me enough time to help him. He waited to let me know he was ill with COVID and took days to pick up the medicine. Unfortunately, he then passed away.”
The rise of the skeptical patient
It can be extremely frustrating for doctors when patients question or disbelieve their physician’s medical advice and explanations. And many physicians resent the amount of time they spend trying to explain or make their case, especially during a busy day. But patients’ skepticism about the validity of some treatments seems to be increasing.
“Patients are now more likely to have their own medical explanation for their complaint than they used to, and that can be bad for their health,” Dr. Hood said.
Dr. Hood sees medical cynicism as part of Americans’ growing distrust of experts, leveraged by easy access to the internet. “When people Google, they tend to look for support of their opinions, rather than arrive at a fully educated decision.”
Only about half of patients believe their physicians “provide fair and accurate treatment information all or most of the time,” according to a 2019 survey by the Pew Research Center.
Patients’ distrust has become more obvious during the COVID-19 pandemic, said John Schumann, MD, an internist with Oak Street Health, a practice with more than 500 physicians and other providers in 20 states, treating almost exclusively Medicare patients.
“The skeptics became more entrenched during the pandemic,” said Dr. Schumann, who is based in Tulsa, Okla. “They may think the COVID vaccines were approved too quickly, or believe the pandemic itself is a hoax.”
“There’s a lot of antiscience rhetoric now,” Dr. Schumann added. “I’d say about half of my patients are comfortable with science-based decisions and the other half are not.”
What are patients mistrustful about?
Patients’ suspicions of certain therapies began long before the pandemic. In dermatology, for example, some patients refuse to take topical steroids, said Steven R. Feldman, MD, a dermatologist in Winston-Salem, N.C.
“Their distrust is usually based on anecdotal stories they read about,” he noted. “Patients in other specialties are dead set against vaccinations.”
In addition to refusing treatments and inoculations, some patients ask for questionable regimens mentioned in the news. “Some patients have demanded hydroxychloroquine or Noromectin, drugs that are unproven in the treatment of COVID,” Dr. Schumann said. “We refuse to prescribe them.”
Dr. Hood said patients’ reluctance to follow medical advice can often be based on cost. “I have a patient who was more willing to save $20 than to save his life. But when the progression of his test results fit my predictions, he became more willing to take treatments. I had to wait for the opportune moment to convince him.”
Many naysayer patients keep their views to themselves, and physicians may be unaware that the patients are stonewalling. A 2006 study estimated that about 10%-16% of primary care patients actively resist medical authority.
Dr. Schumann cited patients who don’t want to hear an upsetting diagnosis. “Some patients might refuse to take a biopsy to see if they have cancer because they don’t want to know,” he said. “In many cases, they simply won’t get the biopsy and won’t tell the doctor that they didn’t.”
Sometimes skeptics’ arguments have merit
Some patients’ concerns can be valid, such as when they refuse to go on statins, said Zain Hakeem, DO, a physician in Austin, Tex.
“In some cases, I feel that statins are not necessary,” he said. “The science on statins for primary prevention is not strong, although they should be used for exceedingly high-risk patients.”
Certain patients, especially those with chronic conditions, do a great deal of research, using legitimate sources on the Web, and their research is well supported.
However, these patients can be overconfident in their conclusions. Several studies have shown that with just a little experience, people can replace beginners’ caution with a false sense of competence.
For example, “Patients may not weigh the risks correctly,” Dr. Hakeem said. “They can be more concerned about the risk of having their colon perforated during a colonoscopy, while the risk of cancer if they don’t have a colonoscopy is much higher.”
Some highly successful people may be more likely to trust their own medical instincts. When Steve Jobs, the founder of Apple, was diagnosed with pancreatic cancer in 2003, he put off surgery for 9 months while he tried to cure his disease with a vegan diet, acupuncture, herbs, bowel cleansings, and other remedies he read about. He died in 2011. Some experts believe that delay hastened his death.
Of course, not all physicians’ diagnoses or treatments are correct. One study indicated doctors’ diagnostic error rate could be as high as 15%. And just as patients can be overconfident in their conclusions, so can doctors. Another study found that physicians’ stated confidence in their diagnosis was only slightly affected by the inaccuracy of that diagnosis or the difficulty of the case.
Best ways to deal with cynical patients
Patients’ skepticism can frustrate doctors, reduce the efficiency of care delivery, and interfere with recovery. What can doctors do to deal with these problems?
1. Build the patient’s trust in you. “Getting patients to adhere to your advice involves making sure they feel they have a caring doctor whom they trust,” Dr. Feldman said.
“I want to show patients that I am entirely focused on them,” he added. “For example, I may rush to the door of the exam room from my last appointment, but I open the door very slowly and deliberately, because I want the patient to see that I won’t hurry with them.”
2. Spend time with the patient. Familiarity builds trust. Dr. Schumann said doctors at Oak Street Health see their patients an average of six to eight times a year, an unusually high number. “The more patients see their physicians, the more likely they are to trust them.”
3. Keep up to date. “I make sure I’m up to date with the literature, and I try to present a truthful message,” Dr. Hood said. “For instance, my research showed that inflammation played a strong role in developing complications from COVID, so I wrote a detailed treatment protocol aimed at the inflammation and the immune response, which has been very effective.”
4. Confront patients tactfully. Patients who do research on the Web don’t want to be scolded, Dr. Feldman said. In fact, he praises them, even if he doesn’t agree with their findings. “I might say: ‘What a relief to finally find patients who’ve taken the time to educate themselves before coming here.’ ”
Dr. Feldman is careful not to dispute patients’ conclusions. “Debating the issues is not an effective approach to get patients to trust you. The last thing you want to tell a patient is: ‘Listen to me! I’m an expert.’ People just dig in.”
However, it does help to give patients feedback. “I’m a big fan of patients arguing with me,” Dr. Hakeem said. “It means you can straighten out misunderstandings and improve decision-making.”
5. Explain your reasoning. “You need to communicate clearly and show them your thinking,” Dr. Hood said. “For instance, I’ll explain why a patient has a strong risk for heart attack.”
6. Acknowledge uncertainties. “The doctor may present the science as far more certain than it is,” Dr. Hakeem said. “If you don’t acknowledge the uncertainties, you could break the patient’s trust in you.”
7. Don’t use a lot of numbers. “Data is not a good tool to convince patients,” Dr. Feldman said. “The human brain isn’t designed to work that way.”
If you want to use numbers to show clinical risk, Dr. Hakeem advisd using natural frequencies, such as 10 out of 10,000, which is less confusing to the patient than the equivalent percentage of 0.1%.
It can be helpful to refer to familiar concepts. One way to understand a risk is to compare it with risks in daily life, such as the dangers of driving or falling in the shower, Dr. Hakeem added.
Dr. Feldman often refers to another person’s experience when presenting his medical advice. “I might say to the patient: ‘You remind me of another patient I had. They were sitting in the same chair you’re sitting in. They did really well on this drug, and I think it’s probably the best choice for you, too.’ ”
8. Adopt shared decision-making. This approach involves empowering the patient to become an equal partner in medical decisions. The patient is given information through portals and is encouraged to do research. Critics, however, say that most patients don’t want this degree of empowerment and would rather depend on the doctor’s advice.
Conclusion
It’s often impossible to get through to a skeptical patient, which can be disheartening for doctors. “Physicians want to do what is best for the patient, so when the patient doesn’t listen, they may take it personally,” Dr. Hood said. “But you always have to remember, the patient is the one with disease, and it’s up to the patient to open the door.”
Still, some skeptical patients ultimately change their minds. Dr. Schumann said patients who initially declined the COVID vaccine eventually decided to get it. “It often took them more than a year. but it’s never too late.”
A version of this article first appeared on Medscape.com.
“I spoke to him on many occasions about the dangers of COVID, but he just didn’t believe me,” said Dr. Hood, an internist in Lexington, Ky. “He just didn’t give me enough time to help him. He waited to let me know he was ill with COVID and took days to pick up the medicine. Unfortunately, he then passed away.”
The rise of the skeptical patient
It can be extremely frustrating for doctors when patients question or disbelieve their physician’s medical advice and explanations. And many physicians resent the amount of time they spend trying to explain or make their case, especially during a busy day. But patients’ skepticism about the validity of some treatments seems to be increasing.
“Patients are now more likely to have their own medical explanation for their complaint than they used to, and that can be bad for their health,” Dr. Hood said.
Dr. Hood sees medical cynicism as part of Americans’ growing distrust of experts, leveraged by easy access to the internet. “When people Google, they tend to look for support of their opinions, rather than arrive at a fully educated decision.”
Only about half of patients believe their physicians “provide fair and accurate treatment information all or most of the time,” according to a 2019 survey by the Pew Research Center.
Patients’ distrust has become more obvious during the COVID-19 pandemic, said John Schumann, MD, an internist with Oak Street Health, a practice with more than 500 physicians and other providers in 20 states, treating almost exclusively Medicare patients.
“The skeptics became more entrenched during the pandemic,” said Dr. Schumann, who is based in Tulsa, Okla. “They may think the COVID vaccines were approved too quickly, or believe the pandemic itself is a hoax.”
“There’s a lot of antiscience rhetoric now,” Dr. Schumann added. “I’d say about half of my patients are comfortable with science-based decisions and the other half are not.”
What are patients mistrustful about?
Patients’ suspicions of certain therapies began long before the pandemic. In dermatology, for example, some patients refuse to take topical steroids, said Steven R. Feldman, MD, a dermatologist in Winston-Salem, N.C.
“Their distrust is usually based on anecdotal stories they read about,” he noted. “Patients in other specialties are dead set against vaccinations.”
In addition to refusing treatments and inoculations, some patients ask for questionable regimens mentioned in the news. “Some patients have demanded hydroxychloroquine or Noromectin, drugs that are unproven in the treatment of COVID,” Dr. Schumann said. “We refuse to prescribe them.”
Dr. Hood said patients’ reluctance to follow medical advice can often be based on cost. “I have a patient who was more willing to save $20 than to save his life. But when the progression of his test results fit my predictions, he became more willing to take treatments. I had to wait for the opportune moment to convince him.”
Many naysayer patients keep their views to themselves, and physicians may be unaware that the patients are stonewalling. A 2006 study estimated that about 10%-16% of primary care patients actively resist medical authority.
Dr. Schumann cited patients who don’t want to hear an upsetting diagnosis. “Some patients might refuse to take a biopsy to see if they have cancer because they don’t want to know,” he said. “In many cases, they simply won’t get the biopsy and won’t tell the doctor that they didn’t.”
Sometimes skeptics’ arguments have merit
Some patients’ concerns can be valid, such as when they refuse to go on statins, said Zain Hakeem, DO, a physician in Austin, Tex.
“In some cases, I feel that statins are not necessary,” he said. “The science on statins for primary prevention is not strong, although they should be used for exceedingly high-risk patients.”
Certain patients, especially those with chronic conditions, do a great deal of research, using legitimate sources on the Web, and their research is well supported.
However, these patients can be overconfident in their conclusions. Several studies have shown that with just a little experience, people can replace beginners’ caution with a false sense of competence.
For example, “Patients may not weigh the risks correctly,” Dr. Hakeem said. “They can be more concerned about the risk of having their colon perforated during a colonoscopy, while the risk of cancer if they don’t have a colonoscopy is much higher.”
Some highly successful people may be more likely to trust their own medical instincts. When Steve Jobs, the founder of Apple, was diagnosed with pancreatic cancer in 2003, he put off surgery for 9 months while he tried to cure his disease with a vegan diet, acupuncture, herbs, bowel cleansings, and other remedies he read about. He died in 2011. Some experts believe that delay hastened his death.
Of course, not all physicians’ diagnoses or treatments are correct. One study indicated doctors’ diagnostic error rate could be as high as 15%. And just as patients can be overconfident in their conclusions, so can doctors. Another study found that physicians’ stated confidence in their diagnosis was only slightly affected by the inaccuracy of that diagnosis or the difficulty of the case.
Best ways to deal with cynical patients
Patients’ skepticism can frustrate doctors, reduce the efficiency of care delivery, and interfere with recovery. What can doctors do to deal with these problems?
1. Build the patient’s trust in you. “Getting patients to adhere to your advice involves making sure they feel they have a caring doctor whom they trust,” Dr. Feldman said.
“I want to show patients that I am entirely focused on them,” he added. “For example, I may rush to the door of the exam room from my last appointment, but I open the door very slowly and deliberately, because I want the patient to see that I won’t hurry with them.”
2. Spend time with the patient. Familiarity builds trust. Dr. Schumann said doctors at Oak Street Health see their patients an average of six to eight times a year, an unusually high number. “The more patients see their physicians, the more likely they are to trust them.”
3. Keep up to date. “I make sure I’m up to date with the literature, and I try to present a truthful message,” Dr. Hood said. “For instance, my research showed that inflammation played a strong role in developing complications from COVID, so I wrote a detailed treatment protocol aimed at the inflammation and the immune response, which has been very effective.”
4. Confront patients tactfully. Patients who do research on the Web don’t want to be scolded, Dr. Feldman said. In fact, he praises them, even if he doesn’t agree with their findings. “I might say: ‘What a relief to finally find patients who’ve taken the time to educate themselves before coming here.’ ”
Dr. Feldman is careful not to dispute patients’ conclusions. “Debating the issues is not an effective approach to get patients to trust you. The last thing you want to tell a patient is: ‘Listen to me! I’m an expert.’ People just dig in.”
However, it does help to give patients feedback. “I’m a big fan of patients arguing with me,” Dr. Hakeem said. “It means you can straighten out misunderstandings and improve decision-making.”
5. Explain your reasoning. “You need to communicate clearly and show them your thinking,” Dr. Hood said. “For instance, I’ll explain why a patient has a strong risk for heart attack.”
