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Why 9 is not too young for the HPV vaccine
For Sonja O’Leary, MD, higher rates of vaccination against human papillomavirus came with the flip of a switch.
Dr. O’Leary, the interim director of service for outpatient pediatric services at Denver Health and Hospital Authority, and her colleagues saw rates of HPV and other childhood immunizations drop during the COVID-19 pandemic and decided to act. Their health system, which includes 28 federally qualified health centers, offers vaccines at any inpatient or outpatient visit based on alerts from their electronic health record.
“It was actually really simple; it was really just changing our best-practice alert,” Dr. O’Leary said. Beginning in May 2021, and after notifying clinic staff of the impending change, DHHA dropped the alert for first dose of HPV from age 11 to 9.
The approach worked. Compared with the first 5 months of 2021, the percentage of children aged 9-13 years with an in-person visit who received at least one dose of HPV vaccine between June 2021 and August 2022 rose from 30.3% to 42.8% – a 41% increase. The share who received two doses by age 13 years more than doubled, from 19.3% to 42.7%, Dr. O’Leary said.
Frustrated efforts
Although those figures might seem to make an iron-clad case for earlier vaccinations against HPV – which is responsible for nearly 35,000 cases of cancer annually – factors beyond statistics have frustrated efforts to increase acceptance of the shots.
Data published in 2022 from the U.S. Centers for Disease Control and Prevention found that 89.6% of teens aged 13-17 years received at least one dose of tetanus, diphtheria, and acellular pertussis vaccine, and 89% got one or more doses of meningococcal conjugate vaccine. However, only 76.9% had received one or more doses of HPV vaccine. The rate of receiving both doses needed for full protection was much lower (61.7%).
Both the American Academy of Pediatrics and the American Cancer Society now endorse the strategy of offering HPV vaccine as early as age 9, which avoids the need for multiple shots at a single visit and results in more kids getting both doses. In a recent study that surveyed primary care professionals who see pediatric patients, 21% were already offering HPV vaccine at age 9, and another 48% were willing to try the approach.
What was the most common objection to the earlier age? Nearly three-quarters of clinicians said they felt that parents weren’t ready to talk about HPV vaccination yet.
Noel Brewer, PhD, one of the authors of the survey study, wondered why clinicians feel the need to bring up sex at all. “Providers should never be talking about sex when they are talking about vaccine, because that’s not the point,” said Dr. Brewer, the distinguished professor in public health at the University of North Carolina at Chapel Hill. He pointed out that providers don’t talk about the route of transmission for any other vaccine.
Dr. Brewer led a randomized controlled trial that trained pediatric clinicians in the “announcement” strategy, in which the clinician announces the vaccines that are due at that visit. If the parent hesitates, the clinician then probes further to identify and address their concerns and provides more information. If the parent is still not convinced, the clinician notes the discussion in the chart and tries again at the next visit.
The strategy was effective: Intervention clinics had a 5.4% higher rate of HPV vaccination coverage than control clinics after six months. Dr. Brewer and his colleagues have trained over 1,700 providers in the technique since 2020.
A cancer – not STI – vaccine
Although DHHA hasn’t participated in Dr. Brewer’s training, Dr. O’Leary and her colleagues take a similar approach of simply stating which vaccines the child should receive that day. And they talk about HPV as a cancer vaccine instead of one to prevent a sexually transmitted infection.
In her experience, this emphasis changes the conversation. Dr. O’Leary described a typical comment from parents as, “Oh, of course I would give my child a vaccine that could prevent cancer.”
Ana Rodriguez, MD, MPH, an obstetrician, became interested in raising rates of vaccination against HPV after watching too many women battle a preventable cancer. She worked for several years in the Rio Grande Valley along the U.S. border with Mexico, an impoverished rural area with poor access to health care and high rates of HPV infection.
“I would treat women very young – not even 30 years of age – already fighting advanced precancerous lesions secondary to HPV,” said Dr. Rodriguez, an associate professor of Obstetrics & Gynecology at the University of Texas Medical Branch at Galveston.
In 2016, when Texas ranked 47th in the nation for rates of up-to-date HPV vaccination, Dr. Rodriguez helped launch a community-based educational campaign in four rural counties in the Rio Grande Valley using social media, radio, and in-person meetings with school PTA members and members of school boards to educate staff and parents about the need for vaccination against the infection.
In 2019, the team began offering the vaccine to children ages 9-12 years at back-to-school events, progress report nights, and other school events, pivoting to outdoor events using a mobile vaccine van after COVID-19 struck. They recently published a study showing that 73.6% of students who received their first dose of vaccine at age 11 or younger completed the series, compared with only 45.1% of children who got their first dose at age 12 or older.
Dr. Rodriguez encountered parents who felt 9 or 10 years old was too young because their children were not going to be sexually active anytime soon. Her response was to describe HPV as a tool to prevent cancer, telling parents, “If you vaccinate your kids young enough, they will be protected for life.”
Lifetime protection is another point in favor of giving HPV vaccine prior to Tdap and MenACWY. The response to the two-dose series of HPV in preadolescents is robust and long-lasting, with no downside to giving it a few years earlier. In contrast, immunity to MenACWY wanes after a few years, so the immunization must be given before children enter high school, when their risk for meningitis increases.
The annual toll of deaths in the United States from meningococcus, tetanus, diphtheria, and pertussis typically totals less than 100, whereas cancer deaths attributable to HPV infection number in the thousands each year. And that may be the best reason for attempting new strategies to help HPV vaccination rates catch up to the rest of the preteen vaccines.
Dr. Brewer’s work was supported by the Gillings School of Global Public Health, the Lineberger Comprehensive Cancer Center at the University of North Carolina, and from training grants from the National Cancer Institute. Dr. Brewer has received research funding from Merck, Pfizer, and GSK and served as a paid advisor for Merck. Dr. O’Leary reports no relevant financial relationships. Dr. Rodriguez received a grant from the Cancer Prevention Research Institute of Texas, and the study was supported by the Institute for Translational Sciences at the University of Texas Medical Branch.
A version of this article first appeared on Medscape.com.
For Sonja O’Leary, MD, higher rates of vaccination against human papillomavirus came with the flip of a switch.
Dr. O’Leary, the interim director of service for outpatient pediatric services at Denver Health and Hospital Authority, and her colleagues saw rates of HPV and other childhood immunizations drop during the COVID-19 pandemic and decided to act. Their health system, which includes 28 federally qualified health centers, offers vaccines at any inpatient or outpatient visit based on alerts from their electronic health record.
“It was actually really simple; it was really just changing our best-practice alert,” Dr. O’Leary said. Beginning in May 2021, and after notifying clinic staff of the impending change, DHHA dropped the alert for first dose of HPV from age 11 to 9.
The approach worked. Compared with the first 5 months of 2021, the percentage of children aged 9-13 years with an in-person visit who received at least one dose of HPV vaccine between June 2021 and August 2022 rose from 30.3% to 42.8% – a 41% increase. The share who received two doses by age 13 years more than doubled, from 19.3% to 42.7%, Dr. O’Leary said.
Frustrated efforts
Although those figures might seem to make an iron-clad case for earlier vaccinations against HPV – which is responsible for nearly 35,000 cases of cancer annually – factors beyond statistics have frustrated efforts to increase acceptance of the shots.
Data published in 2022 from the U.S. Centers for Disease Control and Prevention found that 89.6% of teens aged 13-17 years received at least one dose of tetanus, diphtheria, and acellular pertussis vaccine, and 89% got one or more doses of meningococcal conjugate vaccine. However, only 76.9% had received one or more doses of HPV vaccine. The rate of receiving both doses needed for full protection was much lower (61.7%).
Both the American Academy of Pediatrics and the American Cancer Society now endorse the strategy of offering HPV vaccine as early as age 9, which avoids the need for multiple shots at a single visit and results in more kids getting both doses. In a recent study that surveyed primary care professionals who see pediatric patients, 21% were already offering HPV vaccine at age 9, and another 48% were willing to try the approach.
What was the most common objection to the earlier age? Nearly three-quarters of clinicians said they felt that parents weren’t ready to talk about HPV vaccination yet.
Noel Brewer, PhD, one of the authors of the survey study, wondered why clinicians feel the need to bring up sex at all. “Providers should never be talking about sex when they are talking about vaccine, because that’s not the point,” said Dr. Brewer, the distinguished professor in public health at the University of North Carolina at Chapel Hill. He pointed out that providers don’t talk about the route of transmission for any other vaccine.
Dr. Brewer led a randomized controlled trial that trained pediatric clinicians in the “announcement” strategy, in which the clinician announces the vaccines that are due at that visit. If the parent hesitates, the clinician then probes further to identify and address their concerns and provides more information. If the parent is still not convinced, the clinician notes the discussion in the chart and tries again at the next visit.
The strategy was effective: Intervention clinics had a 5.4% higher rate of HPV vaccination coverage than control clinics after six months. Dr. Brewer and his colleagues have trained over 1,700 providers in the technique since 2020.
A cancer – not STI – vaccine
Although DHHA hasn’t participated in Dr. Brewer’s training, Dr. O’Leary and her colleagues take a similar approach of simply stating which vaccines the child should receive that day. And they talk about HPV as a cancer vaccine instead of one to prevent a sexually transmitted infection.
In her experience, this emphasis changes the conversation. Dr. O’Leary described a typical comment from parents as, “Oh, of course I would give my child a vaccine that could prevent cancer.”
Ana Rodriguez, MD, MPH, an obstetrician, became interested in raising rates of vaccination against HPV after watching too many women battle a preventable cancer. She worked for several years in the Rio Grande Valley along the U.S. border with Mexico, an impoverished rural area with poor access to health care and high rates of HPV infection.
“I would treat women very young – not even 30 years of age – already fighting advanced precancerous lesions secondary to HPV,” said Dr. Rodriguez, an associate professor of Obstetrics & Gynecology at the University of Texas Medical Branch at Galveston.
In 2016, when Texas ranked 47th in the nation for rates of up-to-date HPV vaccination, Dr. Rodriguez helped launch a community-based educational campaign in four rural counties in the Rio Grande Valley using social media, radio, and in-person meetings with school PTA members and members of school boards to educate staff and parents about the need for vaccination against the infection.
In 2019, the team began offering the vaccine to children ages 9-12 years at back-to-school events, progress report nights, and other school events, pivoting to outdoor events using a mobile vaccine van after COVID-19 struck. They recently published a study showing that 73.6% of students who received their first dose of vaccine at age 11 or younger completed the series, compared with only 45.1% of children who got their first dose at age 12 or older.
Dr. Rodriguez encountered parents who felt 9 or 10 years old was too young because their children were not going to be sexually active anytime soon. Her response was to describe HPV as a tool to prevent cancer, telling parents, “If you vaccinate your kids young enough, they will be protected for life.”
Lifetime protection is another point in favor of giving HPV vaccine prior to Tdap and MenACWY. The response to the two-dose series of HPV in preadolescents is robust and long-lasting, with no downside to giving it a few years earlier. In contrast, immunity to MenACWY wanes after a few years, so the immunization must be given before children enter high school, when their risk for meningitis increases.
The annual toll of deaths in the United States from meningococcus, tetanus, diphtheria, and pertussis typically totals less than 100, whereas cancer deaths attributable to HPV infection number in the thousands each year. And that may be the best reason for attempting new strategies to help HPV vaccination rates catch up to the rest of the preteen vaccines.
Dr. Brewer’s work was supported by the Gillings School of Global Public Health, the Lineberger Comprehensive Cancer Center at the University of North Carolina, and from training grants from the National Cancer Institute. Dr. Brewer has received research funding from Merck, Pfizer, and GSK and served as a paid advisor for Merck. Dr. O’Leary reports no relevant financial relationships. Dr. Rodriguez received a grant from the Cancer Prevention Research Institute of Texas, and the study was supported by the Institute for Translational Sciences at the University of Texas Medical Branch.
A version of this article first appeared on Medscape.com.
For Sonja O’Leary, MD, higher rates of vaccination against human papillomavirus came with the flip of a switch.
Dr. O’Leary, the interim director of service for outpatient pediatric services at Denver Health and Hospital Authority, and her colleagues saw rates of HPV and other childhood immunizations drop during the COVID-19 pandemic and decided to act. Their health system, which includes 28 federally qualified health centers, offers vaccines at any inpatient or outpatient visit based on alerts from their electronic health record.
“It was actually really simple; it was really just changing our best-practice alert,” Dr. O’Leary said. Beginning in May 2021, and after notifying clinic staff of the impending change, DHHA dropped the alert for first dose of HPV from age 11 to 9.
The approach worked. Compared with the first 5 months of 2021, the percentage of children aged 9-13 years with an in-person visit who received at least one dose of HPV vaccine between June 2021 and August 2022 rose from 30.3% to 42.8% – a 41% increase. The share who received two doses by age 13 years more than doubled, from 19.3% to 42.7%, Dr. O’Leary said.
Frustrated efforts
Although those figures might seem to make an iron-clad case for earlier vaccinations against HPV – which is responsible for nearly 35,000 cases of cancer annually – factors beyond statistics have frustrated efforts to increase acceptance of the shots.
Data published in 2022 from the U.S. Centers for Disease Control and Prevention found that 89.6% of teens aged 13-17 years received at least one dose of tetanus, diphtheria, and acellular pertussis vaccine, and 89% got one or more doses of meningococcal conjugate vaccine. However, only 76.9% had received one or more doses of HPV vaccine. The rate of receiving both doses needed for full protection was much lower (61.7%).
Both the American Academy of Pediatrics and the American Cancer Society now endorse the strategy of offering HPV vaccine as early as age 9, which avoids the need for multiple shots at a single visit and results in more kids getting both doses. In a recent study that surveyed primary care professionals who see pediatric patients, 21% were already offering HPV vaccine at age 9, and another 48% were willing to try the approach.
What was the most common objection to the earlier age? Nearly three-quarters of clinicians said they felt that parents weren’t ready to talk about HPV vaccination yet.
Noel Brewer, PhD, one of the authors of the survey study, wondered why clinicians feel the need to bring up sex at all. “Providers should never be talking about sex when they are talking about vaccine, because that’s not the point,” said Dr. Brewer, the distinguished professor in public health at the University of North Carolina at Chapel Hill. He pointed out that providers don’t talk about the route of transmission for any other vaccine.
Dr. Brewer led a randomized controlled trial that trained pediatric clinicians in the “announcement” strategy, in which the clinician announces the vaccines that are due at that visit. If the parent hesitates, the clinician then probes further to identify and address their concerns and provides more information. If the parent is still not convinced, the clinician notes the discussion in the chart and tries again at the next visit.
The strategy was effective: Intervention clinics had a 5.4% higher rate of HPV vaccination coverage than control clinics after six months. Dr. Brewer and his colleagues have trained over 1,700 providers in the technique since 2020.
A cancer – not STI – vaccine
Although DHHA hasn’t participated in Dr. Brewer’s training, Dr. O’Leary and her colleagues take a similar approach of simply stating which vaccines the child should receive that day. And they talk about HPV as a cancer vaccine instead of one to prevent a sexually transmitted infection.
In her experience, this emphasis changes the conversation. Dr. O’Leary described a typical comment from parents as, “Oh, of course I would give my child a vaccine that could prevent cancer.”
Ana Rodriguez, MD, MPH, an obstetrician, became interested in raising rates of vaccination against HPV after watching too many women battle a preventable cancer. She worked for several years in the Rio Grande Valley along the U.S. border with Mexico, an impoverished rural area with poor access to health care and high rates of HPV infection.
“I would treat women very young – not even 30 years of age – already fighting advanced precancerous lesions secondary to HPV,” said Dr. Rodriguez, an associate professor of Obstetrics & Gynecology at the University of Texas Medical Branch at Galveston.
In 2016, when Texas ranked 47th in the nation for rates of up-to-date HPV vaccination, Dr. Rodriguez helped launch a community-based educational campaign in four rural counties in the Rio Grande Valley using social media, radio, and in-person meetings with school PTA members and members of school boards to educate staff and parents about the need for vaccination against the infection.
In 2019, the team began offering the vaccine to children ages 9-12 years at back-to-school events, progress report nights, and other school events, pivoting to outdoor events using a mobile vaccine van after COVID-19 struck. They recently published a study showing that 73.6% of students who received their first dose of vaccine at age 11 or younger completed the series, compared with only 45.1% of children who got their first dose at age 12 or older.
Dr. Rodriguez encountered parents who felt 9 or 10 years old was too young because their children were not going to be sexually active anytime soon. Her response was to describe HPV as a tool to prevent cancer, telling parents, “If you vaccinate your kids young enough, they will be protected for life.”
Lifetime protection is another point in favor of giving HPV vaccine prior to Tdap and MenACWY. The response to the two-dose series of HPV in preadolescents is robust and long-lasting, with no downside to giving it a few years earlier. In contrast, immunity to MenACWY wanes after a few years, so the immunization must be given before children enter high school, when their risk for meningitis increases.
The annual toll of deaths in the United States from meningococcus, tetanus, diphtheria, and pertussis typically totals less than 100, whereas cancer deaths attributable to HPV infection number in the thousands each year. And that may be the best reason for attempting new strategies to help HPV vaccination rates catch up to the rest of the preteen vaccines.
Dr. Brewer’s work was supported by the Gillings School of Global Public Health, the Lineberger Comprehensive Cancer Center at the University of North Carolina, and from training grants from the National Cancer Institute. Dr. Brewer has received research funding from Merck, Pfizer, and GSK and served as a paid advisor for Merck. Dr. O’Leary reports no relevant financial relationships. Dr. Rodriguez received a grant from the Cancer Prevention Research Institute of Texas, and the study was supported by the Institute for Translational Sciences at the University of Texas Medical Branch.
A version of this article first appeared on Medscape.com.
Single bivalent COVID booster is enough for now: CDC
“If you have completed your updated booster dose, you are currently up to date. There is not a recommendation to get another updated booster dose,” the CDC website now explains.
In January, the nation’s expert COVID panel recommended that the United States move toward an annual COVID booster shot in the fall, similar to the annual flu shot, that targets the most widely circulating strains of the virus. Recent studies have shown that booster strength wanes after a few months, spurring discussions of whether people at high risk of getting a severe case of COVID may need more than one annual shot.
September was the last time a new booster dose was recommended, when, at the time, the bivalent booster was released, offering new protection against Omicron variants of the virus. Health officials’ focus is now shifting from preventing infections to reducing the likelihood of severe ones, the San Francisco Chronicle reported.
“The bottom line is that there is some waning of protection for those who got boosters more than six months ago and haven’t had an intervening infection,” said Bob Wachter, MD, head of the University of California–San Francisco’s department of medicine, according to the Chronicle. “But the level of protection versus severe infection continues to be fairly high, good enough that people who aren’t at super high risk are probably fine waiting until a new booster comes out in the fall.”
The Wall Street Journal reported recently that many people have been asking their doctors to give them another booster, which is not authorized by the Food and Drug Administration.
About 8 in 10 people in the United States got the initial set of COVID-19 vaccines, which were first approved in August 2021. But just 16.4% of people in the United States have gotten the latest booster that was released in September, CDC data show.
A version of this article originally appeared on WebMD.com.
“If you have completed your updated booster dose, you are currently up to date. There is not a recommendation to get another updated booster dose,” the CDC website now explains.
In January, the nation’s expert COVID panel recommended that the United States move toward an annual COVID booster shot in the fall, similar to the annual flu shot, that targets the most widely circulating strains of the virus. Recent studies have shown that booster strength wanes after a few months, spurring discussions of whether people at high risk of getting a severe case of COVID may need more than one annual shot.
September was the last time a new booster dose was recommended, when, at the time, the bivalent booster was released, offering new protection against Omicron variants of the virus. Health officials’ focus is now shifting from preventing infections to reducing the likelihood of severe ones, the San Francisco Chronicle reported.
“The bottom line is that there is some waning of protection for those who got boosters more than six months ago and haven’t had an intervening infection,” said Bob Wachter, MD, head of the University of California–San Francisco’s department of medicine, according to the Chronicle. “But the level of protection versus severe infection continues to be fairly high, good enough that people who aren’t at super high risk are probably fine waiting until a new booster comes out in the fall.”
The Wall Street Journal reported recently that many people have been asking their doctors to give them another booster, which is not authorized by the Food and Drug Administration.
About 8 in 10 people in the United States got the initial set of COVID-19 vaccines, which were first approved in August 2021. But just 16.4% of people in the United States have gotten the latest booster that was released in September, CDC data show.
A version of this article originally appeared on WebMD.com.
“If you have completed your updated booster dose, you are currently up to date. There is not a recommendation to get another updated booster dose,” the CDC website now explains.
In January, the nation’s expert COVID panel recommended that the United States move toward an annual COVID booster shot in the fall, similar to the annual flu shot, that targets the most widely circulating strains of the virus. Recent studies have shown that booster strength wanes after a few months, spurring discussions of whether people at high risk of getting a severe case of COVID may need more than one annual shot.
September was the last time a new booster dose was recommended, when, at the time, the bivalent booster was released, offering new protection against Omicron variants of the virus. Health officials’ focus is now shifting from preventing infections to reducing the likelihood of severe ones, the San Francisco Chronicle reported.
“The bottom line is that there is some waning of protection for those who got boosters more than six months ago and haven’t had an intervening infection,” said Bob Wachter, MD, head of the University of California–San Francisco’s department of medicine, according to the Chronicle. “But the level of protection versus severe infection continues to be fairly high, good enough that people who aren’t at super high risk are probably fine waiting until a new booster comes out in the fall.”
The Wall Street Journal reported recently that many people have been asking their doctors to give them another booster, which is not authorized by the Food and Drug Administration.
About 8 in 10 people in the United States got the initial set of COVID-19 vaccines, which were first approved in August 2021. But just 16.4% of people in the United States have gotten the latest booster that was released in September, CDC data show.
A version of this article originally appeared on WebMD.com.
Negative expectations of COVID shots may amplify side effects
It fits the psychosomatic role of “nocebo effects,” the researchers say – when “psychological characteristics including anxiety, depression, and the tendency to amplify benign bodily sensations” cause participants to report more bad effects than others.
In August 2021, researchers in Hamburg, Germany, followed 1,678 adults getting a second shot of Pfizer or Moderna mRNA-based vaccines. Participants reported symptoms in a diary, starting 2 weeks ahead of the vaccinations and going 7 days afterward.
Some participants said they weren’t expecting much benefit. Researchers said these people were more likely to “catastrophize instead of normalize benign bodily sensations.” People who’d had a bad experience with their first shot were more likely to say they felt aches, pains, and other side effects from the second.
The research was published in JAMA Network Open.
“Clinician-patient interactions and public vaccine campaigns may both benefit from these insights by optimizing and contextualizing information provided about COVID-19 vaccines,” the researchers said. “Unfavorable nocebo-related adverse effects could then be prevented, and overall vaccine acceptance could be improved.”
More than half of participants, 52.1%, expected bad effects to happen from the shot. Another 7.6% said they would be hospitalized from those bad effects, and 10.6% said the effects would last in the long term.
The Washington Times reported that “substantial numbers of patients reported adverse effects after vaccination,” but people with positive expectations reported them as minor. “Those who scored higher for anxiety, depression, and other psychosocial factors were more likely to flag these issues as severe.”
A version of this article originally appeared on WebMD.com.
It fits the psychosomatic role of “nocebo effects,” the researchers say – when “psychological characteristics including anxiety, depression, and the tendency to amplify benign bodily sensations” cause participants to report more bad effects than others.
In August 2021, researchers in Hamburg, Germany, followed 1,678 adults getting a second shot of Pfizer or Moderna mRNA-based vaccines. Participants reported symptoms in a diary, starting 2 weeks ahead of the vaccinations and going 7 days afterward.