6. Acknowledge uncertainties. “The doctor may present the science as far more certain than it is,” Dr. Hakeem said. “If you don’t acknowledge the uncertainties, you could break the patient’s trust in you.”
7. Don’t use a lot of numbers. “Data is not a good tool to convince patients,” Dr. Feldman said. “The human brain isn’t designed to work that way.”
If you want to use numbers to show clinical risk, Dr. Hakeem advisd using natural frequencies, such as 10 out of 10,000, which is less confusing to the patient than the equivalent percentage of 0.1%.
It can be helpful to refer to familiar concepts. One way to understand a risk is to compare it with risks in daily life, such as the dangers of driving or falling in the shower, Dr. Hakeem added.
Dr. Feldman often refers to another person’s experience when presenting his medical advice. “I might say to the patient: ‘You remind me of another patient I had. They were sitting in the same chair you’re sitting in. They did really well on this drug, and I think it’s probably the best choice for you, too.’ ”
8. Adopt shared decision-making. This approach involves empowering the patient to become an equal partner in medical decisions. The patient is given information through portals and is encouraged to do research. Critics, however, say that most patients don’t want this degree of empowerment and would rather depend on the doctor’s advice.
Conclusion
It’s often impossible to get through to a skeptical patient, which can be disheartening for doctors. “Physicians want to do what is best for the patient, so when the patient doesn’t listen, they may take it personally,” Dr. Hood said. “But you always have to remember, the patient is the one with disease, and it’s up to the patient to open the door.”
Still, some skeptical patients ultimately change their minds. Dr. Schumann said patients who initially declined the COVID vaccine eventually decided to get it. “It often took them more than a year. but it’s never too late.”
A version of this article first appeared on Medscape.com.
The marked contrast in pandemic outcomes between Japan and the United States
This article was originally published Oct. 8 on Medscape Editor-In-Chief Eric Topol’s “Ground Truths” column on Substack.
Over time it has the least cumulative deaths per capita of any major country in the world. That’s without a zero-Covid policy or any national lockdowns, which is why I have not included China as a comparator.
Before we get into that data, let’s take a look at the age pyramids for Japan and the United States. The No. 1 risk factor for death from COVID-19 is advanced age, and you can see that in Japan about 25% of the population is age 65 and older, whereas in the United States that proportion is substantially reduced at 15%. Sure there are differences in comorbidities such as obesity and diabetes, but there is also the trade-off of a much higher population density in Japan.
Besides masks, which were distributed early on by the government to the population in Japan, there was the “Avoid the 3Cs” cluster-busting strategy, widely disseminated in the spring of 2020, leveraging Pareto’s 80-20 principle, long before there were any vaccines available. For a good portion of the pandemic, the Ministry of Foreign Affairs of Japan maintained a strict policy for border control, which while hard to quantify, may certainly have contributed to its success.
Besides these factors, once vaccines became available, Japan got the population with the primary series to 83% rapidly, even after getting a late start by many months compared with the United States, which has peaked at 68%. That’s a big gap.
But that gap got much worse when it came to boosters. Ninety-five percent of Japanese eligible compared with 40.8% of Americans have had a booster shot. Of note, that 95% in Japan pertains to the whole population. In the United States the percentage of people age 65 and older who have had two boosters is currently only 42%. I’ve previously reviewed the important lifesaving impact of two boosters among people age 65 and older from five independent studies during Omicron waves throughout the world.
Now let’s turn to cumulative fatalities in the two countries. There’s a huge, nearly ninefold difference, per capita. Using today’s Covid-19 Dashboard, there are cumulatively 45,533 deaths in Japan and 1,062,560 American deaths. That translates to 1 in 2,758 people in Japan compared with 1 in 315 Americans dying of COVID.
And if we look at excess mortality instead of confirmed COVID deaths, that enormous gap doesn’t change.
Obviously it would be good to have data for other COVID outcomes, such as hospitalizations, ICUs, and Long COVID, but they are not accessible.
Comparing Japan, the country that has fared the best, with the United States, one of the worst pandemic outcome results, leaves us with a sense that Prof Ian MacKay’s “Swiss cheese model” is the best explanation. It’s not just one thing. Masks, consistent evidence-based communication (3Cs) with attention to ventilation and air quality, and the outstanding uptake of vaccines and boosters all contributed to Japan’s success.
There is another factor to add to that model – Paxlovid. Its benefit of reducing hospitalizations and deaths for people over age 65 is unquestionable.
That’s why I had previously modified the Swiss cheese model to add Paxlovid.
But in the United States, where 15% of the population is 65 and older, they account for over 75% of the daily death toll, still in the range of 400 per day. Here, with a very high proportion of people age 65 and older left vulnerable without boosters, or primary vaccines, Paxlovid is only being given to less than 25% of the eligible (age 50+), and less people age 80 and older are getting Paxlovid than those age 45. The reasons that doctors are not prescribing it – worried about interactions for a 5-day course and rebound – are not substantiated.
Bottom line: In the United States we are not protecting our population anywhere near as well as Japan, as grossly evident by the fatalities among people at the highest risk. There needs to be far better uptake of boosters and use of Paxlovid in the age 65+ group, but the need for amped up protection is not at all restricted to this age subgroup. Across all age groups age 18 and over there is an 81% reduction of hospitalizations with two boosters with the most updated CDC data available, through the Omicron BA.5 wave.
No less the previous data through May 2022 showing protection from death across all ages with two boosters
And please don’t forget that around the world, over 20 million lives were saved, just in 2021, the first year of vaccines.
We can learn so much from a model country like Japan. Yes, we need nasal and variant-proof vaccines to effectively deal with the new variants that are already getting legs in places like XBB in Singapore and ones not on the radar yet. But right now we’ve got to do far better for people getting boosters and, when a person age 65 or older gets COVID, Paxlovid. Take a look at the Chris Hayes video segment when he pleaded for Americans to get a booster shot. Every day that vaccine waning of the U.S. population exceeds the small percentage of people who get a booster, our vulnerability increases. If we don’t get that on track, it’s likely going to be a rough winter ahead.
Dr. Topol is director of the Scripps Translational Science Institute in La Jolla, Calif. He has received research grants from the National Institutes of Health and reported conflicts of interest involving Dexcom, Illumina, Molecular Stethoscope, Quest Diagnostics, and Blue Cross Blue Shield Association. A version of this article appeared on Medscape.com.
This article was originally published Oct. 8 on Medscape Editor-In-Chief Eric Topol’s “Ground Truths” column on Substack.
Over time it has the least cumulative deaths per capita of any major country in the world. That’s without a zero-Covid policy or any national lockdowns, which is why I have not included China as a comparator.
Before we get into that data, let’s take a look at the age pyramids for Japan and the United States. The No. 1 risk factor for death from COVID-19 is advanced age, and you can see that in Japan about 25% of the population is age 65 and older, whereas in the United States that proportion is substantially reduced at 15%. Sure there are differences in comorbidities such as obesity and diabetes, but there is also the trade-off of a much higher population density in Japan.
Besides masks, which were distributed early on by the government to the population in Japan, there was the “Avoid the 3Cs” cluster-busting strategy, widely disseminated in the spring of 2020, leveraging Pareto’s 80-20 principle, long before there were any vaccines available. For a good portion of the pandemic, the Ministry of Foreign Affairs of Japan maintained a strict policy for border control, which while hard to quantify, may certainly have contributed to its success.
Besides these factors, once vaccines became available, Japan got the population with the primary series to 83% rapidly, even after getting a late start by many months compared with the United States, which has peaked at 68%. That’s a big gap.
But that gap got much worse when it came to boosters. Ninety-five percent of Japanese eligible compared with 40.8% of Americans have had a booster shot. Of note, that 95% in Japan pertains to the whole population. In the United States the percentage of people age 65 and older who have had two boosters is currently only 42%. I’ve previously reviewed the important lifesaving impact of two boosters among people age 65 and older from five independent studies during Omicron waves throughout the world.
Now let’s turn to cumulative fatalities in the two countries. There’s a huge, nearly ninefold difference, per capita. Using today’s Covid-19 Dashboard, there are cumulatively 45,533 deaths in Japan and 1,062,560 American deaths. That translates to 1 in 2,758 people in Japan compared with 1 in 315 Americans dying of COVID.
And if we look at excess mortality instead of confirmed COVID deaths, that enormous gap doesn’t change.
Obviously it would be good to have data for other COVID outcomes, such as hospitalizations, ICUs, and Long COVID, but they are not accessible.
Comparing Japan, the country that has fared the best, with the United States, one of the worst pandemic outcome results, leaves us with a sense that Prof Ian MacKay’s “Swiss cheese model” is the best explanation. It’s not just one thing. Masks, consistent evidence-based communication (3Cs) with attention to ventilation and air quality, and the outstanding uptake of vaccines and boosters all contributed to Japan’s success.
There is another factor to add to that model – Paxlovid. Its benefit of reducing hospitalizations and deaths for people over age 65 is unquestionable.
That’s why I had previously modified the Swiss cheese model to add Paxlovid.
But in the United States, where 15% of the population is 65 and older, they account for over 75% of the daily death toll, still in the range of 400 per day. Here, with a very high proportion of people age 65 and older left vulnerable without boosters, or primary vaccines, Paxlovid is only being given to less than 25% of the eligible (age 50+), and less people age 80 and older are getting Paxlovid than those age 45. The reasons that doctors are not prescribing it – worried about interactions for a 5-day course and rebound – are not substantiated.
Bottom line: In the United States we are not protecting our population anywhere near as well as Japan, as grossly evident by the fatalities among people at the highest risk. There needs to be far better uptake of boosters and use of Paxlovid in the age 65+ group, but the need for amped up protection is not at all restricted to this age subgroup. Across all age groups age 18 and over there is an 81% reduction of hospitalizations with two boosters with the most updated CDC data available, through the Omicron BA.5 wave.
No less the previous data through May 2022 showing protection from death across all ages with two boosters
And please don’t forget that around the world, over 20 million lives were saved, just in 2021, the first year of vaccines.
We can learn so much from a model country like Japan. Yes, we need nasal and variant-proof vaccines to effectively deal with the new variants that are already getting legs in places like XBB in Singapore and ones not on the radar yet. But right now we’ve got to do far better for people getting boosters and, when a person age 65 or older gets COVID, Paxlovid. Take a look at the Chris Hayes video segment when he pleaded for Americans to get a booster shot. Every day that vaccine waning of the U.S. population exceeds the small percentage of people who get a booster, our vulnerability increases. If we don’t get that on track, it’s likely going to be a rough winter ahead.
Dr. Topol is director of the Scripps Translational Science Institute in La Jolla, Calif. He has received research grants from the National Institutes of Health and reported conflicts of interest involving Dexcom, Illumina, Molecular Stethoscope, Quest Diagnostics, and Blue Cross Blue Shield Association. A version of this article appeared on Medscape.com.
This article was originally published Oct. 8 on Medscape Editor-In-Chief Eric Topol’s “Ground Truths” column on Substack.
Over time it has the least cumulative deaths per capita of any major country in the world. That’s without a zero-Covid policy or any national lockdowns, which is why I have not included China as a comparator.
Before we get into that data, let’s take a look at the age pyramids for Japan and the United States. The No. 1 risk factor for death from COVID-19 is advanced age, and you can see that in Japan about 25% of the population is age 65 and older, whereas in the United States that proportion is substantially reduced at 15%. Sure there are differences in comorbidities such as obesity and diabetes, but there is also the trade-off of a much higher population density in Japan.
Besides masks, which were distributed early on by the government to the population in Japan, there was the “Avoid the 3Cs” cluster-busting strategy, widely disseminated in the spring of 2020, leveraging Pareto’s 80-20 principle, long before there were any vaccines available. For a good portion of the pandemic, the Ministry of Foreign Affairs of Japan maintained a strict policy for border control, which while hard to quantify, may certainly have contributed to its success.
Besides these factors, once vaccines became available, Japan got the population with the primary series to 83% rapidly, even after getting a late start by many months compared with the United States, which has peaked at 68%. That’s a big gap.
But that gap got much worse when it came to boosters. Ninety-five percent of Japanese eligible compared with 40.8% of Americans have had a booster shot. Of note, that 95% in Japan pertains to the whole population. In the United States the percentage of people age 65 and older who have had two boosters is currently only 42%. I’ve previously reviewed the important lifesaving impact of two boosters among people age 65 and older from five independent studies during Omicron waves throughout the world.
Now let’s turn to cumulative fatalities in the two countries. There’s a huge, nearly ninefold difference, per capita. Using today’s Covid-19 Dashboard, there are cumulatively 45,533 deaths in Japan and 1,062,560 American deaths. That translates to 1 in 2,758 people in Japan compared with 1 in 315 Americans dying of COVID.
And if we look at excess mortality instead of confirmed COVID deaths, that enormous gap doesn’t change.
Obviously it would be good to have data for other COVID outcomes, such as hospitalizations, ICUs, and Long COVID, but they are not accessible.
Comparing Japan, the country that has fared the best, with the United States, one of the worst pandemic outcome results, leaves us with a sense that Prof Ian MacKay’s “Swiss cheese model” is the best explanation. It’s not just one thing. Masks, consistent evidence-based communication (3Cs) with attention to ventilation and air quality, and the outstanding uptake of vaccines and boosters all contributed to Japan’s success.
There is another factor to add to that model – Paxlovid. Its benefit of reducing hospitalizations and deaths for people over age 65 is unquestionable.
That’s why I had previously modified the Swiss cheese model to add Paxlovid.