Some participants said they weren’t expecting much benefit. Researchers said these people were more likely to “catastrophize instead of normalize benign bodily sensations.” People who’d had a bad experience with their first shot were more likely to say they felt aches, pains, and other side effects from the second.
The research was published in JAMA Network Open.
“Clinician-patient interactions and public vaccine campaigns may both benefit from these insights by optimizing and contextualizing information provided about COVID-19 vaccines,” the researchers said. “Unfavorable nocebo-related adverse effects could then be prevented, and overall vaccine acceptance could be improved.”
More than half of participants, 52.1%, expected bad effects to happen from the shot. Another 7.6% said they would be hospitalized from those bad effects, and 10.6% said the effects would last in the long term.
The Washington Times reported that “substantial numbers of patients reported adverse effects after vaccination,” but people with positive expectations reported them as minor. “Those who scored higher for anxiety, depression, and other psychosocial factors were more likely to flag these issues as severe.”
A version of this article originally appeared on WebMD.com.
It fits the psychosomatic role of “nocebo effects,” the researchers say – when “psychological characteristics including anxiety, depression, and the tendency to amplify benign bodily sensations” cause participants to report more bad effects than others.
In August 2021, researchers in Hamburg, Germany, followed 1,678 adults getting a second shot of Pfizer or Moderna mRNA-based vaccines. Participants reported symptoms in a diary, starting 2 weeks ahead of the vaccinations and going 7 days afterward.
Some participants said they weren’t expecting much benefit. Researchers said these people were more likely to “catastrophize instead of normalize benign bodily sensations.” People who’d had a bad experience with their first shot were more likely to say they felt aches, pains, and other side effects from the second.
The research was published in JAMA Network Open.
“Clinician-patient interactions and public vaccine campaigns may both benefit from these insights by optimizing and contextualizing information provided about COVID-19 vaccines,” the researchers said. “Unfavorable nocebo-related adverse effects could then be prevented, and overall vaccine acceptance could be improved.”
More than half of participants, 52.1%, expected bad effects to happen from the shot. Another 7.6% said they would be hospitalized from those bad effects, and 10.6% said the effects would last in the long term.
The Washington Times reported that “substantial numbers of patients reported adverse effects after vaccination,” but people with positive expectations reported them as minor. “Those who scored higher for anxiety, depression, and other psychosocial factors were more likely to flag these issues as severe.”
A version of this article originally appeared on WebMD.com.
FROM JAMA NETWORK OPEN
Nasal COVID treatment shows early promise against multiple variants
if used within 4 hours after infection inside the nose, new research reveals.
Known as TriSb92 (brand name Covidin, from drugmaker Pandemblock Oy in Finland), the viral inhibitor also appears effective against all coronavirus variants of concern, neutralizing even the Omicron variants BA.5, XBB, and BQ.1.1 in laboratory and mice studies.
Unlike a COVID vaccine that boosts a person’s immune system as protection, the antiviral nasal spray works more directly by blocking the virus, acting as a “biological mask in the nasal cavity,” according to the biotechnology company set up to develop the treatment.
The product targets a stable site on the spike protein of the virus that is not known to mutate. This same site is shared among many variants of the COVID virus, so it could be effective against future variants as well, researchers note.
“In animal models, by directly inactivating the virus, TriSb92 offers immediate and robust protection” against coronavirus infection and severe COVID, said Anna R. Mäkelä, PhD, lead author of the study and a senior scientist in the department of virology at the University of Helsinki.
The study was published online in Nature Communications.
A potential first line of defense
Even in cases where the antiviral does not prevent coronavirus infection, the treatment could slow infection. This could happen by limiting how much virus could replicate early in the skin inside the nose and nasopharynx (the upper part of the throat), said Dr. Mäkelä, who is also CEO of Pandemblock Oy, the company set up to develop the product.
“TriSb92 could effectively tip the balance in favor of the [the person] and thereby help to reduce the risk of severe COVID-19 disease,” she said.
The antiviral also could offer an alternative to people who cannot or do not respond to a vaccine.
“Many elderly people as well as individuals who are immunodeficient for various reasons do not respond to vaccines and are in the need of other protective measures,” said Kalle Saksela, MD, PhD, senior author of the study and a virologist at the University of Helsinki.
Multiple doses needed?
TriSb92 is “one of multiple nasal spray approaches but unlikely to be as durable as effective nasal vaccines,” said Eric Topol, MD, a professor of molecular medicine and executive vice president of Scripps Research in La Jolla, Calif. Dr. Topol is also editor-in-chief of Medscape, WebMD’s sister site for medical professionals.
“The sprays generally require multiple doses per day, whereas a single dose of a nasal vaccine may protect for months,” he said.
“Both have the allure of being variant-proof,” Dr. Topol added.
Thinking small
Many laboratories are shifting from treatments using monoclonal antibodies to treatments using smaller antibody fragments called “nanobodies” because they are more cost-effective and are able to last longer in storage, Dr. Mäkelä and colleagues noted.
Several of these nanobodies have shown promise against viruses in cell culture or animal models, including as an intranasal preventive treatment for SARS-CoV-2.
One of these smaller antibodies is being developed from llamas for example; another comes from experiments with yeast to develop synthetic nanobodies; and in a third case, researchers isolated nanobodies from llamas and from mice and showed they could neutralize the SARS-CoV-2 virus.
These nanobodies and TriSb92 target a specific part of the coronavirus spike protein called the receptor-binding domain (RBD). The RBD is where the coronavirus attaches to cells in the body. These agents essentially trick the virus by changing the structure of the outside of cells, so they look like a virus has already fused to them. This way, the virus moves on.
Key findings
The researchers compared mice treated with TriSb92 before and after exposure to SARS-CoV-2. When given in advance, none of the treated mice had SARS-CoV-2 RNA in their lungs, while untreated mice in the comparison group had “abundant” levels.
Other evidence of viral infection showed similar differences between treated and untreated mice in the protective lining of cells called the epithelium inside the nose, nasal mucosa, and airways.
Similarly, when given 2 or 4 hours after SARS-CoV-2 had already infected the epithelium, TriSb92 was linked to a complete lack of the virus’s RNA in the lungs.
It was more effective against the virus, though, when given before infection rather than after, “perhaps due to the initial establishment of the infection,” the researchers note.
The company led by Dr. Mäkelä is now working to secure funding for clinical trials of TriSb92 in humans.
A version of this article first appeared on WebMD.com.
if used within 4 hours after infection inside the nose, new research reveals.
Known as TriSb92 (brand name Covidin, from drugmaker Pandemblock Oy in Finland), the viral inhibitor also appears effective against all coronavirus variants of concern, neutralizing even the Omicron variants BA.5, XBB, and BQ.1.1 in laboratory and mice studies.
Unlike a COVID vaccine that boosts a person’s immune system as protection, the antiviral nasal spray works more directly by blocking the virus, acting as a “biological mask in the nasal cavity,” according to the biotechnology company set up to develop the treatment.
The product targets a stable site on the spike protein of the virus that is not known to mutate. This same site is shared among many variants of the COVID virus, so it could be effective against future variants as well, researchers note.
“In animal models, by directly inactivating the virus, TriSb92 offers immediate and robust protection” against coronavirus infection and severe COVID, said Anna R. Mäkelä, PhD, lead author of the study and a senior scientist in the department of virology at the University of Helsinki.
The study was published online in Nature Communications.
A potential first line of defense
Even in cases where the antiviral does not prevent coronavirus infection, the treatment could slow infection. This could happen by limiting how much virus could replicate early in the skin inside the nose and nasopharynx (the upper part of the throat), said Dr. Mäkelä, who is also CEO of Pandemblock Oy, the company set up to develop the product.
“TriSb92 could effectively tip the balance in favor of the [the person] and thereby help to reduce the risk of severe COVID-19 disease,” she said.
The antiviral also could offer an alternative to people who cannot or do not respond to a vaccine.
“Many elderly people as well as individuals who are immunodeficient for various reasons do not respond to vaccines and are in the need of other protective measures,” said Kalle Saksela, MD, PhD, senior author of the study and a virologist at the University of Helsinki.
Multiple doses needed?
TriSb92 is “one of multiple nasal spray approaches but unlikely to be as durable as effective nasal vaccines,” said Eric Topol, MD, a professor of molecular medicine and executive vice president of Scripps Research in La Jolla, Calif. Dr. Topol is also editor-in-chief of Medscape, WebMD’s sister site for medical professionals.
“The sprays generally require multiple doses per day, whereas a single dose of a nasal vaccine may protect for months,” he said.
“Both have the allure of being variant-proof,” Dr. Topol added.
Thinking small
Many laboratories are shifting from treatments using monoclonal antibodies to treatments using smaller antibody fragments called “nanobodies” because they are more cost-effective and are able to last longer in storage, Dr. Mäkelä and colleagues noted.
Several of these nanobodies have shown promise against viruses in cell culture or animal models, including as an intranasal preventive treatment for SARS-CoV-2.
One of these smaller antibodies is being developed from llamas for example; another comes from experiments with yeast to develop synthetic nanobodies; and in a third case, researchers isolated nanobodies from llamas and from mice and showed they could neutralize the SARS-CoV-2 virus.
These nanobodies and TriSb92 target a specific part of the coronavirus spike protein called the receptor-binding domain (RBD). The RBD is where the coronavirus attaches to cells in the body. These agents essentially trick the virus by changing the structure of the outside of cells, so they look like a virus has already fused to them. This way, the virus moves on.
Key findings
The researchers compared mice treated with TriSb92 before and after exposure to SARS-CoV-2. When given in advance, none of the treated mice had SARS-CoV-2 RNA in their lungs, while untreated mice in the comparison group had “abundant” levels.
Other evidence of viral infection showed similar differences between treated and untreated mice in the protective lining of cells called the epithelium inside the nose, nasal mucosa, and airways.
Similarly, when given 2 or 4 hours after SARS-CoV-2 had already infected the epithelium, TriSb92 was linked to a complete lack of the virus’s RNA in the lungs.
It was more effective against the virus, though, when given before infection rather than after, “perhaps due to the initial establishment of the infection,” the researchers note.
The company led by Dr. Mäkelä is now working to secure funding for clinical trials of TriSb92 in humans.
A version of this article first appeared on WebMD.com.
if used within 4 hours after infection inside the nose, new research reveals.
Known as TriSb92 (brand name Covidin, from drugmaker Pandemblock Oy in Finland), the viral inhibitor also appears effective against all coronavirus variants of concern, neutralizing even the Omicron variants BA.5, XBB, and BQ.1.1 in laboratory and mice studies.
Unlike a COVID vaccine that boosts a person’s immune system as protection, the antiviral nasal spray works more directly by blocking the virus, acting as a “biological mask in the nasal cavity,” according to the biotechnology company set up to develop the treatment.
The product targets a stable site on the spike protein of the virus that is not known to mutate. This same site is shared among many variants of the COVID virus, so it could be effective against future variants as well, researchers note.
“In animal models, by directly inactivating the virus, TriSb92 offers immediate and robust protection” against coronavirus infection and severe COVID, said Anna R. Mäkelä, PhD, lead author of the study and a senior scientist in the department of virology at the University of Helsinki.
The study was published online in Nature Communications.
A potential first line of defense
Even in cases where the antiviral does not prevent coronavirus infection, the treatment could slow infection. This could happen by limiting how much virus could replicate early in the skin inside the nose and nasopharynx (the upper part of the throat), said Dr. Mäkelä, who is also CEO of Pandemblock Oy, the company set up to develop the product.
“TriSb92 could effectively tip the balance in favor of the [the person] and thereby help to reduce the risk of severe COVID-19 disease,” she said.
The antiviral also could offer an alternative to people who cannot or do not respond to a vaccine.
“Many elderly people as well as individuals who are immunodeficient for various reasons do not respond to vaccines and are in the need of other protective measures,” said Kalle Saksela, MD, PhD, senior author of the study and a virologist at the University of Helsinki.
Multiple doses needed?
TriSb92 is “one of multiple nasal spray approaches but unlikely to be as durable as effective nasal vaccines,” said Eric Topol, MD, a professor of molecular medicine and executive vice president of Scripps Research in La Jolla, Calif. Dr. Topol is also editor-in-chief of Medscape, WebMD’s sister site for medical professionals.
“The sprays generally require multiple doses per day, whereas a single dose of a nasal vaccine may protect for months,” he said.
“Both have the allure of being variant-proof,” Dr. Topol added.
Thinking small
Many laboratories are shifting from treatments using monoclonal antibodies to treatments using smaller antibody fragments called “nanobodies” because they are more cost-effective and are able to last longer in storage, Dr. Mäkelä and colleagues noted.
Several of these nanobodies have shown promise against viruses in cell culture or animal models, including as an intranasal preventive treatment for SARS-CoV-2.
One of these smaller antibodies is being developed from llamas for example; another comes from experiments with yeast to develop synthetic nanobodies; and in a third case, researchers isolated nanobodies from llamas and from mice and showed they could neutralize the SARS-CoV-2 virus.
These nanobodies and TriSb92 target a specific part of the coronavirus spike protein called the receptor-binding domain (RBD). The RBD is where the coronavirus attaches to cells in the body. These agents essentially trick the virus by changing the structure of the outside of cells, so they look like a virus has already fused to them. This way, the virus moves on.
Key findings
The researchers compared mice treated with TriSb92 before and after exposure to SARS-CoV-2. When given in advance, none of the treated mice had SARS-CoV-2 RNA in their lungs, while untreated mice in the comparison group had “abundant” levels.
Other evidence of viral infection showed similar differences between treated and untreated mice in the protective lining of cells called the epithelium inside the nose, nasal mucosa, and airways.
Similarly, when given 2 or 4 hours after SARS-CoV-2 had already infected the epithelium, TriSb92 was linked to a complete lack of the virus’s RNA in the lungs.
It was more effective against the virus, though, when given before infection rather than after, “perhaps due to the initial establishment of the infection,” the researchers note.
The company led by Dr. Mäkelä is now working to secure funding for clinical trials of TriSb92 in humans.
A version of this article first appeared on WebMD.com.
FROM NATURE COMMUNICATIONS
COVID-19 vaccinations lag in youngest children
Case: A 3-year-old girl presented to the emergency department after a brief seizure at home. She looked well on physical exam except for a fever of 103° F and thick rhinorrhea.
The intern on duty methodically worked through the standard list of questions. “Immunizations up to date?” she asked.
“Absolutely,” the child’s mom responded. “She’s had everything that’s recommended.”
“Including COVID-19 vaccine?” the intern prompted.
“No.” The mom responded with a shake of her head. “We don’t do that vaccine.”
That mom is not alone.
COVID-19 vaccines for children as young as 6 months were given emergency-use authorization by the Food and Drug Administration in June 2022 and in February 2023, the Advisory Committee on Immunization Practices included COVID-19 vaccine on the routine childhood immunization schedule.
COVID-19 vaccines are safe in young children, and they prevent the most severe outcomes associated with infection, including hospitalization. Newly released data confirm that the COVID-19 vaccines produced by Moderna and Pfizer also provide protection against symptomatic infection for at least 4 months after completion of the monovalent primary series.
In a Morbidity and Mortality Weekly Report released on Feb. 17, 2023, the Centers for Disease Control and Prevention reported the results of a test-negative design case-control study that enrolled symptomatic children tested for SARS-CoV-2 infection through Feb. 5, 2023, as part of the Increasing Community Access to Testing (ICATT) program.1 ICATT provides SARS-CoV-2 testing to persons aged at least 3 years at pharmacy and community-based testing sites nationwide.
Two doses of monovalent Moderna vaccine (complete primary series) was 60% effective against symptomatic infection (95% confidence interval, 49%-68%) 2 weeks to 2 months after receipt of the second dose. Vaccine effectiveness dropped to 36% (95% CI, 15%-52%) 3-4 months after the second dose. Three doses of monovalent Pfizer-BioNTech vaccine (complete primary series) was 31% effective (95% CI, 7%-49%) at preventing symptomatic infection 2 weeks to 4 months after receipt of the third dose. A bivalent vaccine dose for eligible children is expected to provide more protection against currently circulating SARS-CoV-2 variants.
Despite evidence of vaccine efficacy, very few parents are opting to protect their young children with the COVID-19 vaccine. The CDC reports that, as of March 1, 2023, only 8% of children under 2 years and 10.5% of children aged 2-4 years have initiated a COVID vaccine series. The American Academy of Pediatrics has emphasized that 15.0 million children between the ages of 6 months and 4 years have not yet received their first COVID-19 vaccine dose.
While the reasons underlying low COVID-19 vaccination rates in young children are complex, themes emerge. Socioeconomic disparities contributing to low vaccination rates in young children were highlighted in another recent MMWR article.2 Through Dec. 1, 2022, vaccination coverage was lower in rural counties (3.4%) than in urban counties (10.5%). Rates were lower in Black and Hispanic children than in White and Asian children.
According to the CDC, high rates of poverty in Black and Hispanic communities may affect vaccination coverage by affecting caregivers’ access to vaccination sites or ability to leave work to take their child to be vaccinated. Pediatric care providers have repeatedly been identified by parents as a source of trusted vaccine information and a strong provider recommendation is associated with vaccination, but not all families are receiving vaccine advice. In a 2022 Kaiser Family Foundation survey, parents of young children with annual household incomes above $90,000 were more likely to talk to their pediatrician about a COVID-19 vaccine than families with lower incomes.3Vaccine hesitancy, fueled by general confusion and skepticism, is another factor contributing to low vaccination rates. Admittedly, the recommendations are complex and on March 14, 2023, the FDA again revised the emergency-use authorization for young children. Some caregivers continue to express concerns about vaccine side effects as well as the belief that the vaccine won’t prevent their child from getting sick.
Kendall Purcell, MD, a pediatrician with Norton Children’s Medical Group in Louisville, Ky., recommends COVID-19 vaccination for her patients because it reduces the risk of severe disease. That factored into her own decision to vaccinate her 4-year-old son and 1-year-old daughter, but she hasn’t been able to convince the parents of all her patients. “Some feel that COVID-19 is not as severe for children, so the risks don’t outweigh the benefits when it comes to vaccinating their children.” Back to our case: In the ED the intern reviewed the laboratory testing she had ordered. She then sat down with the mother of the 3-year-old girl to discuss the diagnosis: febrile seizure associated with COVID-19 infection. Febrile seizures are a well-recognized but uncommon complication of COVID-19 in children. In a retrospective cohort study using electronic health record data, febrile seizures occurred in 0.5% of 8,854 children aged 0-5 years with COVID-19 infection.4 About 9% of these children required critical care services. In another cohort of hospitalized children, neurologic complications occurred in 7% of children hospitalized with COVID-19.5 Febrile and nonfebrile seizures were most commonly observed.
“I really thought COVID-19 was no big deal in young kids,” the mom said. “Parents need the facts.”
The facts are these: Through Dec. 2, 2022, more than 3 million cases of COVID-19 have been reported in children aged younger than 5 years. While COVID is generally less severe in young children than older adults, it is difficult to predict which children will become seriously ill. When children are hospitalized, one in four requires intensive care. COVID-19 is now a vaccine-preventable disease, but too many children remain unprotected.
Dr. Bryant is a pediatrician specializing in infectious diseases at the University of Louisville (Ky.) and Norton Children’s Hospital, also in Louisville. She is a member of the AAP’s Committee on Infectious Diseases and one of the lead authors of the AAP’s Recommendations for Prevention and Control of Influenza in Children, 2022-2023. The opinions expressed in this article are her own. Dr. Bryant discloses that she has served as an investigator on clinical trials funded by Pfizer, Enanta, and Gilead. Email her at pdnews@mdedge.com. Ms. Ezell is a recent graduate from Indiana University Southeast with a Bachelor of Arts in English. They have no conflicts of interest.
References
1. Fleming-Dutra KE et al. Morb Mortal Wkly Rep. 2023;72:177-182.
2. Murthy BP et al. Morb Mortal Wkly Rep. 2023;72:183-9.
3. Lopes L et al. KFF COVID-19 vaccine monitor: July 2022. San Francisco: Kaiser Family Foundation, 2022.
4. Cadet K et al. J Child Neurol. 2022 Apr;37(5):410-5.
5. Antoon JW et al. Pediatrics. 2022 Nov 1;150(5):e2022058167.
Case: A 3-year-old girl presented to the emergency department after a brief seizure at home. She looked well on physical exam except for a fever of 103° F and thick rhinorrhea.
The intern on duty methodically worked through the standard list of questions. “Immunizations up to date?” she asked.
“Absolutely,” the child’s mom responded. “She’s had everything that’s recommended.”
“Including COVID-19 vaccine?” the intern prompted.
“No.” The mom responded with a shake of her head. “We don’t do that vaccine.”
That mom is not alone.
COVID-19 vaccines for children as young as 6 months were given emergency-use authorization by the Food and Drug Administration in June 2022 and in February 2023, the Advisory Committee on Immunization Practices included COVID-19 vaccine on the routine childhood immunization schedule.
COVID-19 vaccines are safe in young children, and they prevent the most severe outcomes associated with infection, including hospitalization. Newly released data confirm that the COVID-19 vaccines produced by Moderna and Pfizer also provide protection against symptomatic infection for at least 4 months after completion of the monovalent primary series.
In a Morbidity and Mortality Weekly Report released on Feb. 17, 2023, the Centers for Disease Control and Prevention reported the results of a test-negative design case-control study that enrolled symptomatic children tested for SARS-CoV-2 infection through Feb. 5, 2023, as part of the Increasing Community Access to Testing (ICATT) program.1 ICATT provides SARS-CoV-2 testing to persons aged at least 3 years at pharmacy and community-based testing sites nationwide.
Two doses of monovalent Moderna vaccine (complete primary series) was 60% effective against symptomatic infection (95% confidence interval, 49%-68%) 2 weeks to 2 months after receipt of the second dose. Vaccine effectiveness dropped to 36% (95% CI, 15%-52%) 3-4 months after the second dose. Three doses of monovalent Pfizer-BioNTech vaccine (complete primary series) was 31% effective (95% CI, 7%-49%) at preventing symptomatic infection 2 weeks to 4 months after receipt of the third dose. A bivalent vaccine dose for eligible children is expected to provide more protection against currently circulating SARS-CoV-2 variants.
Despite evidence of vaccine efficacy, very few parents are opting to protect their young children with the COVID-19 vaccine. The CDC reports that, as of March 1, 2023, only 8% of children under 2 years and 10.5% of children aged 2-4 years have initiated a COVID vaccine series. The American Academy of Pediatrics has emphasized that 15.0 million children between the ages of 6 months and 4 years have not yet received their first COVID-19 vaccine dose.
While the reasons underlying low COVID-19 vaccination rates in young children are complex, themes emerge. Socioeconomic disparities contributing to low vaccination rates in young children were highlighted in another recent MMWR article.2 Through Dec. 1, 2022, vaccination coverage was lower in rural counties (3.4%) than in urban counties (10.5%). Rates were lower in Black and Hispanic children than in White and Asian children.
According to the CDC, high rates of poverty in Black and Hispanic communities may affect vaccination coverage by affecting caregivers’ access to vaccination sites or ability to leave work to take their child to be vaccinated. Pediatric care providers have repeatedly been identified by parents as a source of trusted vaccine information and a strong provider recommendation is associated with vaccination, but not all families are receiving vaccine advice. In a 2022 Kaiser Family Foundation survey, parents of young children with annual household incomes above $90,000 were more likely to talk to their pediatrician about a COVID-19 vaccine than families with lower incomes.3Vaccine hesitancy, fueled by general confusion and skepticism, is another factor contributing to low vaccination rates. Admittedly, the recommendations are complex and on March 14, 2023, the FDA again revised the emergency-use authorization for young children. Some caregivers continue to express concerns about vaccine side effects as well as the belief that the vaccine won’t prevent their child from getting sick.