But in the United States, where 15% of the population is 65 and older, they account for over 75% of the daily death toll, still in the range of 400 per day. Here, with a very high proportion of people age 65 and older left vulnerable without boosters, or primary vaccines, Paxlovid is only being given to less than 25% of the eligible (age 50+), and less people age 80 and older are getting Paxlovid than those age 45. The reasons that doctors are not prescribing it – worried about interactions for a 5-day course and rebound – are not substantiated.
Bottom line: In the United States we are not protecting our population anywhere near as well as Japan, as grossly evident by the fatalities among people at the highest risk. There needs to be far better uptake of boosters and use of Paxlovid in the age 65+ group, but the need for amped up protection is not at all restricted to this age subgroup. Across all age groups age 18 and over there is an 81% reduction of hospitalizations with two boosters with the most updated CDC data available, through the Omicron BA.5 wave.
No less the previous data through May 2022 showing protection from death across all ages with two boosters
And please don’t forget that around the world, over 20 million lives were saved, just in 2021, the first year of vaccines.
We can learn so much from a model country like Japan. Yes, we need nasal and variant-proof vaccines to effectively deal with the new variants that are already getting legs in places like XBB in Singapore and ones not on the radar yet. But right now we’ve got to do far better for people getting boosters and, when a person age 65 or older gets COVID, Paxlovid. Take a look at the Chris Hayes video segment when he pleaded for Americans to get a booster shot. Every day that vaccine waning of the U.S. population exceeds the small percentage of people who get a booster, our vulnerability increases. If we don’t get that on track, it’s likely going to be a rough winter ahead.
Dr. Topol is director of the Scripps Translational Science Institute in La Jolla, Calif. He has received research grants from the National Institutes of Health and reported conflicts of interest involving Dexcom, Illumina, Molecular Stethoscope, Quest Diagnostics, and Blue Cross Blue Shield Association. A version of this article appeared on Medscape.com.
For many, long COVID’s impacts go on and on, major study says
in the same time frame, a large study out of Scotland found.
Multiple studies are evaluating people with long COVID in the hopes of figuring out why some people experience debilitating symptoms long after their primary infection ends and others either do not or recover more quickly.
This current study is notable for its large size – 96,238 people. Researchers checked in with participants at 6, 12, and 18 months, and included a group of people never infected with the coronavirus to help investigators make a stronger case.
“A lot of the symptoms of long COVID are nonspecific and therefore can occur in people never infected,” says senior study author Jill P. Pell, MD, head of the School of Health and Wellbeing at the University of Glasgow in Scotland.
Ruling out coincidence
This study shows that people experienced a wide range of symptoms after becoming infected with COVID-19 at a significantly higher rate than those who were never infected, “thereby confirming that they were genuinely associated with COVID and not merely a coincidence,” she said.
Among 21,525 people who had COVID-19 and had symptoms, tiredness, headache and muscle aches or muscle weakness were the most common ongoing symptoms.
Loss of smell was almost nine times more likely in this group compared to the never-infected group in one analysis where researchers controlled for other possible factors. The risk for loss of taste was almost six times greater, followed by risk of breathlessness at three times higher.
Long COVID risk was highest after a severe original infection and among older people, women, Black, and South Asian populations, people with socioeconomic disadvantages, and those with more than one underlying health condition.
Adding up the 6% with no recovery after 18 months and 42% with partial recovery means that between 6 and 18 months following symptomatic coronavirus infection, almost half of those infected still experience persistent symptoms.
Vaccination validated
On the plus side, people vaccinated against COVID-19 before getting infected had a lower risk for some persistent symptoms. In addition, Dr. Pell and colleagues found no evidence that people who experienced asymptomatic infection were likely to experience long COVID symptoms or challenges with activities of daily living.
The findings of the Long-COVID in Scotland Study (Long-CISS) were published in the journal Nature Communications.
‘More long COVID than ever before’
“Unfortunately, these long COVID symptoms are not getting better as the cases of COVID get milder,” said Thomas Gut, DO, medical director for the post-COVID recovery program at Staten Island (N.Y.) University Hospital. “Quite the opposite – this infection has become so common in a community because it’s so mild and spreading so rapidly that we’re seeing more long COVID symptoms than ever before.”
Although most patients he sees with long COVID resolve their symptoms within 3-6 months, “We do see some patients who require short-term disability because their symptoms continue past 6 months and out to 2 years,” said Dr. Gut, a hospitalist at Staten Island University Hospital, a member hospital of Northwell Health.
Patients with fatigue and neurocognitive symptoms “have a very tough time going back to work. Short-term disability gives them the time and finances to pursue specialty care with cardiology, pulmonary, and neurocognitive testing,” he said.
Support the whole person
The burden of living with long COVID goes beyond the persistent symptoms. “Long COVID can have wide-ranging impacts – not only on health but also quality of life and activities of daily living [including] work, mobility, self-care and more,” Dr. Pell said. “So, people with long COVID need support relevant to their individual needs and this may extend beyond the health care sector, for example including social services, school or workplace.”
Still, Lisa Penziner, RN, founder of the COVID Long Haulers Support Group in Westchester and Long Island, N.Y., said while people with the most severe cases of COVID-19 tended to have the worst long COVID symptoms, they’re not the only ones.
“We saw many post-COVID members who had mild cases and their long-haul symptoms were worse weeks later than the virus itself,” said Md. Penziner.
She estimates that 80%-90% of her support group members recover within 6 months. “However, there are others who were experiencing symptoms for much longer.”
Respiratory treatment, physical therapy, and other follow-up doctor visits are common after 6 months, for example.
“Additionally, there is a mental health component to recovery as well, meaning that the patient must learn to live while experiencing lingering, long-haul COVID symptoms in work and daily life,” said Ms. Penziner, director of special projects at North Westchester Restorative Therapy & Nursing.
In addition to ongoing medical care, people with long COVID need understanding, she said.
“While long-haul symptoms do not happen to everyone, it is proven that many do experience long-haul symptoms, and the support of the community in understanding is important.”
Limitations of the study
Dr. Pell and colleagues noted some strengths and weaknesses to their study. For example, “as a general population study, our findings provide a better indication of the overall risk and burden of long COVID than hospitalized cohorts,” they noted.
Also, the Scottish population is 96% White, so other long COVID studies with more diverse participants are warranted.
Another potential weakness is the response rate of 16% among those invited to participate in the study, which Dr. Pell and colleagues addressed: “Our cohort included a large sample (33,281) of people previously infected and the response rate of 16% overall and 20% among people who had symptomatic infection was consistent with previous studies that have used SMS text invitations as the sole method of recruitment.”
“We tell patients this should last 3-6 months, but some patients have longer recovery periods,” Dr. Gut said. “We’re here for them. We have a lot of services available to help get them through the recovery process, and we have a lot of options to help support them.”
“What we found most helpful is when there is peer-to-peer support, reaffirming to the member that they are not alone in the long-haul battle, which has been a major benefit of the support group,” Ms. Penziner said.
A version of this article first appeared on WebMD.com.
in the same time frame, a large study out of Scotland found.
Multiple studies are evaluating people with long COVID in the hopes of figuring out why some people experience debilitating symptoms long after their primary infection ends and others either do not or recover more quickly.
This current study is notable for its large size – 96,238 people. Researchers checked in with participants at 6, 12, and 18 months, and included a group of people never infected with the coronavirus to help investigators make a stronger case.
“A lot of the symptoms of long COVID are nonspecific and therefore can occur in people never infected,” says senior study author Jill P. Pell, MD, head of the School of Health and Wellbeing at the University of Glasgow in Scotland.
Ruling out coincidence
This study shows that people experienced a wide range of symptoms after becoming infected with COVID-19 at a significantly higher rate than those who were never infected, “thereby confirming that they were genuinely associated with COVID and not merely a coincidence,” she said.
Among 21,525 people who had COVID-19 and had symptoms, tiredness, headache and muscle aches or muscle weakness were the most common ongoing symptoms.
Loss of smell was almost nine times more likely in this group compared to the never-infected group in one analysis where researchers controlled for other possible factors. The risk for loss of taste was almost six times greater, followed by risk of breathlessness at three times higher.
Long COVID risk was highest after a severe original infection and among older people, women, Black, and South Asian populations, people with socioeconomic disadvantages, and those with more than one underlying health condition.
Adding up the 6% with no recovery after 18 months and 42% with partial recovery means that between 6 and 18 months following symptomatic coronavirus infection, almost half of those infected still experience persistent symptoms.
Vaccination validated
On the plus side, people vaccinated against COVID-19 before getting infected had a lower risk for some persistent symptoms. In addition, Dr. Pell and colleagues found no evidence that people who experienced asymptomatic infection were likely to experience long COVID symptoms or challenges with activities of daily living.
The findings of the Long-COVID in Scotland Study (Long-CISS) were published in the journal Nature Communications.
‘More long COVID than ever before’
“Unfortunately, these long COVID symptoms are not getting better as the cases of COVID get milder,” said Thomas Gut, DO, medical director for the post-COVID recovery program at Staten Island (N.Y.) University Hospital. “Quite the opposite – this infection has become so common in a community because it’s so mild and spreading so rapidly that we’re seeing more long COVID symptoms than ever before.”
Although most patients he sees with long COVID resolve their symptoms within 3-6 months, “We do see some patients who require short-term disability because their symptoms continue past 6 months and out to 2 years,” said Dr. Gut, a hospitalist at Staten Island University Hospital, a member hospital of Northwell Health.
Patients with fatigue and neurocognitive symptoms “have a very tough time going back to work. Short-term disability gives them the time and finances to pursue specialty care with cardiology, pulmonary, and neurocognitive testing,” he said.
Support the whole person
The burden of living with long COVID goes beyond the persistent symptoms. “Long COVID can have wide-ranging impacts – not only on health but also quality of life and activities of daily living [including] work, mobility, self-care and more,” Dr. Pell said. “So, people with long COVID need support relevant to their individual needs and this may extend beyond the health care sector, for example including social services, school or workplace.”
Still, Lisa Penziner, RN, founder of the COVID Long Haulers Support Group in Westchester and Long Island, N.Y., said while people with the most severe cases of COVID-19 tended to have the worst long COVID symptoms, they’re not the only ones.
“We saw many post-COVID members who had mild cases and their long-haul symptoms were worse weeks later than the virus itself,” said Md. Penziner.
She estimates that 80%-90% of her support group members recover within 6 months. “However, there are others who were experiencing symptoms for much longer.”
Respiratory treatment, physical therapy, and other follow-up doctor visits are common after 6 months, for example.
“Additionally, there is a mental health component to recovery as well, meaning that the patient must learn to live while experiencing lingering, long-haul COVID symptoms in work and daily life,” said Ms. Penziner, director of special projects at North Westchester Restorative Therapy & Nursing.
In addition to ongoing medical care, people with long COVID need understanding, she said.
“While long-haul symptoms do not happen to everyone, it is proven that many do experience long-haul symptoms, and the support of the community in understanding is important.”
Limitations of the study
Dr. Pell and colleagues noted some strengths and weaknesses to their study. For example, “as a general population study, our findings provide a better indication of the overall risk and burden of long COVID than hospitalized cohorts,” they noted.
Also, the Scottish population is 96% White, so other long COVID studies with more diverse participants are warranted.
Another potential weakness is the response rate of 16% among those invited to participate in the study, which Dr. Pell and colleagues addressed: “Our cohort included a large sample (33,281) of people previously infected and the response rate of 16% overall and 20% among people who had symptomatic infection was consistent with previous studies that have used SMS text invitations as the sole method of recruitment.”
“We tell patients this should last 3-6 months, but some patients have longer recovery periods,” Dr. Gut said. “We’re here for them. We have a lot of services available to help get them through the recovery process, and we have a lot of options to help support them.”
“What we found most helpful is when there is peer-to-peer support, reaffirming to the member that they are not alone in the long-haul battle, which has been a major benefit of the support group,” Ms. Penziner said.
A version of this article first appeared on WebMD.com.
in the same time frame, a large study out of Scotland found.
Multiple studies are evaluating people with long COVID in the hopes of figuring out why some people experience debilitating symptoms long after their primary infection ends and others either do not or recover more quickly.
This current study is notable for its large size – 96,238 people. Researchers checked in with participants at 6, 12, and 18 months, and included a group of people never infected with the coronavirus to help investigators make a stronger case.
“A lot of the symptoms of long COVID are nonspecific and therefore can occur in people never infected,” says senior study author Jill P. Pell, MD, head of the School of Health and Wellbeing at the University of Glasgow in Scotland.
Ruling out coincidence
This study shows that people experienced a wide range of symptoms after becoming infected with COVID-19 at a significantly higher rate than those who were never infected, “thereby confirming that they were genuinely associated with COVID and not merely a coincidence,” she said.
Among 21,525 people who had COVID-19 and had symptoms, tiredness, headache and muscle aches or muscle weakness were the most common ongoing symptoms.
Loss of smell was almost nine times more likely in this group compared to the never-infected group in one analysis where researchers controlled for other possible factors. The risk for loss of taste was almost six times greater, followed by risk of breathlessness at three times higher.
Long COVID risk was highest after a severe original infection and among older people, women, Black, and South Asian populations, people with socioeconomic disadvantages, and those with more than one underlying health condition.
Adding up the 6% with no recovery after 18 months and 42% with partial recovery means that between 6 and 18 months following symptomatic coronavirus infection, almost half of those infected still experience persistent symptoms.
Vaccination validated
On the plus side, people vaccinated against COVID-19 before getting infected had a lower risk for some persistent symptoms. In addition, Dr. Pell and colleagues found no evidence that people who experienced asymptomatic infection were likely to experience long COVID symptoms or challenges with activities of daily living.
The findings of the Long-COVID in Scotland Study (Long-CISS) were published in the journal Nature Communications.
‘More long COVID than ever before’
“Unfortunately, these long COVID symptoms are not getting better as the cases of COVID get milder,” said Thomas Gut, DO, medical director for the post-COVID recovery program at Staten Island (N.Y.) University Hospital. “Quite the opposite – this infection has become so common in a community because it’s so mild and spreading so rapidly that we’re seeing more long COVID symptoms than ever before.”
Although most patients he sees with long COVID resolve their symptoms within 3-6 months, “We do see some patients who require short-term disability because their symptoms continue past 6 months and out to 2 years,” said Dr. Gut, a hospitalist at Staten Island University Hospital, a member hospital of Northwell Health.
Patients with fatigue and neurocognitive symptoms “have a very tough time going back to work. Short-term disability gives them the time and finances to pursue specialty care with cardiology, pulmonary, and neurocognitive testing,” he said.
Support the whole person
The burden of living with long COVID goes beyond the persistent symptoms. “Long COVID can have wide-ranging impacts – not only on health but also quality of life and activities of daily living [including] work, mobility, self-care and more,” Dr. Pell said. “So, people with long COVID need support relevant to their individual needs and this may extend beyond the health care sector, for example including social services, school or workplace.”
Still, Lisa Penziner, RN, founder of the COVID Long Haulers Support Group in Westchester and Long Island, N.Y., said while people with the most severe cases of COVID-19 tended to have the worst long COVID symptoms, they’re not the only ones.
“We saw many post-COVID members who had mild cases and their long-haul symptoms were worse weeks later than the virus itself,” said Md. Penziner.
She estimates that 80%-90% of her support group members recover within 6 months. “However, there are others who were experiencing symptoms for much longer.”
Respiratory treatment, physical therapy, and other follow-up doctor visits are common after 6 months, for example.
“Additionally, there is a mental health component to recovery as well, meaning that the patient must learn to live while experiencing lingering, long-haul COVID symptoms in work and daily life,” said Ms. Penziner, director of special projects at North Westchester Restorative Therapy & Nursing.
In addition to ongoing medical care, people with long COVID need understanding, she said.
“While long-haul symptoms do not happen to everyone, it is proven that many do experience long-haul symptoms, and the support of the community in understanding is important.”
Limitations of the study
Dr. Pell and colleagues noted some strengths and weaknesses to their study. For example, “as a general population study, our findings provide a better indication of the overall risk and burden of long COVID than hospitalized cohorts,” they noted.
Also, the Scottish population is 96% White, so other long COVID studies with more diverse participants are warranted.
Another potential weakness is the response rate of 16% among those invited to participate in the study, which Dr. Pell and colleagues addressed: “Our cohort included a large sample (33,281) of people previously infected and the response rate of 16% overall and 20% among people who had symptomatic infection was consistent with previous studies that have used SMS text invitations as the sole method of recruitment.”
“We tell patients this should last 3-6 months, but some patients have longer recovery periods,” Dr. Gut said. “We’re here for them. We have a lot of services available to help get them through the recovery process, and we have a lot of options to help support them.”
“What we found most helpful is when there is peer-to-peer support, reaffirming to the member that they are not alone in the long-haul battle, which has been a major benefit of the support group,” Ms. Penziner said.
A version of this article first appeared on WebMD.com.
FROM NATURE COMMUNICATIONS
Mother-to-child transmission of SARS-CoV-2 may be underestimated
ANAHEIM, CALIF. – The rate of mother-to-child transmission of SARS-CoV-2 infection is likely higher than the current estimate of 2%-8%, suggests a recent study using cord blood serology to determine incidence. The study was presented at the American Academy of Pediatrics National Conference.
“Cord blood screening is a potential tool to identify SARS-CoV-2 infected and/or exposed neonates who should then be followed for long-term consequences of mother-to-child transmission,” Amy Yeh, MD, an assistant professor of clinical pediatrics at the University of Southern California, Los Angeles, told attendees at the meeting.
Dr. Yeh and her colleagues collected cord blood from more than 500 mothers at LAC+USC Medical Center from October 2021 to April 2022 and tested them for IgG antibodies against three SARS-CoV-2 antigens: nucleoprotein (N), receptor-binding domain (RBD), and spike protein (S1). Results with an IgG mean fluorescence intensity (MFI) above 700 were considered positive for IgG antibodies. A positive result for N as well as RBD or S1 indicated a natural infection while a positive result for only RBD or S1 indicated a vaccine response or past infection.
The researchers also tested a subset of the IgG positive samples for IgM and IgA antibodies against N, S1, and RBD, with an IgM MFI greater than 24 and an IgA MFI greater than 102 used as the thresholds for positive results.
Among 384 cord blood samples analyzed, 85.4% were positive for IgG against RBD, indicating that the mother had SARS-CoV-2 immunity from either a past infection or vaccination. Of these anti-RBD positive samples, 60.7% were anti-N IgG negative, suggesting that N had waned since vaccination or the past infection.
Since the other 39.3% that were anti-N IgG positive suggest a past maternal infection, the researchers assessed these 129 samples for IgM and IgA antibodies against RBD. They found that 16 of them had high levels of anti-RBD IgA and/or IgM antibodies, pointing to a rate of mother-to-child-transmission of up to 12.4%.
Sallie Permar, MD, PhD, a professor and the chair of pediatrics at Weill Cornell Medicine in New York, who was not involved in the research, said most studies of placental transmission have focused on virologic testing, such as PCR. “Serologic tests for congenital infections are inherently challenged by the transfer of maternal IgG across the placenta and therefore must rely on non-IgG isotype response detection, which have inherently been more susceptible to false-positive results than IgG-based tests,” Dr. Permar said.
Also, “it is unclear if virologic testing was performed in the infants, which, if positive in the same infants for which cord blood IgM/IgA responses were identified, could further validate positive serologic findings,” added Dr. Permar, who is also pediatrician-in-chief at New York-Presbyterian Komansky Children’s Hospital.
Given these limitations, Dr. Permar reiterated that diagnostics for congenital SARS-CoV-2 continue to evolve, even if congenital SARS-CoV-2 infection currently appears rare. Dr. Permar said she agreed with Dr. Yeh that following those who do develop this infection is important.
“There have been initial reports of neurodevelopmental and other outcomes from long-term follow-up cohorts of infants exposed to SARS-CoV-2 infection in utero with variable results and it should continue to be pursued using cohorts both enrolled early in the pandemic and those enrolled more recently after population-level immunity to SARS-CoV-2 was achieved,” said Dr. Permar.
Dr. Permar serves as a consultant to Moderna, Pfizer, Merck, Dynavax, and Hoopika on their CMV vaccine programs and has led sponsored research programs with Moderna and Merck. Information on study funding and on disclosures for Dr. Yeh was unavailable.
ANAHEIM, CALIF. – The rate of mother-to-child transmission of SARS-CoV-2 infection is likely higher than the current estimate of 2%-8%, suggests a recent study using cord blood serology to determine incidence. The study was presented at the American Academy of Pediatrics National Conference.
“Cord blood screening is a potential tool to identify SARS-CoV-2 infected and/or exposed neonates who should then be followed for long-term consequences of mother-to-child transmission,” Amy Yeh, MD, an assistant professor of clinical pediatrics at the University of Southern California, Los Angeles, told attendees at the meeting.
Dr. Yeh and her colleagues collected cord blood from more than 500 mothers at LAC+USC Medical Center from October 2021 to April 2022 and tested them for IgG antibodies against three SARS-CoV-2 antigens: nucleoprotein (N), receptor-binding domain (RBD), and spike protein (S1). Results with an IgG mean fluorescence intensity (MFI) above 700 were considered positive for IgG antibodies. A positive result for N as well as RBD or S1 indicated a natural infection while a positive result for only RBD or S1 indicated a vaccine response or past infection.
The researchers also tested a subset of the IgG positive samples for IgM and IgA antibodies against N, S1, and RBD, with an IgM MFI greater than 24 and an IgA MFI greater than 102 used as the thresholds for positive results.
Among 384 cord blood samples analyzed, 85.4% were positive for IgG against RBD, indicating that the mother had SARS-CoV-2 immunity from either a past infection or vaccination. Of these anti-RBD positive samples, 60.7% were anti-N IgG negative, suggesting that N had waned since vaccination or the past infection.
Since the other 39.3% that were anti-N IgG positive suggest a past maternal infection, the researchers assessed these 129 samples for IgM and IgA antibodies against RBD. They found that 16 of them had high levels of anti-RBD IgA and/or IgM antibodies, pointing to a rate of mother-to-child-transmission of up to 12.4%.
Sallie Permar, MD, PhD, a professor and the chair of pediatrics at Weill Cornell Medicine in New York, who was not involved in the research, said most studies of placental transmission have focused on virologic testing, such as PCR. “Serologic tests for congenital infections are inherently challenged by the transfer of maternal IgG across the placenta and therefore must rely on non-IgG isotype response detection, which have inherently been more susceptible to false-positive results than IgG-based tests,” Dr. Permar said.
Also, “it is unclear if virologic testing was performed in the infants, which, if positive in the same infants for which cord blood IgM/IgA responses were identified, could further validate positive serologic findings,” added Dr. Permar, who is also pediatrician-in-chief at New York-Presbyterian Komansky Children’s Hospital.
Given these limitations, Dr. Permar reiterated that diagnostics for congenital SARS-CoV-2 continue to evolve, even if congenital SARS-CoV-2 infection currently appears rare. Dr. Permar said she agreed with Dr. Yeh that following those who do develop this infection is important.
“There have been initial reports of neurodevelopmental and other outcomes from long-term follow-up cohorts of infants exposed to SARS-CoV-2 infection in utero with variable results and it should continue to be pursued using cohorts both enrolled early in the pandemic and those enrolled more recently after population-level immunity to SARS-CoV-2 was achieved,” said Dr. Permar.
Dr. Permar serves as a consultant to Moderna, Pfizer, Merck, Dynavax, and Hoopika on their CMV vaccine programs and has led sponsored research programs with Moderna and Merck. Information on study funding and on disclosures for Dr. Yeh was unavailable.
ANAHEIM, CALIF. – The rate of mother-to-child transmission of SARS-CoV-2 infection is likely higher than the current estimate of 2%-8%, suggests a recent study using cord blood serology to determine incidence. The study was presented at the American Academy of Pediatrics National Conference.
“Cord blood screening is a potential tool to identify SARS-CoV-2 infected and/or exposed neonates who should then be followed for long-term consequences of mother-to-child transmission,” Amy Yeh, MD, an assistant professor of clinical pediatrics at the University of Southern California, Los Angeles, told attendees at the meeting.
Dr. Yeh and her colleagues collected cord blood from more than 500 mothers at LAC+USC Medical Center from October 2021 to April 2022 and tested them for IgG antibodies against three SARS-CoV-2 antigens: nucleoprotein (N), receptor-binding domain (RBD), and spike protein (S1). Results with an IgG mean fluorescence intensity (MFI) above 700 were considered positive for IgG antibodies. A positive result for N as well as RBD or S1 indicated a natural infection while a positive result for only RBD or S1 indicated a vaccine response or past infection.
The researchers also tested a subset of the IgG positive samples for IgM and IgA antibodies against N, S1, and RBD, with an IgM MFI greater than 24 and an IgA MFI greater than 102 used as the thresholds for positive results.
Among 384 cord blood samples analyzed, 85.4% were positive for IgG against RBD, indicating that the mother had SARS-CoV-2 immunity from either a past infection or vaccination. Of these anti-RBD positive samples, 60.7% were anti-N IgG negative, suggesting that N had waned since vaccination or the past infection.
Since the other 39.3% that were anti-N IgG positive suggest a past maternal infection, the researchers assessed these 129 samples for IgM and IgA antibodies against RBD. They found that 16 of them had high levels of anti-RBD IgA and/or IgM antibodies, pointing to a rate of mother-to-child-transmission of up to 12.4%.
Sallie Permar, MD, PhD, a professor and the chair of pediatrics at Weill Cornell Medicine in New York, who was not involved in the research, said most studies of placental transmission have focused on virologic testing, such as PCR. “Serologic tests for congenital infections are inherently challenged by the transfer of maternal IgG across the placenta and therefore must rely on non-IgG isotype response detection, which have inherently been more susceptible to false-positive results than IgG-based tests,” Dr. Permar said.
Also, “it is unclear if virologic testing was performed in the infants, which, if positive in the same infants for which cord blood IgM/IgA responses were identified, could further validate positive serologic findings,” added Dr. Permar, who is also pediatrician-in-chief at New York-Presbyterian Komansky Children’s Hospital.
Given these limitations, Dr. Permar reiterated that diagnostics for congenital SARS-CoV-2 continue to evolve, even if congenital SARS-CoV-2 infection currently appears rare. Dr. Permar said she agreed with Dr. Yeh that following those who do develop this infection is important.
“There have been initial reports of neurodevelopmental and other outcomes from long-term follow-up cohorts of infants exposed to SARS-CoV-2 infection in utero with variable results and it should continue to be pursued using cohorts both enrolled early in the pandemic and those enrolled more recently after population-level immunity to SARS-CoV-2 was achieved,” said Dr. Permar.
Dr. Permar serves as a consultant to Moderna, Pfizer, Merck, Dynavax, and Hoopika on their CMV vaccine programs and has led sponsored research programs with Moderna and Merck. Information on study funding and on disclosures for Dr. Yeh was unavailable.
AT AAP 2022
COVID-19 linked to increased Alzheimer’s risk
The study of more than 6 million people aged 65 years or older found a 50%-80% increased risk for AD in the year after COVID-19; the risk was especially high for women older than 85 years.