Kendall Purcell, MD, a pediatrician with Norton Children’s Medical Group in Louisville, Ky., recommends COVID-19 vaccination for her patients because it reduces the risk of severe disease. That factored into her own decision to vaccinate her 4-year-old son and 1-year-old daughter, but she hasn’t been able to convince the parents of all her patients. “Some feel that COVID-19 is not as severe for children, so the risks don’t outweigh the benefits when it comes to vaccinating their children.” Back to our case: In the ED the intern reviewed the laboratory testing she had ordered. She then sat down with the mother of the 3-year-old girl to discuss the diagnosis: febrile seizure associated with COVID-19 infection. Febrile seizures are a well-recognized but uncommon complication of COVID-19 in children. In a retrospective cohort study using electronic health record data, febrile seizures occurred in 0.5% of 8,854 children aged 0-5 years with COVID-19 infection.4 About 9% of these children required critical care services. In another cohort of hospitalized children, neurologic complications occurred in 7% of children hospitalized with COVID-19.5 Febrile and nonfebrile seizures were most commonly observed.
“I really thought COVID-19 was no big deal in young kids,” the mom said. “Parents need the facts.”
The facts are these: Through Dec. 2, 2022, more than 3 million cases of COVID-19 have been reported in children aged younger than 5 years. While COVID is generally less severe in young children than older adults, it is difficult to predict which children will become seriously ill. When children are hospitalized, one in four requires intensive care. COVID-19 is now a vaccine-preventable disease, but too many children remain unprotected.
Dr. Bryant is a pediatrician specializing in infectious diseases at the University of Louisville (Ky.) and Norton Children’s Hospital, also in Louisville. She is a member of the AAP’s Committee on Infectious Diseases and one of the lead authors of the AAP’s Recommendations for Prevention and Control of Influenza in Children, 2022-2023. The opinions expressed in this article are her own. Dr. Bryant discloses that she has served as an investigator on clinical trials funded by Pfizer, Enanta, and Gilead. Email her at pdnews@mdedge.com. Ms. Ezell is a recent graduate from Indiana University Southeast with a Bachelor of Arts in English. They have no conflicts of interest.
References
1. Fleming-Dutra KE et al. Morb Mortal Wkly Rep. 2023;72:177-182.
2. Murthy BP et al. Morb Mortal Wkly Rep. 2023;72:183-9.
3. Lopes L et al. KFF COVID-19 vaccine monitor: July 2022. San Francisco: Kaiser Family Foundation, 2022.
4. Cadet K et al. J Child Neurol. 2022 Apr;37(5):410-5.
5. Antoon JW et al. Pediatrics. 2022 Nov 1;150(5):e2022058167.
Case: A 3-year-old girl presented to the emergency department after a brief seizure at home. She looked well on physical exam except for a fever of 103° F and thick rhinorrhea.
The intern on duty methodically worked through the standard list of questions. “Immunizations up to date?” she asked.
“Absolutely,” the child’s mom responded. “She’s had everything that’s recommended.”
“Including COVID-19 vaccine?” the intern prompted.
“No.” The mom responded with a shake of her head. “We don’t do that vaccine.”
That mom is not alone.
COVID-19 vaccines for children as young as 6 months were given emergency-use authorization by the Food and Drug Administration in June 2022 and in February 2023, the Advisory Committee on Immunization Practices included COVID-19 vaccine on the routine childhood immunization schedule.
COVID-19 vaccines are safe in young children, and they prevent the most severe outcomes associated with infection, including hospitalization. Newly released data confirm that the COVID-19 vaccines produced by Moderna and Pfizer also provide protection against symptomatic infection for at least 4 months after completion of the monovalent primary series.
In a Morbidity and Mortality Weekly Report released on Feb. 17, 2023, the Centers for Disease Control and Prevention reported the results of a test-negative design case-control study that enrolled symptomatic children tested for SARS-CoV-2 infection through Feb. 5, 2023, as part of the Increasing Community Access to Testing (ICATT) program.1 ICATT provides SARS-CoV-2 testing to persons aged at least 3 years at pharmacy and community-based testing sites nationwide.
Two doses of monovalent Moderna vaccine (complete primary series) was 60% effective against symptomatic infection (95% confidence interval, 49%-68%) 2 weeks to 2 months after receipt of the second dose. Vaccine effectiveness dropped to 36% (95% CI, 15%-52%) 3-4 months after the second dose. Three doses of monovalent Pfizer-BioNTech vaccine (complete primary series) was 31% effective (95% CI, 7%-49%) at preventing symptomatic infection 2 weeks to 4 months after receipt of the third dose. A bivalent vaccine dose for eligible children is expected to provide more protection against currently circulating SARS-CoV-2 variants.
Despite evidence of vaccine efficacy, very few parents are opting to protect their young children with the COVID-19 vaccine. The CDC reports that, as of March 1, 2023, only 8% of children under 2 years and 10.5% of children aged 2-4 years have initiated a COVID vaccine series. The American Academy of Pediatrics has emphasized that 15.0 million children between the ages of 6 months and 4 years have not yet received their first COVID-19 vaccine dose.
While the reasons underlying low COVID-19 vaccination rates in young children are complex, themes emerge. Socioeconomic disparities contributing to low vaccination rates in young children were highlighted in another recent MMWR article.2 Through Dec. 1, 2022, vaccination coverage was lower in rural counties (3.4%) than in urban counties (10.5%). Rates were lower in Black and Hispanic children than in White and Asian children.
According to the CDC, high rates of poverty in Black and Hispanic communities may affect vaccination coverage by affecting caregivers’ access to vaccination sites or ability to leave work to take their child to be vaccinated. Pediatric care providers have repeatedly been identified by parents as a source of trusted vaccine information and a strong provider recommendation is associated with vaccination, but not all families are receiving vaccine advice. In a 2022 Kaiser Family Foundation survey, parents of young children with annual household incomes above $90,000 were more likely to talk to their pediatrician about a COVID-19 vaccine than families with lower incomes.3Vaccine hesitancy, fueled by general confusion and skepticism, is another factor contributing to low vaccination rates. Admittedly, the recommendations are complex and on March 14, 2023, the FDA again revised the emergency-use authorization for young children. Some caregivers continue to express concerns about vaccine side effects as well as the belief that the vaccine won’t prevent their child from getting sick.
Kendall Purcell, MD, a pediatrician with Norton Children’s Medical Group in Louisville, Ky., recommends COVID-19 vaccination for her patients because it reduces the risk of severe disease. That factored into her own decision to vaccinate her 4-year-old son and 1-year-old daughter, but she hasn’t been able to convince the parents of all her patients. “Some feel that COVID-19 is not as severe for children, so the risks don’t outweigh the benefits when it comes to vaccinating their children.” Back to our case: In the ED the intern reviewed the laboratory testing she had ordered. She then sat down with the mother of the 3-year-old girl to discuss the diagnosis: febrile seizure associated with COVID-19 infection. Febrile seizures are a well-recognized but uncommon complication of COVID-19 in children. In a retrospective cohort study using electronic health record data, febrile seizures occurred in 0.5% of 8,854 children aged 0-5 years with COVID-19 infection.4 About 9% of these children required critical care services. In another cohort of hospitalized children, neurologic complications occurred in 7% of children hospitalized with COVID-19.5 Febrile and nonfebrile seizures were most commonly observed.
“I really thought COVID-19 was no big deal in young kids,” the mom said. “Parents need the facts.”
The facts are these: Through Dec. 2, 2022, more than 3 million cases of COVID-19 have been reported in children aged younger than 5 years. While COVID is generally less severe in young children than older adults, it is difficult to predict which children will become seriously ill. When children are hospitalized, one in four requires intensive care. COVID-19 is now a vaccine-preventable disease, but too many children remain unprotected.
Dr. Bryant is a pediatrician specializing in infectious diseases at the University of Louisville (Ky.) and Norton Children’s Hospital, also in Louisville. She is a member of the AAP’s Committee on Infectious Diseases and one of the lead authors of the AAP’s Recommendations for Prevention and Control of Influenza in Children, 2022-2023. The opinions expressed in this article are her own. Dr. Bryant discloses that she has served as an investigator on clinical trials funded by Pfizer, Enanta, and Gilead. Email her at pdnews@mdedge.com. Ms. Ezell is a recent graduate from Indiana University Southeast with a Bachelor of Arts in English. They have no conflicts of interest.
References
1. Fleming-Dutra KE et al. Morb Mortal Wkly Rep. 2023;72:177-182.
2. Murthy BP et al. Morb Mortal Wkly Rep. 2023;72:183-9.
3. Lopes L et al. KFF COVID-19 vaccine monitor: July 2022. San Francisco: Kaiser Family Foundation, 2022.
4. Cadet K et al. J Child Neurol. 2022 Apr;37(5):410-5.
5. Antoon JW et al. Pediatrics. 2022 Nov 1;150(5):e2022058167.
NOVIDs: Do some have the genes to dodge COVID?
As a field service representative for a slot machine company, Ryan Alexander, 37, of Louisville, Ky., spends his working hours in casinos, covering a large territory including Norfolk, Va., Indianapolis, and Charlotte. Social distancing in the casinos is not the norm. Despite all this up-close contact with people, he said he is still COVID-free, 3 years into the pandemic.
There was one nervous night when his temperature rose to 101° F, and he figured the virus had caught up with him. “I took a test and was fine,” he said, relieved that the result was negative. The fever disappeared, and he was back to normal soon. “Maybe it was just an exhausting day.”
Mr. Alexander is one of those people who have managed – or at least think they have managed – to avoid getting COVID-19.
He is, some say, a NOVID. While some scientists cringe at the term, it’s caught on to describe these virus super-dodgers. Online entrepreneurs offer NOVID-19 T-shirts, masks, and stickers, in case these super-healthy or super-lucky folks want to publicize their good luck. On Twitter, NOVIDs share stories of how they’ve done it.
How many NOVIDs?
As of March 16, according to the CDC, almost 104 million cases of COVID – about one-third of the U.S. population – have been reported, but many cases are known to go unreported. About half of American adults surveyed said they have had COVID, according to a December report by the COVID States Project, a multiuniversity effort to supply pandemic data.
As the numbers settle over time, though, it becomes clearer that some in the U.S. have apparently managed to avoid the virus.
But some scientists bristle at the term NOVIDs. They prefer the term “resisters,” according to Elena Hsieh, MD, associate professor of pediatrics and immunology at the University of Colorado at Denver, Aurora. Currently, she said, there is much more information on who is more susceptible to contracting severe COVID than who is resistant.
Dr. Hsieh is one of the regional coordinators for the COVID Human Genetic Effort, an international consortium of more than 250 researchers and doctors dedicated to discovering the genetic and immunological bases of the forms of SARS-CoV-2 infection. These researchers and others are looking for explanations for why some people get severe COVID while others seem resistant despite repeated exposure.
Resistance research
In determining explanations for resistance to infection, “the needle in the haystack that we are looking for is a change in the genetic code that would allow for you to avoid entry of the virus into the cell,” Dr. Hsieh said. “That is what being resistant to infection is.”
Part of the reason it’s so difficult to study resistance is defining a resister, she said. While many people consider themselves among that group because they’re been exposed multiple times – even with close family members infected and sick, yet they still felt fine – that doesn’t necessarily make them a resister, she said.
Those people could have been infected but remained without symptoms. “Resistance means the virus was inside you, it was near your cell and it did not infect your cell,” Dr. Hsieh said.
“I don’t think we know a lot so far,” Dr. Hsieh said about resisters. “I do believe that, just like there are genetic defects that make someone more susceptible, there are likely to be genetic defects that make somebody less susceptible.’’