However, the investigators were quick to point out that the observational retrospective study offers no evidence that COVID-19 causes AD. There could be a viral etiology at play, or the connection could be related to inflammation in neural tissue from the SARS-CoV-2 infection. Or it could simply be that exposure to the health care system for COVID-19 increased the odds of detection of existing undiagnosed AD cases.
Whatever the case, these findings point to a potential spike in AD cases, which is a cause for concern, study investigator Pamela Davis, MD, PhD, a professor in the Center for Community Health Integration at Case Western Reserve University, Cleveland, said in an interview.
“COVID may be giving us a legacy of ongoing medical difficulties,” Dr. Davis said. “We were already concerned about having a very large care burden and cost burden from Alzheimer’s disease. If this is another burden that’s increased by COVID, this is something we’re really going to have to prepare for.”
The findings were published online in Journal of Alzheimer’s Disease.
Increased risk
Earlier research points to a potential link between COVID-19 and increased risk for AD and Parkinson’s disease.
For the current study, researchers analyzed anonymous electronic health records of 6.2 million adults aged 65 years or older who received medical treatment between February 2020 and May 2021 and had no prior diagnosis of AD. The database includes information on almost 30% of the entire U.S. population.
Overall, there were 410,748 cases of COVID-19 during the study period.
The overall risk for new diagnosis of AD in the COVID-19 cohort was close to double that of those who did not have COVID-19 (0.68% vs. 0.35%, respectively).
After propensity-score matching, those who have had COVID-19 had a significantly higher risk for an AD diagnosis compared with those who were not infected (hazard ratio [HR], 1.69; 95% confidence interval [CI],1.53-1.72).
Risk for AD was elevated in all age groups, regardless of gender or ethnicity. Researchers did not collect data on COVID-19 severity, and the medical codes for long COVID were not published until after the study had ended.
Those with the highest risk were individuals older than 85 years (HR, 1.89; 95% CI, 1.73-2.07) and women (HR, 1.82; 95% CI, 1.69-1.97).
“We expected to see some impact, but I was surprised that it was as potent as it was,” Dr. Davis said.
Association, not causation
Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, who commented on the findings for this article, called the study interesting but emphasized caution in interpreting the results.
“Because this study only showed an association through medical records, we cannot know what the underlying mechanisms driving this association are without more research,” Dr. Snyder said. “If you have had COVID-19, it doesn’t mean you’re going to get dementia. But if you have had COVID-19 and are experiencing long-term symptoms including cognitive difficulties, talk to your doctor.”
Dr. Davis agreed, noting that this type of study offers information on association, but not causation. “I do think that this makes it imperative that we continue to follow the population for what’s going on in various neurodegenerative diseases,” Dr. Davis said.
The study was funded by the National Institute of Aging, National Institute on Alcohol Abuse and Alcoholism, the Clinical and Translational Science Collaborative of Cleveland, and the National Cancer Institute. Dr. Synder reports no relevant financial conflicts.
A version of this article first appeared on Medscape.com.
The study of more than 6 million people aged 65 years or older found a 50%-80% increased risk for AD in the year after COVID-19; the risk was especially high for women older than 85 years.
However, the investigators were quick to point out that the observational retrospective study offers no evidence that COVID-19 causes AD. There could be a viral etiology at play, or the connection could be related to inflammation in neural tissue from the SARS-CoV-2 infection. Or it could simply be that exposure to the health care system for COVID-19 increased the odds of detection of existing undiagnosed AD cases.
Whatever the case, these findings point to a potential spike in AD cases, which is a cause for concern, study investigator Pamela Davis, MD, PhD, a professor in the Center for Community Health Integration at Case Western Reserve University, Cleveland, said in an interview.
“COVID may be giving us a legacy of ongoing medical difficulties,” Dr. Davis said. “We were already concerned about having a very large care burden and cost burden from Alzheimer’s disease. If this is another burden that’s increased by COVID, this is something we’re really going to have to prepare for.”
The findings were published online in Journal of Alzheimer’s Disease.
Increased risk
Earlier research points to a potential link between COVID-19 and increased risk for AD and Parkinson’s disease.
For the current study, researchers analyzed anonymous electronic health records of 6.2 million adults aged 65 years or older who received medical treatment between February 2020 and May 2021 and had no prior diagnosis of AD. The database includes information on almost 30% of the entire U.S. population.
Overall, there were 410,748 cases of COVID-19 during the study period.
The overall risk for new diagnosis of AD in the COVID-19 cohort was close to double that of those who did not have COVID-19 (0.68% vs. 0.35%, respectively).
After propensity-score matching, those who have had COVID-19 had a significantly higher risk for an AD diagnosis compared with those who were not infected (hazard ratio [HR], 1.69; 95% confidence interval [CI],1.53-1.72).
Risk for AD was elevated in all age groups, regardless of gender or ethnicity. Researchers did not collect data on COVID-19 severity, and the medical codes for long COVID were not published until after the study had ended.
Those with the highest risk were individuals older than 85 years (HR, 1.89; 95% CI, 1.73-2.07) and women (HR, 1.82; 95% CI, 1.69-1.97).
“We expected to see some impact, but I was surprised that it was as potent as it was,” Dr. Davis said.
Association, not causation
Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, who commented on the findings for this article, called the study interesting but emphasized caution in interpreting the results.
“Because this study only showed an association through medical records, we cannot know what the underlying mechanisms driving this association are without more research,” Dr. Snyder said. “If you have had COVID-19, it doesn’t mean you’re going to get dementia. But if you have had COVID-19 and are experiencing long-term symptoms including cognitive difficulties, talk to your doctor.”
Dr. Davis agreed, noting that this type of study offers information on association, but not causation. “I do think that this makes it imperative that we continue to follow the population for what’s going on in various neurodegenerative diseases,” Dr. Davis said.
The study was funded by the National Institute of Aging, National Institute on Alcohol Abuse and Alcoholism, the Clinical and Translational Science Collaborative of Cleveland, and the National Cancer Institute. Dr. Synder reports no relevant financial conflicts.
A version of this article first appeared on Medscape.com.
The study of more than 6 million people aged 65 years or older found a 50%-80% increased risk for AD in the year after COVID-19; the risk was especially high for women older than 85 years.
However, the investigators were quick to point out that the observational retrospective study offers no evidence that COVID-19 causes AD. There could be a viral etiology at play, or the connection could be related to inflammation in neural tissue from the SARS-CoV-2 infection. Or it could simply be that exposure to the health care system for COVID-19 increased the odds of detection of existing undiagnosed AD cases.
Whatever the case, these findings point to a potential spike in AD cases, which is a cause for concern, study investigator Pamela Davis, MD, PhD, a professor in the Center for Community Health Integration at Case Western Reserve University, Cleveland, said in an interview.
“COVID may be giving us a legacy of ongoing medical difficulties,” Dr. Davis said. “We were already concerned about having a very large care burden and cost burden from Alzheimer’s disease. If this is another burden that’s increased by COVID, this is something we’re really going to have to prepare for.”
The findings were published online in Journal of Alzheimer’s Disease.
Increased risk
Earlier research points to a potential link between COVID-19 and increased risk for AD and Parkinson’s disease.
For the current study, researchers analyzed anonymous electronic health records of 6.2 million adults aged 65 years or older who received medical treatment between February 2020 and May 2021 and had no prior diagnosis of AD. The database includes information on almost 30% of the entire U.S. population.
Overall, there were 410,748 cases of COVID-19 during the study period.
The overall risk for new diagnosis of AD in the COVID-19 cohort was close to double that of those who did not have COVID-19 (0.68% vs. 0.35%, respectively).
After propensity-score matching, those who have had COVID-19 had a significantly higher risk for an AD diagnosis compared with those who were not infected (hazard ratio [HR], 1.69; 95% confidence interval [CI],1.53-1.72).
Risk for AD was elevated in all age groups, regardless of gender or ethnicity. Researchers did not collect data on COVID-19 severity, and the medical codes for long COVID were not published until after the study had ended.
Those with the highest risk were individuals older than 85 years (HR, 1.89; 95% CI, 1.73-2.07) and women (HR, 1.82; 95% CI, 1.69-1.97).
“We expected to see some impact, but I was surprised that it was as potent as it was,” Dr. Davis said.
Association, not causation
Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, who commented on the findings for this article, called the study interesting but emphasized caution in interpreting the results.
“Because this study only showed an association through medical records, we cannot know what the underlying mechanisms driving this association are without more research,” Dr. Snyder said. “If you have had COVID-19, it doesn’t mean you’re going to get dementia. But if you have had COVID-19 and are experiencing long-term symptoms including cognitive difficulties, talk to your doctor.”
Dr. Davis agreed, noting that this type of study offers information on association, but not causation. “I do think that this makes it imperative that we continue to follow the population for what’s going on in various neurodegenerative diseases,” Dr. Davis said.
The study was funded by the National Institute of Aging, National Institute on Alcohol Abuse and Alcoholism, the Clinical and Translational Science Collaborative of Cleveland, and the National Cancer Institute. Dr. Synder reports no relevant financial conflicts.
A version of this article first appeared on Medscape.com.
FROM THE JOURNAL OF ALZHEIMER’S DISEASE
New study supports safety of COVID-19 boosters during pregnancy
Doctors and health professionals continue to recommend COVID-19 vaccine boosters or third doses for adolescents and adults more than 5 months after their initial vaccinations with the Pfizer-BioNTech BNT162b2 or Moderna mRNA-1273 primary vaccine series or more than 2 months after receiving the Janssen JNJ-78436735 vaccine, Alisa Kachikis, MD, of the University of Washington, Seattle, and colleagues wrote in JAMA Network Open.
Although multiple studies have shown that the COVID-19 primary series is safe and well tolerated in pregnant and lactating women, information on the safety and tolerability of boosters are lacking, the researchers noted.
“COVID-19 will be with us for a while, and it is important to continue to provide data on COVID-19 vaccines in these groups, particularly because there still are many questions about the vaccine, and because pregnant individuals have been, understandably, more hesitant to receive COVID-19 vaccines,” Dr. Kachikis said in an interview. “The findings of this study that COVID-19 booster doses are well tolerated among pregnant and lactating individuals are especially pertinent with the new COVID-19 boosters available this fall.”
In the new study, the researchers reviewed data from 17,014 participants who were part of an ongoing online prospective study of COVID-19 vaccines in pregnant and lactating individuals. Data were collected between October 2021 and April 2022 through an online survey.
The study population included 2,009 participants (11.8%) who were pregnant at the time of their booster or third dose, 10,279 (60.4%) who were lactating, and 4,726 (27.8%) who were neither pregnant nor lactating. The mean age of the participants was 33.3 years; 92.1% self-identified as White, 94.5% self-identified as non-Hispanic, and 99.7% self-identified as female.
The receipt of a booster was similar across trimesters; 26.4%, 36.5%, and 37.1% of participants received boosters or third doses in the first, second, and third trimester, respectively. The primary outcome was self-reported vaccine reactions within 24 hours of the dose.
Overall, 82.8% of the respondents reported a reaction at the site of the injection, such as redness, pain, or swelling, and 67.9% reported at least one systemic symptom, such as aches and pains, headache, chills, or fever. The most frequently reported symptoms across all groups were injection-site pain (82.2%) and fatigue (54.4%).
The pregnant women were significantly more likely than nonpregnant or nonlactating individuals to report any local reaction at the injection site (adjusted odds ratio, 1.2; P = .01), but less likely to report any systemic reaction (aOR, 0.7; P < .001).
The majority (97.6%) of the pregnant respondents and 96.0% of those lactating reported no obstetric or lactation concerns after vaccination.
Overall, a majority of the respondents reported that recommendations from public health authorities were helpful in their decision to receive a COVID-19 booster or third dose (90.0% of pregnant respondents, 89.9% of lactating respondents, and 88.1% of those neither pregnant nor lactating).
Although vaccine uptake in the current study population was high (91.1% overall and 95.0% of those pregnant), “the importance of the health care professional’s recommendation is pertinent given the ongoing increased vaccine hesitancy among pregnant individuals in the context of the COVID-19 vaccine,” the researchers emphasized.
The study findings were limited by several factors including the reliance on self-reports and a convenience sample composed mainly of health care workers because of their vaccine eligibility at the time the study started, which limits generalizability, the researchers noted. Analyses on the pregnancy outcomes of those who were pregnant when vaccinated are in progress.
The results were strengthened by the large study population that included participants from all 50 states and several territories, and ability to compare results between pregnant and lactating individuals with those who were neither pregnant nor lactating, but were of childbearing age, they said.
The results support the safety of COVID-19 boosters for pregnant and breastfeeding individuals, and these data are important to inform discussions between patients and clinicians to boost vaccine uptake and acceptance in this population, they concluded.
“Our earlier data analysis showed that pregnant and lactating individuals did very well with the initial COVID-19 vaccine series, so it was not very surprising that they also did well with COVID-19 booster or third doses,” Dr. Kachikis said in an interview.
There are two takeaway messages for clinicians, she said: “First, pregnant and lactating individuals tolerated the COVID-19 booster well. The second is that clinicians are very important when it comes to vaccine acceptance.”
“In our study, we found that, while pregnant participants were more likely to report that they were hesitant to receive the booster, they also were more likely to have discussed the COVID-19 booster with their health care provider, and to have received a recommendation to receive the booster. So, spending a little bit of extra time with patients discussing COVID-19 boosters and recommending them can make a significant difference,” she said.
The message of the study is highly reassuring for pregnant and lactating individuals, Dr. Kachikis added. “Most of the participants reported that they had fewer symptoms with the COVID-19 booster compared to the primary vaccine series, which is good news, especially since a new COVID-19 booster is being recommended for the fall.”