“To identify genetic variants that are protective is a really challenging thing to do,” agreed Peter K. Gregersen, MD, professor of genetics at the Feinstein Institutes for Medical Research at Northwell Health in Manhasset, N.Y. Dr. Gregersen is also a regional coordinator for the COVID Human Genetic Effort.
He suspects the number found to be truly resistant to COVID – versus dodging it so far – is going to be very small or not found at all.
“It may exist for COVID or it may not,” he said. Some people may simply have what he calls a robust immune response in the upper part of the throat, perhaps killing off the virus quickly as soon as it enters, so they don’t get a positive test.
Genetic resistance has been found for other diseases, such as HIV.
“For HIV, scientists have been able to identify a specific gene that codes for a protein that can prevent individuals from getting infected,” said Sabrina Assoumou, MD, MPH, professor of medicine at Boston University, who researches HIV.
However, she said, “we haven’t yet found a similar gene or protein that can prevent people from getting infected with SARS-CoV-2.”
What has been found “is that some people might have a mutation in a gene that encodes for what’s called human leukocyte antigen (HLA),” Dr. Assoumou said. HLA, a molecule found on the surface of most cells, has a crucial role in the immune response to foreign substances. “A mutation in HLA can make people less likely to have symptoms if they get infected. Individuals still get infected, but they are less likely to have symptoms.”
Other research has found that those with food allergies are also less likely to be infected. The researchers have speculated that the inflammation characteristic of allergic conditions may reduce levels of a protein called the ACE2 receptor on the surface of airway cells. The SARS-CoV-2 virus uses the receptor to enter the cells, so if levels are low, that could reduce the ability of the virus to infect people.
The COVID Human Genetic Effort continues to search for participants, both those who were admitted to a hospital or repeatedly seen at a hospital because of COVID, as well as those who did not get infected, even after “intense and repeated” exposure.
The number of people likely to be resistant is much smaller, Dr. Hsieh said, than the number of people susceptible to severe disease.
The testing ... or lack thereof factor
The timing of testing and a person’s “infection profile” may be factors in people incorrectly declaring themselves NOVIDs, said Anne Wyllie, PhD, a research scientist in epidemiology at the Yale School of Public Health in New Haven, Conn., and a codeveloper of a saliva PCR test for COVID.
“Infection profiles can vary between individuals,” she said. For some, the infection may start in the lower respiratory tract, others in the higher respiratory tract. “Depending on where the virus takes up residence, that can affect test results.”
Then there’s the following-instructions factor. “It’s very likely that due to tests not being done at the right time, with the right sample, or not repeated if there is ongoing evidence of symptoms, that there are individuals out there who believe they are NOVIDs but just missed catching their infection at the window of opportunity.” Dr. Wyllie said.
Susceptibility research
“The part we have proven is the genetic defect that would make you more susceptible to having severe disease,” Dr. Hsieh said.
Many published papers report that inherited and/or autoimmune deficiencies of type I interferon immunity, important for combating viral infections and modulating the immune response, can be a significant cause of life-threatening COVID pneumonia.
More recently, researchers, including Jean-Laurent Casanova, MD, PhD, professor at Rockefeller University, New York, and cofounder of the COVID Human Genome Effort, reported that deficiencies in a gene that plays a role in built-in immunity (the early response), and a gene involved in signaling within the immune cells, impair interferon production and may be the basis of severe COVID pneumonia.
NOVIDs’ habits run the gamut
As scientists continue their research, the NOVIDs have their own ideas about why they’ve dodged the pandemic bullet, and they have a variety of approaches to handling the pandemic now.
Ryan Alexander, the field rep who travels to casinos, is up to date on his vaccinations and has gotten all the recommended COVID shots. “I was wearing a mask when told to wear masks,” he said.
He still observes the social distance habit but lives life. “I’ve been to three or four concerts in the past couple of years.”
And does he worry his number will eventually be up? “Not at this point, no,” he said.
Joe Asher, 46, said he has not gotten COVID despite being in contact with about 100 people a day, on average. He works as a bartender at an Evansville, Ind., brewery.
“On a Friday night, we can get 500 people,” he said. “I feel like almost everyone at the brewery got it. There’s no way I wasn’t exposed to it all the time.”
However, he said, his coworkers who did get sick were very cautious about not infecting others, partly to help protect a coworker’s family with newborn twins, so that may have helped him stay uninfected, too.
Mr. Asher said he’s in good physical shape, and he’s worked around the public for a long time, so figures maybe that has strengthened his immune system. He’s always been careful about handwashing and said he’s perhaps a bit more conscious of germs than others might be.
Roselyn Mena, 68, a retired teacher in Richmond, Calif., about 16 miles northeast of San Francisco, said she’s managed to avoid the virus even though her husband, Jesus Mena, got infected, as did her two adult children. Now, she remains vigilant about wearing a mask. She tries not to eat inside at restaurants. “I’m super careful,” she said.
Besides her teacher training, Ms. Mena had training as a medical assistant and learned a lot about sanitizing methods. She gets an annual flu shot, washes her hands often, and uses hand sanitizer.
When she shops, she will ask salespeople not wearing masks to please mask. “Only one refused, and she got someone else [to wait on her].”
One reason she is always careful about hygiene, Ms. Mena said, is that “when I get a cold, I get really sick. It last and lasts.” Now, she does worry she might still get it, she said, with the prospect of getting long COVID driving that worry.
In the beginning of the pandemic, Rhonda Fleming, 68, of Los Angeles, lived in a “COVID bubble,” interacting with just a few close family members. As cases went down, she enlarged the bubble. Her two grown daughters got infected, but her granddaughter did not.
She has been vigilant about masking, she said, “and I do still mask in public places.” She has a mask wardrobe, including basic black as well as glittery masks for dressier occasions. “I always carry a mask because inevitably, a cougher surrounds me.”
Now, she will bypass restaurants if she doesn’t feel comfortable with the environment, choosing ones with good air flow. When she flew to Mexico recently, she masked on the plane.
At this point, she said she doesn’t worry about getting infected but remains careful.
Recently, two friends, who have been as diligent as she has about precautions, got infected, “and they don’t know how they got it.”
Bragging rights?
Until researchers separate out the true resisters from those who claim to be, some NOVIDs are simply quietly grateful for their luck, while others mention their COVID-free status to anyone who asks or who will listen, and are proud of it.
And what about those who wear a “NOVID” T-shirt?
“I would think they have a need to convey to the world they are different, perhaps special, because they beat COVID,” said Richard B. Joelson, a New York–based doctor of social work, a psychotherapist, and the author of Help Me! A Psychotherapist’s Tried-and-True Techniques for a Happier Relationship with Yourself and the People You Love. “They didn’t beat COVID, they just didn’t get it.”
Or they may be relieved they didn’t get sick, he said, because they feel defeated when they do. So “it’s a source of pride.” It might be the same people who tell anyone who will listen they never need a doctor or take no medicines, he said.
Even though science may prove many NOVIDs are inaccurate when they call themselves resisters, Dr. Hsieh understands the temptation to talk about it. “It’s kind of cool to think you are supernatural,” she said. “It’s much more attractive than being susceptible. It’s a lot sexier.” ■
A version of this article first appeared on Medscape.com.
As a field service representative for a slot machine company, Ryan Alexander, 37, of Louisville, Ky., spends his working hours in casinos, covering a large territory including Norfolk, Va., Indianapolis, and Charlotte. Social distancing in the casinos is not the norm. Despite all this up-close contact with people, he said he is still COVID-free, 3 years into the pandemic.
There was one nervous night when his temperature rose to 101° F, and he figured the virus had caught up with him. “I took a test and was fine,” he said, relieved that the result was negative. The fever disappeared, and he was back to normal soon. “Maybe it was just an exhausting day.”
Mr. Alexander is one of those people who have managed – or at least think they have managed – to avoid getting COVID-19.
He is, some say, a NOVID. While some scientists cringe at the term, it’s caught on to describe these virus super-dodgers. Online entrepreneurs offer NOVID-19 T-shirts, masks, and stickers, in case these super-healthy or super-lucky folks want to publicize their good luck. On Twitter, NOVIDs share stories of how they’ve done it.
How many NOVIDs?
As of March 16, according to the CDC, almost 104 million cases of COVID – about one-third of the U.S. population – have been reported, but many cases are known to go unreported. About half of American adults surveyed said they have had COVID, according to a December report by the COVID States Project, a multiuniversity effort to supply pandemic data.
As the numbers settle over time, though, it becomes clearer that some in the U.S. have apparently managed to avoid the virus.
But some scientists bristle at the term NOVIDs. They prefer the term “resisters,” according to Elena Hsieh, MD, associate professor of pediatrics and immunology at the University of Colorado at Denver, Aurora. Currently, she said, there is much more information on who is more susceptible to contracting severe COVID than who is resistant.
Dr. Hsieh is one of the regional coordinators for the COVID Human Genetic Effort, an international consortium of more than 250 researchers and doctors dedicated to discovering the genetic and immunological bases of the forms of SARS-CoV-2 infection. These researchers and others are looking for explanations for why some people get severe COVID while others seem resistant despite repeated exposure.
Resistance research
In determining explanations for resistance to infection, “the needle in the haystack that we are looking for is a change in the genetic code that would allow for you to avoid entry of the virus into the cell,” Dr. Hsieh said. “That is what being resistant to infection is.”
Part of the reason it’s so difficult to study resistance is defining a resister, she said. While many people consider themselves among that group because they’re been exposed multiple times – even with close family members infected and sick, yet they still felt fine – that doesn’t necessarily make them a resister, she said.
Those people could have been infected but remained without symptoms. “Resistance means the virus was inside you, it was near your cell and it did not infect your cell,” Dr. Hsieh said.
“I don’t think we know a lot so far,” Dr. Hsieh said about resisters. “I do believe that, just like there are genetic defects that make someone more susceptible, there are likely to be genetic defects that make somebody less susceptible.’’
“To identify genetic variants that are protective is a really challenging thing to do,” agreed Peter K. Gregersen, MD, professor of genetics at the Feinstein Institutes for Medical Research at Northwell Health in Manhasset, N.Y. Dr. Gregersen is also a regional coordinator for the COVID Human Genetic Effort.
He suspects the number found to be truly resistant to COVID – versus dodging it so far – is going to be very small or not found at all.
“It may exist for COVID or it may not,” he said. Some people may simply have what he calls a robust immune response in the upper part of the throat, perhaps killing off the virus quickly as soon as it enters, so they don’t get a positive test.
Genetic resistance has been found for other diseases, such as HIV.
“For HIV, scientists have been able to identify a specific gene that codes for a protein that can prevent individuals from getting infected,” said Sabrina Assoumou, MD, MPH, professor of medicine at Boston University, who researches HIV.
However, she said, “we haven’t yet found a similar gene or protein that can prevent people from getting infected with SARS-CoV-2.”
What has been found “is that some people might have a mutation in a gene that encodes for what’s called human leukocyte antigen (HLA),” Dr. Assoumou said. HLA, a molecule found on the surface of most cells, has a crucial role in the immune response to foreign substances. “A mutation in HLA can make people less likely to have symptoms if they get infected. Individuals still get infected, but they are less likely to have symptoms.”
Other research has found that those with food allergies are also less likely to be infected. The researchers have speculated that the inflammation characteristic of allergic conditions may reduce levels of a protein called the ACE2 receptor on the surface of airway cells. The SARS-CoV-2 virus uses the receptor to enter the cells, so if levels are low, that could reduce the ability of the virus to infect people.
The COVID Human Genetic Effort continues to search for participants, both those who were admitted to a hospital or repeatedly seen at a hospital because of COVID, as well as those who did not get infected, even after “intense and repeated” exposure.
The number of people likely to be resistant is much smaller, Dr. Hsieh said, than the number of people susceptible to severe disease.