Reassuring findings for doctors and patients
The current study is especially timely, as updated COVID-19 boosters have now been recommended for most individuals by the Centers for Disease Control and Prevention, Martina L. Badell, MD, a maternal-fetal medicine specialist at Emory University, Atlanta, said in an interview.
The findings support previous studies on the tolerability of COVID-19 vaccinations in pregnant and lactating persons, said Dr. Badell, who was not involved in the study.
The reassuring message for clinicians is that COVID-19 booster vaccinations are similarly well tolerated in pregnancy and lactation as they are in nonpregnant individuals, said Dr. Badell. “Given the risks of COVID infections in pregnancy and neonates, reassuring data on the tolerability and safety of vaccination in this population is very important.” Also, the researchers found that all three cohorts reported that recommendations from public or medical health authorities helped them make a decision about vaccination; “thus the more data to support these recommendations, the better,” she emphasized.
If you are pregnant or breastfeeding, the message from the study is that COVID-19 booster vaccinations are similarly well tolerated by those who are pregnant or breastfeeding and those who are not, said Dr. Badell.
“This study provides additional support for the strong recommendation to encourage not only COVID-19 vaccination in pregnancy and lactation, but booster vaccinations specifically,” and pregnant and breastfeeding individuals should not be excluded from the new CDC recommendations for COVID-19 boosters, she said.
Future research suggestions
Next steps for research include evaluating the obstetrical and neonatal outcomes in pregnancy and lactation following COVID- 19 boosters, Dr. Badell added.
Dr. Kachikis suggested studies try to answer the remaining questions about COVID-19 vaccines and the immunity of pregnant and lactating persons, particularly since they were excluded from the early clinical trials in 2020.
The study was supported by the National Institute of Allergy and Infectious Diseases, a Women’s Reproductive Health Research Award, and the National Center for Advancing Translational Sciences of the National Institutes of Health. \Dr. Kachikis disclosed serving as a research consultant for Pfizer and GlaxoSmithKline and as an unpaid consultant for GlaxoSmithKline unrelated to the current study, as well as grant support from Merck and Pfizer unrelated to the current study. Dr. Badell had no financial conflicts to disclose.
Doctors and health professionals continue to recommend COVID-19 vaccine boosters or third doses for adolescents and adults more than 5 months after their initial vaccinations with the Pfizer-BioNTech BNT162b2 or Moderna mRNA-1273 primary vaccine series or more than 2 months after receiving the Janssen JNJ-78436735 vaccine, Alisa Kachikis, MD, of the University of Washington, Seattle, and colleagues wrote in JAMA Network Open.
Although multiple studies have shown that the COVID-19 primary series is safe and well tolerated in pregnant and lactating women, information on the safety and tolerability of boosters are lacking, the researchers noted.
“COVID-19 will be with us for a while, and it is important to continue to provide data on COVID-19 vaccines in these groups, particularly because there still are many questions about the vaccine, and because pregnant individuals have been, understandably, more hesitant to receive COVID-19 vaccines,” Dr. Kachikis said in an interview. “The findings of this study that COVID-19 booster doses are well tolerated among pregnant and lactating individuals are especially pertinent with the new COVID-19 boosters available this fall.”
In the new study, the researchers reviewed data from 17,014 participants who were part of an ongoing online prospective study of COVID-19 vaccines in pregnant and lactating individuals. Data were collected between October 2021 and April 2022 through an online survey.
The study population included 2,009 participants (11.8%) who were pregnant at the time of their booster or third dose, 10,279 (60.4%) who were lactating, and 4,726 (27.8%) who were neither pregnant nor lactating. The mean age of the participants was 33.3 years; 92.1% self-identified as White, 94.5% self-identified as non-Hispanic, and 99.7% self-identified as female.
The receipt of a booster was similar across trimesters; 26.4%, 36.5%, and 37.1% of participants received boosters or third doses in the first, second, and third trimester, respectively. The primary outcome was self-reported vaccine reactions within 24 hours of the dose.
Overall, 82.8% of the respondents reported a reaction at the site of the injection, such as redness, pain, or swelling, and 67.9% reported at least one systemic symptom, such as aches and pains, headache, chills, or fever. The most frequently reported symptoms across all groups were injection-site pain (82.2%) and fatigue (54.4%).
The pregnant women were significantly more likely than nonpregnant or nonlactating individuals to report any local reaction at the injection site (adjusted odds ratio, 1.2; P = .01), but less likely to report any systemic reaction (aOR, 0.7; P < .001).
The majority (97.6%) of the pregnant respondents and 96.0% of those lactating reported no obstetric or lactation concerns after vaccination.
Overall, a majority of the respondents reported that recommendations from public health authorities were helpful in their decision to receive a COVID-19 booster or third dose (90.0% of pregnant respondents, 89.9% of lactating respondents, and 88.1% of those neither pregnant nor lactating).
Although vaccine uptake in the current study population was high (91.1% overall and 95.0% of those pregnant), “the importance of the health care professional’s recommendation is pertinent given the ongoing increased vaccine hesitancy among pregnant individuals in the context of the COVID-19 vaccine,” the researchers emphasized.
The study findings were limited by several factors including the reliance on self-reports and a convenience sample composed mainly of health care workers because of their vaccine eligibility at the time the study started, which limits generalizability, the researchers noted. Analyses on the pregnancy outcomes of those who were pregnant when vaccinated are in progress.
The results were strengthened by the large study population that included participants from all 50 states and several territories, and ability to compare results between pregnant and lactating individuals with those who were neither pregnant nor lactating, but were of childbearing age, they said.
The results support the safety of COVID-19 boosters for pregnant and breastfeeding individuals, and these data are important to inform discussions between patients and clinicians to boost vaccine uptake and acceptance in this population, they concluded.
“Our earlier data analysis showed that pregnant and lactating individuals did very well with the initial COVID-19 vaccine series, so it was not very surprising that they also did well with COVID-19 booster or third doses,” Dr. Kachikis said in an interview.
There are two takeaway messages for clinicians, she said: “First, pregnant and lactating individuals tolerated the COVID-19 booster well. The second is that clinicians are very important when it comes to vaccine acceptance.”
“In our study, we found that, while pregnant participants were more likely to report that they were hesitant to receive the booster, they also were more likely to have discussed the COVID-19 booster with their health care provider, and to have received a recommendation to receive the booster. So, spending a little bit of extra time with patients discussing COVID-19 boosters and recommending them can make a significant difference,” she said.
The message of the study is highly reassuring for pregnant and lactating individuals, Dr. Kachikis added. “Most of the participants reported that they had fewer symptoms with the COVID-19 booster compared to the primary vaccine series, which is good news, especially since a new COVID-19 booster is being recommended for the fall.”
Reassuring findings for doctors and patients
The current study is especially timely, as updated COVID-19 boosters have now been recommended for most individuals by the Centers for Disease Control and Prevention, Martina L. Badell, MD, a maternal-fetal medicine specialist at Emory University, Atlanta, said in an interview.
The findings support previous studies on the tolerability of COVID-19 vaccinations in pregnant and lactating persons, said Dr. Badell, who was not involved in the study.
The reassuring message for clinicians is that COVID-19 booster vaccinations are similarly well tolerated in pregnancy and lactation as they are in nonpregnant individuals, said Dr. Badell. “Given the risks of COVID infections in pregnancy and neonates, reassuring data on the tolerability and safety of vaccination in this population is very important.” Also, the researchers found that all three cohorts reported that recommendations from public or medical health authorities helped them make a decision about vaccination; “thus the more data to support these recommendations, the better,” she emphasized.
If you are pregnant or breastfeeding, the message from the study is that COVID-19 booster vaccinations are similarly well tolerated by those who are pregnant or breastfeeding and those who are not, said Dr. Badell.
“This study provides additional support for the strong recommendation to encourage not only COVID-19 vaccination in pregnancy and lactation, but booster vaccinations specifically,” and pregnant and breastfeeding individuals should not be excluded from the new CDC recommendations for COVID-19 boosters, she said.
Future research suggestions
Next steps for research include evaluating the obstetrical and neonatal outcomes in pregnancy and lactation following COVID- 19 boosters, Dr. Badell added.
Dr. Kachikis suggested studies try to answer the remaining questions about COVID-19 vaccines and the immunity of pregnant and lactating persons, particularly since they were excluded from the early clinical trials in 2020.
The study was supported by the National Institute of Allergy and Infectious Diseases, a Women’s Reproductive Health Research Award, and the National Center for Advancing Translational Sciences of the National Institutes of Health. \Dr. Kachikis disclosed serving as a research consultant for Pfizer and GlaxoSmithKline and as an unpaid consultant for GlaxoSmithKline unrelated to the current study, as well as grant support from Merck and Pfizer unrelated to the current study. Dr. Badell had no financial conflicts to disclose.
Doctors and health professionals continue to recommend COVID-19 vaccine boosters or third doses for adolescents and adults more than 5 months after their initial vaccinations with the Pfizer-BioNTech BNT162b2 or Moderna mRNA-1273 primary vaccine series or more than 2 months after receiving the Janssen JNJ-78436735 vaccine, Alisa Kachikis, MD, of the University of Washington, Seattle, and colleagues wrote in JAMA Network Open.
Although multiple studies have shown that the COVID-19 primary series is safe and well tolerated in pregnant and lactating women, information on the safety and tolerability of boosters are lacking, the researchers noted.
“COVID-19 will be with us for a while, and it is important to continue to provide data on COVID-19 vaccines in these groups, particularly because there still are many questions about the vaccine, and because pregnant individuals have been, understandably, more hesitant to receive COVID-19 vaccines,” Dr. Kachikis said in an interview. “The findings of this study that COVID-19 booster doses are well tolerated among pregnant and lactating individuals are especially pertinent with the new COVID-19 boosters available this fall.”
In the new study, the researchers reviewed data from 17,014 participants who were part of an ongoing online prospective study of COVID-19 vaccines in pregnant and lactating individuals. Data were collected between October 2021 and April 2022 through an online survey.
The study population included 2,009 participants (11.8%) who were pregnant at the time of their booster or third dose, 10,279 (60.4%) who were lactating, and 4,726 (27.8%) who were neither pregnant nor lactating. The mean age of the participants was 33.3 years; 92.1% self-identified as White, 94.5% self-identified as non-Hispanic, and 99.7% self-identified as female.
The receipt of a booster was similar across trimesters; 26.4%, 36.5%, and 37.1% of participants received boosters or third doses in the first, second, and third trimester, respectively. The primary outcome was self-reported vaccine reactions within 24 hours of the dose.
Overall, 82.8% of the respondents reported a reaction at the site of the injection, such as redness, pain, or swelling, and 67.9% reported at least one systemic symptom, such as aches and pains, headache, chills, or fever. The most frequently reported symptoms across all groups were injection-site pain (82.2%) and fatigue (54.4%).
The pregnant women were significantly more likely than nonpregnant or nonlactating individuals to report any local reaction at the injection site (adjusted odds ratio, 1.2; P = .01), but less likely to report any systemic reaction (aOR, 0.7; P < .001).
The majority (97.6%) of the pregnant respondents and 96.0% of those lactating reported no obstetric or lactation concerns after vaccination.
Overall, a majority of the respondents reported that recommendations from public health authorities were helpful in their decision to receive a COVID-19 booster or third dose (90.0% of pregnant respondents, 89.9% of lactating respondents, and 88.1% of those neither pregnant nor lactating).
Although vaccine uptake in the current study population was high (91.1% overall and 95.0% of those pregnant), “the importance of the health care professional’s recommendation is pertinent given the ongoing increased vaccine hesitancy among pregnant individuals in the context of the COVID-19 vaccine,” the researchers emphasized.
The study findings were limited by several factors including the reliance on self-reports and a convenience sample composed mainly of health care workers because of their vaccine eligibility at the time the study started, which limits generalizability, the researchers noted. Analyses on the pregnancy outcomes of those who were pregnant when vaccinated are in progress.
The results were strengthened by the large study population that included participants from all 50 states and several territories, and ability to compare results between pregnant and lactating individuals with those who were neither pregnant nor lactating, but were of childbearing age, they said.
The results support the safety of COVID-19 boosters for pregnant and breastfeeding individuals, and these data are important to inform discussions between patients and clinicians to boost vaccine uptake and acceptance in this population, they concluded.
“Our earlier data analysis showed that pregnant and lactating individuals did very well with the initial COVID-19 vaccine series, so it was not very surprising that they also did well with COVID-19 booster or third doses,” Dr. Kachikis said in an interview.
There are two takeaway messages for clinicians, she said: “First, pregnant and lactating individuals tolerated the COVID-19 booster well. The second is that clinicians are very important when it comes to vaccine acceptance.”
“In our study, we found that, while pregnant participants were more likely to report that they were hesitant to receive the booster, they also were more likely to have discussed the COVID-19 booster with their health care provider, and to have received a recommendation to receive the booster. So, spending a little bit of extra time with patients discussing COVID-19 boosters and recommending them can make a significant difference,” she said.
The message of the study is highly reassuring for pregnant and lactating individuals, Dr. Kachikis added. “Most of the participants reported that they had fewer symptoms with the COVID-19 booster compared to the primary vaccine series, which is good news, especially since a new COVID-19 booster is being recommended for the fall.”
Reassuring findings for doctors and patients
The current study is especially timely, as updated COVID-19 boosters have now been recommended for most individuals by the Centers for Disease Control and Prevention, Martina L. Badell, MD, a maternal-fetal medicine specialist at Emory University, Atlanta, said in an interview.
The findings support previous studies on the tolerability of COVID-19 vaccinations in pregnant and lactating persons, said Dr. Badell, who was not involved in the study.