The testing ... or lack thereof factor
The timing of testing and a person’s “infection profile” may be factors in people incorrectly declaring themselves NOVIDs, said Anne Wyllie, PhD, a research scientist in epidemiology at the Yale School of Public Health in New Haven, Conn., and a codeveloper of a saliva PCR test for COVID.
“Infection profiles can vary between individuals,” she said. For some, the infection may start in the lower respiratory tract, others in the higher respiratory tract. “Depending on where the virus takes up residence, that can affect test results.”
Then there’s the following-instructions factor. “It’s very likely that due to tests not being done at the right time, with the right sample, or not repeated if there is ongoing evidence of symptoms, that there are individuals out there who believe they are NOVIDs but just missed catching their infection at the window of opportunity.” Dr. Wyllie said.
Susceptibility research
“The part we have proven is the genetic defect that would make you more susceptible to having severe disease,” Dr. Hsieh said.
Many published papers report that inherited and/or autoimmune deficiencies of type I interferon immunity, important for combating viral infections and modulating the immune response, can be a significant cause of life-threatening COVID pneumonia.
More recently, researchers, including Jean-Laurent Casanova, MD, PhD, professor at Rockefeller University, New York, and cofounder of the COVID Human Genome Effort, reported that deficiencies in a gene that plays a role in built-in immunity (the early response), and a gene involved in signaling within the immune cells, impair interferon production and may be the basis of severe COVID pneumonia.
NOVIDs’ habits run the gamut
As scientists continue their research, the NOVIDs have their own ideas about why they’ve dodged the pandemic bullet, and they have a variety of approaches to handling the pandemic now.
Ryan Alexander, the field rep who travels to casinos, is up to date on his vaccinations and has gotten all the recommended COVID shots. “I was wearing a mask when told to wear masks,” he said.
He still observes the social distance habit but lives life. “I’ve been to three or four concerts in the past couple of years.”
And does he worry his number will eventually be up? “Not at this point, no,” he said.
Joe Asher, 46, said he has not gotten COVID despite being in contact with about 100 people a day, on average. He works as a bartender at an Evansville, Ind., brewery.
“On a Friday night, we can get 500 people,” he said. “I feel like almost everyone at the brewery got it. There’s no way I wasn’t exposed to it all the time.”
However, he said, his coworkers who did get sick were very cautious about not infecting others, partly to help protect a coworker’s family with newborn twins, so that may have helped him stay uninfected, too.
Mr. Asher said he’s in good physical shape, and he’s worked around the public for a long time, so figures maybe that has strengthened his immune system. He’s always been careful about handwashing and said he’s perhaps a bit more conscious of germs than others might be.
Roselyn Mena, 68, a retired teacher in Richmond, Calif., about 16 miles northeast of San Francisco, said she’s managed to avoid the virus even though her husband, Jesus Mena, got infected, as did her two adult children. Now, she remains vigilant about wearing a mask. She tries not to eat inside at restaurants. “I’m super careful,” she said.
Besides her teacher training, Ms. Mena had training as a medical assistant and learned a lot about sanitizing methods. She gets an annual flu shot, washes her hands often, and uses hand sanitizer.
When she shops, she will ask salespeople not wearing masks to please mask. “Only one refused, and she got someone else [to wait on her].”
One reason she is always careful about hygiene, Ms. Mena said, is that “when I get a cold, I get really sick. It last and lasts.” Now, she does worry she might still get it, she said, with the prospect of getting long COVID driving that worry.
In the beginning of the pandemic, Rhonda Fleming, 68, of Los Angeles, lived in a “COVID bubble,” interacting with just a few close family members. As cases went down, she enlarged the bubble. Her two grown daughters got infected, but her granddaughter did not.
She has been vigilant about masking, she said, “and I do still mask in public places.” She has a mask wardrobe, including basic black as well as glittery masks for dressier occasions. “I always carry a mask because inevitably, a cougher surrounds me.”
Now, she will bypass restaurants if she doesn’t feel comfortable with the environment, choosing ones with good air flow. When she flew to Mexico recently, she masked on the plane.
At this point, she said she doesn’t worry about getting infected but remains careful.
Recently, two friends, who have been as diligent as she has about precautions, got infected, “and they don’t know how they got it.”
Bragging rights?
Until researchers separate out the true resisters from those who claim to be, some NOVIDs are simply quietly grateful for their luck, while others mention their COVID-free status to anyone who asks or who will listen, and are proud of it.
And what about those who wear a “NOVID” T-shirt?
“I would think they have a need to convey to the world they are different, perhaps special, because they beat COVID,” said Richard B. Joelson, a New York–based doctor of social work, a psychotherapist, and the author of Help Me! A Psychotherapist’s Tried-and-True Techniques for a Happier Relationship with Yourself and the People You Love. “They didn’t beat COVID, they just didn’t get it.”
Or they may be relieved they didn’t get sick, he said, because they feel defeated when they do. So “it’s a source of pride.” It might be the same people who tell anyone who will listen they never need a doctor or take no medicines, he said.
Even though science may prove many NOVIDs are inaccurate when they call themselves resisters, Dr. Hsieh understands the temptation to talk about it. “It’s kind of cool to think you are supernatural,” she said. “It’s much more attractive than being susceptible. It’s a lot sexier.” ■
A version of this article first appeared on Medscape.com.
As a field service representative for a slot machine company, Ryan Alexander, 37, of Louisville, Ky., spends his working hours in casinos, covering a large territory including Norfolk, Va., Indianapolis, and Charlotte. Social distancing in the casinos is not the norm. Despite all this up-close contact with people, he said he is still COVID-free, 3 years into the pandemic.
There was one nervous night when his temperature rose to 101° F, and he figured the virus had caught up with him. “I took a test and was fine,” he said, relieved that the result was negative. The fever disappeared, and he was back to normal soon. “Maybe it was just an exhausting day.”
Mr. Alexander is one of those people who have managed – or at least think they have managed – to avoid getting COVID-19.
He is, some say, a NOVID. While some scientists cringe at the term, it’s caught on to describe these virus super-dodgers. Online entrepreneurs offer NOVID-19 T-shirts, masks, and stickers, in case these super-healthy or super-lucky folks want to publicize their good luck. On Twitter, NOVIDs share stories of how they’ve done it.
How many NOVIDs?
As of March 16, according to the CDC, almost 104 million cases of COVID – about one-third of the U.S. population – have been reported, but many cases are known to go unreported. About half of American adults surveyed said they have had COVID, according to a December report by the COVID States Project, a multiuniversity effort to supply pandemic data.
As the numbers settle over time, though, it becomes clearer that some in the U.S. have apparently managed to avoid the virus.
But some scientists bristle at the term NOVIDs. They prefer the term “resisters,” according to Elena Hsieh, MD, associate professor of pediatrics and immunology at the University of Colorado at Denver, Aurora. Currently, she said, there is much more information on who is more susceptible to contracting severe COVID than who is resistant.
Dr. Hsieh is one of the regional coordinators for the COVID Human Genetic Effort, an international consortium of more than 250 researchers and doctors dedicated to discovering the genetic and immunological bases of the forms of SARS-CoV-2 infection. These researchers and others are looking for explanations for why some people get severe COVID while others seem resistant despite repeated exposure.
Resistance research
In determining explanations for resistance to infection, “the needle in the haystack that we are looking for is a change in the genetic code that would allow for you to avoid entry of the virus into the cell,” Dr. Hsieh said. “That is what being resistant to infection is.”
Part of the reason it’s so difficult to study resistance is defining a resister, she said. While many people consider themselves among that group because they’re been exposed multiple times – even with close family members infected and sick, yet they still felt fine – that doesn’t necessarily make them a resister, she said.
Those people could have been infected but remained without symptoms. “Resistance means the virus was inside you, it was near your cell and it did not infect your cell,” Dr. Hsieh said.
“I don’t think we know a lot so far,” Dr. Hsieh said about resisters. “I do believe that, just like there are genetic defects that make someone more susceptible, there are likely to be genetic defects that make somebody less susceptible.’’
“To identify genetic variants that are protective is a really challenging thing to do,” agreed Peter K. Gregersen, MD, professor of genetics at the Feinstein Institutes for Medical Research at Northwell Health in Manhasset, N.Y. Dr. Gregersen is also a regional coordinator for the COVID Human Genetic Effort.
He suspects the number found to be truly resistant to COVID – versus dodging it so far – is going to be very small or not found at all.
“It may exist for COVID or it may not,” he said. Some people may simply have what he calls a robust immune response in the upper part of the throat, perhaps killing off the virus quickly as soon as it enters, so they don’t get a positive test.
Genetic resistance has been found for other diseases, such as HIV.
“For HIV, scientists have been able to identify a specific gene that codes for a protein that can prevent individuals from getting infected,” said Sabrina Assoumou, MD, MPH, professor of medicine at Boston University, who researches HIV.
However, she said, “we haven’t yet found a similar gene or protein that can prevent people from getting infected with SARS-CoV-2.”
What has been found “is that some people might have a mutation in a gene that encodes for what’s called human leukocyte antigen (HLA),” Dr. Assoumou said. HLA, a molecule found on the surface of most cells, has a crucial role in the immune response to foreign substances. “A mutation in HLA can make people less likely to have symptoms if they get infected. Individuals still get infected, but they are less likely to have symptoms.”
Other research has found that those with food allergies are also less likely to be infected. The researchers have speculated that the inflammation characteristic of allergic conditions may reduce levels of a protein called the ACE2 receptor on the surface of airway cells. The SARS-CoV-2 virus uses the receptor to enter the cells, so if levels are low, that could reduce the ability of the virus to infect people.
The COVID Human Genetic Effort continues to search for participants, both those who were admitted to a hospital or repeatedly seen at a hospital because of COVID, as well as those who did not get infected, even after “intense and repeated” exposure.
The number of people likely to be resistant is much smaller, Dr. Hsieh said, than the number of people susceptible to severe disease.
The testing ... or lack thereof factor
The timing of testing and a person’s “infection profile” may be factors in people incorrectly declaring themselves NOVIDs, said Anne Wyllie, PhD, a research scientist in epidemiology at the Yale School of Public Health in New Haven, Conn., and a codeveloper of a saliva PCR test for COVID.
“Infection profiles can vary between individuals,” she said. For some, the infection may start in the lower respiratory tract, others in the higher respiratory tract. “Depending on where the virus takes up residence, that can affect test results.”
Then there’s the following-instructions factor. “It’s very likely that due to tests not being done at the right time, with the right sample, or not repeated if there is ongoing evidence of symptoms, that there are individuals out there who believe they are NOVIDs but just missed catching their infection at the window of opportunity.” Dr. Wyllie said.
Susceptibility research
“The part we have proven is the genetic defect that would make you more susceptible to having severe disease,” Dr. Hsieh said.
Many published papers report that inherited and/or autoimmune deficiencies of type I interferon immunity, important for combating viral infections and modulating the immune response, can be a significant cause of life-threatening COVID pneumonia.
More recently, researchers, including Jean-Laurent Casanova, MD, PhD, professor at Rockefeller University, New York, and cofounder of the COVID Human Genome Effort, reported that deficiencies in a gene that plays a role in built-in immunity (the early response), and a gene involved in signaling within the immune cells, impair interferon production and may be the basis of severe COVID pneumonia.
NOVIDs’ habits run the gamut
As scientists continue their research, the NOVIDs have their own ideas about why they’ve dodged the pandemic bullet, and they have a variety of approaches to handling the pandemic now.
Ryan Alexander, the field rep who travels to casinos, is up to date on his vaccinations and has gotten all the recommended COVID shots. “I was wearing a mask when told to wear masks,” he said.
He still observes the social distance habit but lives life. “I’ve been to three or four concerts in the past couple of years.”
And does he worry his number will eventually be up? “Not at this point, no,” he said.
Joe Asher, 46, said he has not gotten COVID despite being in contact with about 100 people a day, on average. He works as a bartender at an Evansville, Ind., brewery.
“On a Friday night, we can get 500 people,” he said. “I feel like almost everyone at the brewery got it. There’s no way I wasn’t exposed to it all the time.”