The reassuring message for clinicians is that COVID-19 booster vaccinations are similarly well tolerated in pregnancy and lactation as they are in nonpregnant individuals, said Dr. Badell. “Given the risks of COVID infections in pregnancy and neonates, reassuring data on the tolerability and safety of vaccination in this population is very important.” Also, the researchers found that all three cohorts reported that recommendations from public or medical health authorities helped them make a decision about vaccination; “thus the more data to support these recommendations, the better,” she emphasized.
If you are pregnant or breastfeeding, the message from the study is that COVID-19 booster vaccinations are similarly well tolerated by those who are pregnant or breastfeeding and those who are not, said Dr. Badell.
“This study provides additional support for the strong recommendation to encourage not only COVID-19 vaccination in pregnancy and lactation, but booster vaccinations specifically,” and pregnant and breastfeeding individuals should not be excluded from the new CDC recommendations for COVID-19 boosters, she said.
Future research suggestions
Next steps for research include evaluating the obstetrical and neonatal outcomes in pregnancy and lactation following COVID- 19 boosters, Dr. Badell added.
Dr. Kachikis suggested studies try to answer the remaining questions about COVID-19 vaccines and the immunity of pregnant and lactating persons, particularly since they were excluded from the early clinical trials in 2020.
The study was supported by the National Institute of Allergy and Infectious Diseases, a Women’s Reproductive Health Research Award, and the National Center for Advancing Translational Sciences of the National Institutes of Health. \Dr. Kachikis disclosed serving as a research consultant for Pfizer and GlaxoSmithKline and as an unpaid consultant for GlaxoSmithKline unrelated to the current study, as well as grant support from Merck and Pfizer unrelated to the current study. Dr. Badell had no financial conflicts to disclose.
FROM JAMA NETWORK OPEN
Unvaccinated 10 times more likely to be hospitalized for Omicron
The data, which included almost 200,000 COVID-19–associated hospitalizations across 13 states, also showed that vaccinated, hospitalized patients were more often older and already dealing with other health conditions, compared with unvaccinated, hospitalized patients, reported lead author Fiona P. Havers, MD, of the CDC, Atlanta.
“Unlike previously published reports and web pages … this study reports hospitalization rates by vaccination status and clinical and demographic characteristics of hospitalized patients, beginning with the period when vaccines first became available, and includes comparisons of unvaccinated persons, persons vaccinated with a primary series without a booster dose, and those vaccinated with a primary series and at least 1 booster dose,” the investigators wrote in JAMA Internal Medicine.
In total, the investigators reviewed 192,509 hospitalizations involving patients 18 years and older. The study period spanned from Jan. 1, 2021, to April 30, 2022. Data were reported month by month, showing that the relative monthly hospitalization rate peaked in May 2021, when it was 17.7 times higher for unvaccinated versus vaccinated individuals (with or without a booster).
To account for differences in clinical course between Delta and Omicron, the investigators also analyzed data sorted into two time periods: July-December 2021 (Delta predominant) and January-April 2022 (Omicron BA.1 predominant). These analyses revealed the greater hospitalization risk presented by Delta. Specifically, unvaccinated people were 12.2 times more likely to be hospitalized for Delta than vaccinated people, with or without a booster, versus 6.8 times for Omicron BA.1.
Study shows power of the booster
A closer look at the Omicron BA.1 data showed the power of a booster dose. From January to April 2022, individuals who were fully vaccinated with a booster dose were 10.5 times less likely than unvaccinated individuals to be hospitalized for Omicron BA.1. Plus, boosted people were 2.5 times less likely to be hospitalized for Omicron BA.1 than people who got vaccinated but skipped the booster.
“The high hospitalization rates in unvaccinated compared with vaccinated persons with and without a booster dose underscores the importance of COVID-19 vaccinations in preventing hospitalizations and suggests that increasing vaccination coverage, including booster dose coverage, can prevent hospitalizations, serious illness, and death,” the investigators wrote.
The study also revealed that vaccinated hospitalized patients were significantly older, on average, than unvaccinated hospitalized patients (median, 70 vs. 58 years; P < .001). They were also significantly more likely to have three or more underlying medical conditions (77.8% vs. 51.6%; P < .001)
“A greater proportion of hospitalized cases among vaccinated persons occurred in individuals with medical fragility who were older, more likely to reside in long-term care facilities, and have three or more underlying medical conditions, including immunosuppressive conditions,” the investigators wrote.
New variants outpacing data, vaccines remain essential
While data from April 2022 alone showed a 3.5-fold higher rate of hospitalization among unvaccinated versus vaccinated individuals with or without a booster, newer data suggest that emerging strains of Omicron are putting more people in the hospital.
A recent report by the CDC showed weekly hospitalization rates climbing from March 20 to May 31, 2022, which coincided with predominance of the newer Omicron BA.2 variant. While unvaccinated people were still around 3.5 times more likely to be hospitalized than vaccinated people, overall hospitalization rates jumped 3-fold for people 65 years and older, and 1.7-fold for adults younger than 65. Adding further complexity to this constantly evolving situation is that Omicron BA.2 has since been joined by the BA.4 and BA.5 lineages, for which vaccines are now available.
In the paper published in JAMA Internal Medicine, the CDC report, and in a comment for this article, the CDC offered the same take-home message: Get vaccinated.
“These findings reinforce previous research illustrating how vaccination provides protection from hospitalization due to COVID-19,” a CDC spokesperson said. “COVID-19 vaccines are proven to help prevent serious COVID-19 illness, and everyone ages 6 months and older should stay up to date with COVID-19 vaccines.”
The study published in JAMA Internal Medicine was supported by the CDC. The investigators disclosed additional relationships with Sanofi, GSK, MedImmune, and others.
The data, which included almost 200,000 COVID-19–associated hospitalizations across 13 states, also showed that vaccinated, hospitalized patients were more often older and already dealing with other health conditions, compared with unvaccinated, hospitalized patients, reported lead author Fiona P. Havers, MD, of the CDC, Atlanta.
“Unlike previously published reports and web pages … this study reports hospitalization rates by vaccination status and clinical and demographic characteristics of hospitalized patients, beginning with the period when vaccines first became available, and includes comparisons of unvaccinated persons, persons vaccinated with a primary series without a booster dose, and those vaccinated with a primary series and at least 1 booster dose,” the investigators wrote in JAMA Internal Medicine.
In total, the investigators reviewed 192,509 hospitalizations involving patients 18 years and older. The study period spanned from Jan. 1, 2021, to April 30, 2022. Data were reported month by month, showing that the relative monthly hospitalization rate peaked in May 2021, when it was 17.7 times higher for unvaccinated versus vaccinated individuals (with or without a booster).
To account for differences in clinical course between Delta and Omicron, the investigators also analyzed data sorted into two time periods: July-December 2021 (Delta predominant) and January-April 2022 (Omicron BA.1 predominant). These analyses revealed the greater hospitalization risk presented by Delta. Specifically, unvaccinated people were 12.2 times more likely to be hospitalized for Delta than vaccinated people, with or without a booster, versus 6.8 times for Omicron BA.1.
Study shows power of the booster
A closer look at the Omicron BA.1 data showed the power of a booster dose. From January to April 2022, individuals who were fully vaccinated with a booster dose were 10.5 times less likely than unvaccinated individuals to be hospitalized for Omicron BA.1. Plus, boosted people were 2.5 times less likely to be hospitalized for Omicron BA.1 than people who got vaccinated but skipped the booster.
“The high hospitalization rates in unvaccinated compared with vaccinated persons with and without a booster dose underscores the importance of COVID-19 vaccinations in preventing hospitalizations and suggests that increasing vaccination coverage, including booster dose coverage, can prevent hospitalizations, serious illness, and death,” the investigators wrote.
The study also revealed that vaccinated hospitalized patients were significantly older, on average, than unvaccinated hospitalized patients (median, 70 vs. 58 years; P < .001). They were also significantly more likely to have three or more underlying medical conditions (77.8% vs. 51.6%; P < .001)
“A greater proportion of hospitalized cases among vaccinated persons occurred in individuals with medical fragility who were older, more likely to reside in long-term care facilities, and have three or more underlying medical conditions, including immunosuppressive conditions,” the investigators wrote.
New variants outpacing data, vaccines remain essential
While data from April 2022 alone showed a 3.5-fold higher rate of hospitalization among unvaccinated versus vaccinated individuals with or without a booster, newer data suggest that emerging strains of Omicron are putting more people in the hospital.
A recent report by the CDC showed weekly hospitalization rates climbing from March 20 to May 31, 2022, which coincided with predominance of the newer Omicron BA.2 variant. While unvaccinated people were still around 3.5 times more likely to be hospitalized than vaccinated people, overall hospitalization rates jumped 3-fold for people 65 years and older, and 1.7-fold for adults younger than 65. Adding further complexity to this constantly evolving situation is that Omicron BA.2 has since been joined by the BA.4 and BA.5 lineages, for which vaccines are now available.
In the paper published in JAMA Internal Medicine, the CDC report, and in a comment for this article, the CDC offered the same take-home message: Get vaccinated.
“These findings reinforce previous research illustrating how vaccination provides protection from hospitalization due to COVID-19,” a CDC spokesperson said. “COVID-19 vaccines are proven to help prevent serious COVID-19 illness, and everyone ages 6 months and older should stay up to date with COVID-19 vaccines.”
The study published in JAMA Internal Medicine was supported by the CDC. The investigators disclosed additional relationships with Sanofi, GSK, MedImmune, and others.
The data, which included almost 200,000 COVID-19–associated hospitalizations across 13 states, also showed that vaccinated, hospitalized patients were more often older and already dealing with other health conditions, compared with unvaccinated, hospitalized patients, reported lead author Fiona P. Havers, MD, of the CDC, Atlanta.
“Unlike previously published reports and web pages … this study reports hospitalization rates by vaccination status and clinical and demographic characteristics of hospitalized patients, beginning with the period when vaccines first became available, and includes comparisons of unvaccinated persons, persons vaccinated with a primary series without a booster dose, and those vaccinated with a primary series and at least 1 booster dose,” the investigators wrote in JAMA Internal Medicine.
In total, the investigators reviewed 192,509 hospitalizations involving patients 18 years and older. The study period spanned from Jan. 1, 2021, to April 30, 2022. Data were reported month by month, showing that the relative monthly hospitalization rate peaked in May 2021, when it was 17.7 times higher for unvaccinated versus vaccinated individuals (with or without a booster).
To account for differences in clinical course between Delta and Omicron, the investigators also analyzed data sorted into two time periods: July-December 2021 (Delta predominant) and January-April 2022 (Omicron BA.1 predominant). These analyses revealed the greater hospitalization risk presented by Delta. Specifically, unvaccinated people were 12.2 times more likely to be hospitalized for Delta than vaccinated people, with or without a booster, versus 6.8 times for Omicron BA.1.
Study shows power of the booster
A closer look at the Omicron BA.1 data showed the power of a booster dose. From January to April 2022, individuals who were fully vaccinated with a booster dose were 10.5 times less likely than unvaccinated individuals to be hospitalized for Omicron BA.1. Plus, boosted people were 2.5 times less likely to be hospitalized for Omicron BA.1 than people who got vaccinated but skipped the booster.
“The high hospitalization rates in unvaccinated compared with vaccinated persons with and without a booster dose underscores the importance of COVID-19 vaccinations in preventing hospitalizations and suggests that increasing vaccination coverage, including booster dose coverage, can prevent hospitalizations, serious illness, and death,” the investigators wrote.
The study also revealed that vaccinated hospitalized patients were significantly older, on average, than unvaccinated hospitalized patients (median, 70 vs. 58 years; P < .001). They were also significantly more likely to have three or more underlying medical conditions (77.8% vs. 51.6%; P < .001)
“A greater proportion of hospitalized cases among vaccinated persons occurred in individuals with medical fragility who were older, more likely to reside in long-term care facilities, and have three or more underlying medical conditions, including immunosuppressive conditions,” the investigators wrote.
New variants outpacing data, vaccines remain essential
While data from April 2022 alone showed a 3.5-fold higher rate of hospitalization among unvaccinated versus vaccinated individuals with or without a booster, newer data suggest that emerging strains of Omicron are putting more people in the hospital.
A recent report by the CDC showed weekly hospitalization rates climbing from March 20 to May 31, 2022, which coincided with predominance of the newer Omicron BA.2 variant. While unvaccinated people were still around 3.5 times more likely to be hospitalized than vaccinated people, overall hospitalization rates jumped 3-fold for people 65 years and older, and 1.7-fold for adults younger than 65. Adding further complexity to this constantly evolving situation is that Omicron BA.2 has since been joined by the BA.4 and BA.5 lineages, for which vaccines are now available.
In the paper published in JAMA Internal Medicine, the CDC report, and in a comment for this article, the CDC offered the same take-home message: Get vaccinated.
“These findings reinforce previous research illustrating how vaccination provides protection from hospitalization due to COVID-19,” a CDC spokesperson said. “COVID-19 vaccines are proven to help prevent serious COVID-19 illness, and everyone ages 6 months and older should stay up to date with COVID-19 vaccines.”
The study published in JAMA Internal Medicine was supported by the CDC. The investigators disclosed additional relationships with Sanofi, GSK, MedImmune, and others.
FROM JAMA INTERNAL MEDICINE
Many young kids with COVID may show no symptoms
BY WILL PASS
Just 14% of adults who tested positive for SARS-CoV-2 were asymptomatic, versus 37% of children aged 0-4 years, in the paper. This raises concern that parents, childcare providers, and preschools may be underestimating infection in seemingly healthy young kids who have been exposed to COVID, wrote lead author Ruth A. Karron, MD, and colleagues in JAMA Network Open.
Methods
The new research involved 690 individuals from 175 households in Maryland who were monitored closely between November 2020 and October 2021. Every week for 8 months, participants completed online symptom checks and underwent PCR testing using nasal swabs, with symptomatic individuals submitting additional swabs for analysis.
“What was different about our study [compared with previous studies] was the intensity of our collection, and the fact that we collected specimens from asymptomatic people,” said Dr. Karron, a pediatrician and professor in the department of international health, Johns Hopkins University, Baltimore, in an interview. “You shed more virus earlier in the infection than later, and the fact that we were sampling every single week meant that we could pick up those early infections.”
The study also stands out for its focus on young children, Dr. Karron said. Enrollment required all households to have at least one child aged 0-4 years, so 256 out of 690 participants (37.1%) were in this youngest age group. The remainder of the population consisted of 100 older children aged 5-17 years (14.5%) and 334 adults aged 18-74 years (48.4%).
Children 4 and under more than twice as likely to be asymptomatic
By the end of the study, 51 participants had tested positive for SARS-CoV-2, among whom 14 had no symptoms. A closer look showed that children 0-4 years of age who contracted COVID were more than twice as likely to be asymptomatic as infected adults (36.8% vs. 14.3%).
The relationship between symptoms and viral load also differed between adults and young children.
While adults with high viral loads – suggesting greater contagiousness – typically had more severe COVID symptoms, no correlation was found in young kids, meaning children with mild or no symptoms could still be highly contagious.
Dr. Karron said these findings should help parents and other stakeholders make better-informed decisions based on known risks. She recommended testing young, asymptomatic children for COVID if they have been exposed to infected individuals, then acting accordingly based on the results.
“If a family is infected with the virus, and the 2-year-old is asymptomatic, and people are thinking about a visit to elderly grandparents who may be frail, one shouldn’t assume that the 2-year-old is uninfected,” Dr. Karron said. “That child should be tested along with other family members.”
Testing should also be considered for young children exposed to COVID at childcare facilities, she added.
But not every expert consulted for this piece shared these opinions of Dr. Karron.
“I question whether that effort is worth it,” said Dean Blumberg, MD, professor and chief of the division of pediatric infectious diseases at UC Davis Health, Sacramento, Calif.
He noted that recent Food and Drug Administration guidance for COVID testing calls for three negative at-home antigen tests to confirm lack of infection.
“That would take 4 days to get those tests done,” he said. “So, it’s a lot of testing. It’s a lot of record keeping, it’s inconvenient, it’s uncomfortable to be tested, and I just question whether it’s worth that effort.”
Applicability of findings to today questioned
Dr. Blumberg also questioned whether the study, which was completed almost a year ago, reflects the current pandemic landscape.
“At the time this study was done, it was predominantly Delta [variant instead of Omicron],” Dr. Blumberg said. “The other issue [with the study] is that … most of the children didn’t have preexisting immunity, so you have to take that into account.”
Preexisting immunity – whether from exposure or vaccination – could lower viral loads, so asymptomatic children today really could be less contagious than they were when the study was done, according to Dr. Blumberg. Kids without symptoms are also less likely to spread the virus, because they aren’t coughing or sneezing, he added.
Sara R. Kim, MD, and Janet A. Englund, MD, of the Seattle Children’s Research Institute, University of Washington, said it’s challenging to know how applicable the findings are, although they sided more with the investigators than Dr. Blumberg.
“Given the higher rate of transmissibility and infectivity of the Omicron variant, it is difficult to make direct associations between findings reported during this study period and those present in the current era during which the Omicron variant is circulating,” they wrote in an accompanying editorial. “However, the higher rates of asymptomatic infection observed among children in this study are likely to be consistent with those observed for current and future viral variants.”
Although the experts offered different interpretations of the findings, they shared similar perspectives on vaccination.
“The most important thing that parents can do is get their kids vaccinated, be vaccinated themselves, and have everybody in the household vaccinated and up to date for all doses that are indicated,” Dr. Blumberg said.
Dr. Karron noted that vaccination will be increasingly important in the coming months.
“Summer is ending; school is starting,” she said. “We’re going to be in large groups indoors again very soon. To keep young children safe, I think it’s really important for them to get vaccinated.”
The study was funded by the CDC. The investigators disclosed no other relationships. Dr. Englund disclosed relationships with AstraZeneca, GlaxoSmithKline, Merck, and others. Dr. Kim and Dr. Blumberg disclosed no relevant conflicts of interest.
BY WILL PASS
Just 14% of adults who tested positive for SARS-CoV-2 were asymptomatic, versus 37% of children aged 0-4 years, in the paper. This raises concern that parents, childcare providers, and preschools may be underestimating infection in seemingly healthy young kids who have been exposed to COVID, wrote lead author Ruth A. Karron, MD, and colleagues in JAMA Network Open.
Methods
The new research involved 690 individuals from 175 households in Maryland who were monitored closely between November 2020 and October 2021. Every week for 8 months, participants completed online symptom checks and underwent PCR testing using nasal swabs, with symptomatic individuals submitting additional swabs for analysis.
“What was different about our study [compared with previous studies] was the intensity of our collection, and the fact that we collected specimens from asymptomatic people,” said Dr. Karron, a pediatrician and professor in the department of international health, Johns Hopkins University, Baltimore, in an interview. “You shed more virus earlier in the infection than later, and the fact that we were sampling every single week meant that we could pick up those early infections.”
The study also stands out for its focus on young children, Dr. Karron said. Enrollment required all households to have at least one child aged 0-4 years, so 256 out of 690 participants (37.1%) were in this youngest age group. The remainder of the population consisted of 100 older children aged 5-17 years (14.5%) and 334 adults aged 18-74 years (48.4%).
Children 4 and under more than twice as likely to be asymptomatic
By the end of the study, 51 participants had tested positive for SARS-CoV-2, among whom 14 had no symptoms. A closer look showed that children 0-4 years of age who contracted COVID were more than twice as likely to be asymptomatic as infected adults (36.8% vs. 14.3%).
The relationship between symptoms and viral load also differed between adults and young children.
While adults with high viral loads – suggesting greater contagiousness – typically had more severe COVID symptoms, no correlation was found in young kids, meaning children with mild or no symptoms could still be highly contagious.
Dr. Karron said these findings should help parents and other stakeholders make better-informed decisions based on known risks. She recommended testing young, asymptomatic children for COVID if they have been exposed to infected individuals, then acting accordingly based on the results.
“If a family is infected with the virus, and the 2-year-old is asymptomatic, and people are thinking about a visit to elderly grandparents who may be frail, one shouldn’t assume that the 2-year-old is uninfected,” Dr. Karron said. “That child should be tested along with other family members.”
Testing should also be considered for young children exposed to COVID at childcare facilities, she added.
But not every expert consulted for this piece shared these opinions of Dr. Karron.
“I question whether that effort is worth it,” said Dean Blumberg, MD, professor and chief of the division of pediatric infectious diseases at UC Davis Health, Sacramento, Calif.
He noted that recent Food and Drug Administration guidance for COVID testing calls for three negative at-home antigen tests to confirm lack of infection.
“That would take 4 days to get those tests done,” he said. “So, it’s a lot of testing. It’s a lot of record keeping, it’s inconvenient, it’s uncomfortable to be tested, and I just question whether it’s worth that effort.”
Applicability of findings to today questioned
Dr. Blumberg also questioned whether the study, which was completed almost a year ago, reflects the current pandemic landscape.
“At the time this study was done, it was predominantly Delta [variant instead of Omicron],” Dr. Blumberg said. “The other issue [with the study] is that … most of the children didn’t have preexisting immunity, so you have to take that into account.”
Preexisting immunity – whether from exposure or vaccination – could lower viral loads, so asymptomatic children today really could be less contagious than they were when the study was done, according to Dr. Blumberg. Kids without symptoms are also less likely to spread the virus, because they aren’t coughing or sneezing, he added.
Sara R. Kim, MD, and Janet A. Englund, MD, of the Seattle Children’s Research Institute, University of Washington, said it’s challenging to know how applicable the findings are, although they sided more with the investigators than Dr. Blumberg.
“Given the higher rate of transmissibility and infectivity of the Omicron variant, it is difficult to make direct associations between findings reported during this study period and those present in the current era during which the Omicron variant is circulating,” they wrote in an accompanying editorial. “However, the higher rates of asymptomatic infection observed among children in this study are likely to be consistent with those observed for current and future viral variants.”
Although the experts offered different interpretations of the findings, they shared similar perspectives on vaccination.
“The most important thing that parents can do is get their kids vaccinated, be vaccinated themselves, and have everybody in the household vaccinated and up to date for all doses that are indicated,” Dr. Blumberg said.
Dr. Karron noted that vaccination will be increasingly important in the coming months.
“Summer is ending; school is starting,” she said. “We’re going to be in large groups indoors again very soon. To keep young children safe, I think it’s really important for them to get vaccinated.”
The study was funded by the CDC. The investigators disclosed no other relationships. Dr. Englund disclosed relationships with AstraZeneca, GlaxoSmithKline, Merck, and others. Dr. Kim and Dr. Blumberg disclosed no relevant conflicts of interest.
BY WILL PASS
Just 14% of adults who tested positive for SARS-CoV-2 were asymptomatic, versus 37% of children aged 0-4 years, in the paper. This raises concern that parents, childcare providers, and preschools may be underestimating infection in seemingly healthy young kids who have been exposed to COVID, wrote lead author Ruth A. Karron, MD, and colleagues in JAMA Network Open.
Methods
The new research involved 690 individuals from 175 households in Maryland who were monitored closely between November 2020 and October 2021. Every week for 8 months, participants completed online symptom checks and underwent PCR testing using nasal swabs, with symptomatic individuals submitting additional swabs for analysis.
“What was different about our study [compared with previous studies] was the intensity of our collection, and the fact that we collected specimens from asymptomatic people,” said Dr. Karron, a pediatrician and professor in the department of international health, Johns Hopkins University, Baltimore, in an interview. “You shed more virus earlier in the infection than later, and the fact that we were sampling every single week meant that we could pick up those early infections.”
The study also stands out for its focus on young children, Dr. Karron said. Enrollment required all households to have at least one child aged 0-4 years, so 256 out of 690 participants (37.1%) were in this youngest age group. The remainder of the population consisted of 100 older children aged 5-17 years (14.5%) and 334 adults aged 18-74 years (48.4%).
Children 4 and under more than twice as likely to be asymptomatic
By the end of the study, 51 participants had tested positive for SARS-CoV-2, among whom 14 had no symptoms. A closer look showed that children 0-4 years of age who contracted COVID were more than twice as likely to be asymptomatic as infected adults (36.8% vs. 14.3%).
The relationship between symptoms and viral load also differed between adults and young children.
While adults with high viral loads – suggesting greater contagiousness – typically had more severe COVID symptoms, no correlation was found in young kids, meaning children with mild or no symptoms could still be highly contagious.
Dr. Karron said these findings should help parents and other stakeholders make better-informed decisions based on known risks. She recommended testing young, asymptomatic children for COVID if they have been exposed to infected individuals, then acting accordingly based on the results.
“If a family is infected with the virus, and the 2-year-old is asymptomatic, and people are thinking about a visit to elderly grandparents who may be frail, one shouldn’t assume that the 2-year-old is uninfected,” Dr. Karron said. “That child should be tested along with other family members.”
Testing should also be considered for young children exposed to COVID at childcare facilities, she added.
But not every expert consulted for this piece shared these opinions of Dr. Karron.
“I question whether that effort is worth it,” said Dean Blumberg, MD, professor and chief of the division of pediatric infectious diseases at UC Davis Health, Sacramento, Calif.
He noted that recent Food and Drug Administration guidance for COVID testing calls for three negative at-home antigen tests to confirm lack of infection.
“That would take 4 days to get those tests done,” he said. “So, it’s a lot of testing. It’s a lot of record keeping, it’s inconvenient, it’s uncomfortable to be tested, and I just question whether it’s worth that effort.”
Applicability of findings to today questioned
Dr. Blumberg also questioned whether the study, which was completed almost a year ago, reflects the current pandemic landscape.
“At the time this study was done, it was predominantly Delta [variant instead of Omicron],” Dr. Blumberg said. “The other issue [with the study] is that … most of the children didn’t have preexisting immunity, so you have to take that into account.”
Preexisting immunity – whether from exposure or vaccination – could lower viral loads, so asymptomatic children today really could be less contagious than they were when the study was done, according to Dr. Blumberg. Kids without symptoms are also less likely to spread the virus, because they aren’t coughing or sneezing, he added.
Sara R. Kim, MD, and Janet A. Englund, MD, of the Seattle Children’s Research Institute, University of Washington, said it’s challenging to know how applicable the findings are, although they sided more with the investigators than Dr. Blumberg.
“Given the higher rate of transmissibility and infectivity of the Omicron variant, it is difficult to make direct associations between findings reported during this study period and those present in the current era during which the Omicron variant is circulating,” they wrote in an accompanying editorial. “However, the higher rates of asymptomatic infection observed among children in this study are likely to be consistent with those observed for current and future viral variants.”
Although the experts offered different interpretations of the findings, they shared similar perspectives on vaccination.
“The most important thing that parents can do is get their kids vaccinated, be vaccinated themselves, and have everybody in the household vaccinated and up to date for all doses that are indicated,” Dr. Blumberg said.
Dr. Karron noted that vaccination will be increasingly important in the coming months.
“Summer is ending; school is starting,” she said. “We’re going to be in large groups indoors again very soon. To keep young children safe, I think it’s really important for them to get vaccinated.”
The study was funded by the CDC. The investigators disclosed no other relationships. Dr. Englund disclosed relationships with AstraZeneca, GlaxoSmithKline, Merck, and others. Dr. Kim and Dr. Blumberg disclosed no relevant conflicts of interest.
FROM JAMA NETWORK OPEN