However, he said, his coworkers who did get sick were very cautious about not infecting others, partly to help protect a coworker’s family with newborn twins, so that may have helped him stay uninfected, too.
Mr. Asher said he’s in good physical shape, and he’s worked around the public for a long time, so figures maybe that has strengthened his immune system. He’s always been careful about handwashing and said he’s perhaps a bit more conscious of germs than others might be.
Roselyn Mena, 68, a retired teacher in Richmond, Calif., about 16 miles northeast of San Francisco, said she’s managed to avoid the virus even though her husband, Jesus Mena, got infected, as did her two adult children. Now, she remains vigilant about wearing a mask. She tries not to eat inside at restaurants. “I’m super careful,” she said.
Besides her teacher training, Ms. Mena had training as a medical assistant and learned a lot about sanitizing methods. She gets an annual flu shot, washes her hands often, and uses hand sanitizer.
When she shops, she will ask salespeople not wearing masks to please mask. “Only one refused, and she got someone else [to wait on her].”
One reason she is always careful about hygiene, Ms. Mena said, is that “when I get a cold, I get really sick. It last and lasts.” Now, she does worry she might still get it, she said, with the prospect of getting long COVID driving that worry.
In the beginning of the pandemic, Rhonda Fleming, 68, of Los Angeles, lived in a “COVID bubble,” interacting with just a few close family members. As cases went down, she enlarged the bubble. Her two grown daughters got infected, but her granddaughter did not.
She has been vigilant about masking, she said, “and I do still mask in public places.” She has a mask wardrobe, including basic black as well as glittery masks for dressier occasions. “I always carry a mask because inevitably, a cougher surrounds me.”
Now, she will bypass restaurants if she doesn’t feel comfortable with the environment, choosing ones with good air flow. When she flew to Mexico recently, she masked on the plane.
At this point, she said she doesn’t worry about getting infected but remains careful.
Recently, two friends, who have been as diligent as she has about precautions, got infected, “and they don’t know how they got it.”
Bragging rights?
Until researchers separate out the true resisters from those who claim to be, some NOVIDs are simply quietly grateful for their luck, while others mention their COVID-free status to anyone who asks or who will listen, and are proud of it.
And what about those who wear a “NOVID” T-shirt?
“I would think they have a need to convey to the world they are different, perhaps special, because they beat COVID,” said Richard B. Joelson, a New York–based doctor of social work, a psychotherapist, and the author of Help Me! A Psychotherapist’s Tried-and-True Techniques for a Happier Relationship with Yourself and the People You Love. “They didn’t beat COVID, they just didn’t get it.”
Or they may be relieved they didn’t get sick, he said, because they feel defeated when they do. So “it’s a source of pride.” It might be the same people who tell anyone who will listen they never need a doctor or take no medicines, he said.
Even though science may prove many NOVIDs are inaccurate when they call themselves resisters, Dr. Hsieh understands the temptation to talk about it. “It’s kind of cool to think you are supernatural,” she said. “It’s much more attractive than being susceptible. It’s a lot sexier.” ■
A version of this article first appeared on Medscape.com.
Factors linked with increased VTE risk in COVID outpatients
Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.
The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
Nearly 400,000 patients studied
Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.
VTE risk was low overall for ambulatory COVID patients.
“It is a reassuring study,” Dr. Fang said in an interview.
The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
Factors linked with high VTE risk
They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m2.
The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
Are routine anticoagulants justified?
Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.
“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
Mild COVID VTE risk similar to general population
The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.
Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.
Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
Physicians should inform patients of their higher risk
“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.
”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.
Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
Unanswered questions
Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.
However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.
One is the change in the COVID variant landscape.
“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.
The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.
Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”
Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.
Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.
The research was funded through Patient-Centered Outcomes Research Institute.
Dr. Hopkins reports no relevant financial relationships.
Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.
The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
Nearly 400,000 patients studied
Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.
VTE risk was low overall for ambulatory COVID patients.
“It is a reassuring study,” Dr. Fang said in an interview.
The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
Factors linked with high VTE risk
They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m2.
The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
Are routine anticoagulants justified?
Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.
“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
Mild COVID VTE risk similar to general population
The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.
Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.
Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
Physicians should inform patients of their higher risk
“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.
”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.
Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
Unanswered questions
Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.
However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.
One is the change in the COVID variant landscape.
“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.
The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.
Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”
Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.
Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.
The research was funded through Patient-Centered Outcomes Research Institute.
Dr. Hopkins reports no relevant financial relationships.
Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.
The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
Nearly 400,000 patients studied
Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.
VTE risk was low overall for ambulatory COVID patients.
“It is a reassuring study,” Dr. Fang said in an interview.
The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
Factors linked with high VTE risk
They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m2.
The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
Are routine anticoagulants justified?
Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.
“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
Mild COVID VTE risk similar to general population
The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.
Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.
Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
Physicians should inform patients of their higher risk
“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.
”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.
Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
Unanswered questions
Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.
However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.
One is the change in the COVID variant landscape.
“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.
The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.
Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”
Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.
Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.
The research was funded through Patient-Centered Outcomes Research Institute.
Dr. Hopkins reports no relevant financial relationships.
FROM JAMA NETWORK OPEN
Measles exposures in Kentucky have CDC on alert
The Centers for Disease Control and Prevention has issued a Health Alert Network (HAN) health advisory notifying clinicians and public health officials of a confirmed measles case in an individual who for 2 days (February 17-18) attended a large religious gathering that was attended by an estimated 20,000 people at Asbury University in Wilmore, Ky.
Given that large numbers of people might have been exposed to the attendee (who was not vaccinated) and that the individual had a history of recent international travel, the CDC has encouraged clinicians to be vigilant for patients presenting with symptoms that meet the measles case definition. A steady increase in measles cases from 49 in 2021 to 121 in 2022 in children who were not fully vaccinated – coupled with outbreaks in Ohio and Minnesota – underscores the potential gravity of the CDC advisory as well as the need to mitigate the risk of ongoing or secondary transmission.
Currently, little is known about the individual who contracted measles other than the fact that he is a resident of Jessamine County, Ky., according to a news release issued by the Kentucky Department of Public Health. It is the third confirmed case in Kentucky over the past 3 months. State and national health officials are concerned that the individual might have transmitted measles to attendees visiting from other states.
David Sugerman, MD, MPH, a medical officer in CDC’s division of viral diseases and lead for the measles, rubella, and cytomegalovirus team, noted that the timing of the alert coincides with the period in which persons who had had contact with the initial case patient might be expected to develop symptoms.
For clinicians, “It’s really about considering measles in any un- or undervaccinated patient that arrives at a clinic and recently traveled internationally,” Dr. Sugerman told this news organization. He explained that “when doctors are seeing patients, they’re not going to necessarily share that information off the bat when they present with fever or rash, or if their child has fever and rash, or that they traveled internationally. So, eliciting that history from the patient or their parents is really critical.”
The CDC recommends that measles be considered in anyone presenting with a febrile illness and symptoms that are clinically compatible with measles (that is, rash, cough, coryza, or conjunctivitis), as well as in patients who have recently traveled abroad, especially to countries with ongoing outbreaks, including India, Somalia, and Yemen.
“In general, if they’ve traveled internationally and they are undervaccinated, measles should be part of the differential diagnosis,” Sugerman said. He also emphasized the need to follow airborne isolation precautions in addition to general infection control measures.
Immediate triage is critical, especially since overcrowded waiting rooms might be filled with patients who are not yet eligible for vaccination or are not up to date or fully vaccinated.
“Measles is under airborne isolation criteria and precautions, and therefore, [patients] need to be placed as soon as possible into a negative pressure or airborne infection isolation room – and that should be a single room,” he explained. He noted, “In some settings, there may not be a negative pressure room, e.g., an outpatient pediatrics or family medicine office.”
Dr. Sugerman said that in these circumstances, patients should be placed in a room with masked health care providers who have received two doses of measles, mumps, and rubella (MMR) vaccine and that they should wear an N95 mask when entering the room and interviewing the patient.
Clinicians should follow CDC’s testing recommendations and collect a nasopharyngeal or throat swab or a urine specimen for PCR testing and a blood specimen for serology. In addition, they should immediately report cases to local and state public health authorities.
For all patients, it’s critical to be up to date on MMR vaccines, especially persons who are going to be traveling internationally. “We recommend that when they’ve got infants traveling with them who are 6-11 months of age, that they get a first dose (which we consider a zero dose), because they need a routine dose at 12-15 months, and then 4-6 years,” said Dr. Sugerman. He said that it’s safe for adults who are unsure of their status to receive an MMR dose as well.
Dr. Sugerman stressed that despite major strides, “we just don’t have enough coverage in all individuals in this country. Because people are traveling as often as they are, it can be imported. Until measles is eliminated globally, there’s going to be an ongoing risk of importation and potential spread amongst others in their household or community, especially amongst individuals who are not fully vaccinated and, in particular, amongst those who are unvaccinated,” he said.
Dr. Sugerman reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The Centers for Disease Control and Prevention has issued a Health Alert Network (HAN) health advisory notifying clinicians and public health officials of a confirmed measles case in an individual who for 2 days (February 17-18) attended a large religious gathering that was attended by an estimated 20,000 people at Asbury University in Wilmore, Ky.
Given that large numbers of people might have been exposed to the attendee (who was not vaccinated) and that the individual had a history of recent international travel, the CDC has encouraged clinicians to be vigilant for patients presenting with symptoms that meet the measles case definition. A steady increase in measles cases from 49 in 2021 to 121 in 2022 in children who were not fully vaccinated – coupled with outbreaks in Ohio and Minnesota – underscores the potential gravity of the CDC advisory as well as the need to mitigate the risk of ongoing or secondary transmission.
Currently, little is known about the individual who contracted measles other than the fact that he is a resident of Jessamine County, Ky., according to a news release issued by the Kentucky Department of Public Health. It is the third confirmed case in Kentucky over the past 3 months. State and national health officials are concerned that the individual might have transmitted measles to attendees visiting from other states.
David Sugerman, MD, MPH, a medical officer in CDC’s division of viral diseases and lead for the measles, rubella, and cytomegalovirus team, noted that the timing of the alert coincides with the period in which persons who had had contact with the initial case patient might be expected to develop symptoms.
For clinicians, “It’s really about considering measles in any un- or undervaccinated patient that arrives at a clinic and recently traveled internationally,” Dr. Sugerman told this news organization. He explained that “when doctors are seeing patients, they’re not going to necessarily share that information off the bat when they present with fever or rash, or if their child has fever and rash, or that they traveled internationally. So, eliciting that history from the patient or their parents is really critical.”
The CDC recommends that measles be considered in anyone presenting with a febrile illness and symptoms that are clinically compatible with measles (that is, rash, cough, coryza, or conjunctivitis), as well as in patients who have recently traveled abroad, especially to countries with ongoing outbreaks, including India, Somalia, and Yemen.
“In general, if they’ve traveled internationally and they are undervaccinated, measles should be part of the differential diagnosis,” Sugerman said. He also emphasized the need to follow airborne isolation precautions in addition to general infection control measures.
Immediate triage is critical, especially since overcrowded waiting rooms might be filled with patients who are not yet eligible for vaccination or are not up to date or fully vaccinated.
“Measles is under airborne isolation criteria and precautions, and therefore, [patients] need to be placed as soon as possible into a negative pressure or airborne infection isolation room – and that should be a single room,” he explained. He noted, “In some settings, there may not be a negative pressure room, e.g., an outpatient pediatrics or family medicine office.”
Dr. Sugerman said that in these circumstances, patients should be placed in a room with masked health care providers who have received two doses of measles, mumps, and rubella (MMR) vaccine and that they should wear an N95 mask when entering the room and interviewing the patient.
Clinicians should follow CDC’s testing recommendations and collect a nasopharyngeal or throat swab or a urine specimen for PCR testing and a blood specimen for serology. In addition, they should immediately report cases to local and state public health authorities.
For all patients, it’s critical to be up to date on MMR vaccines, especially persons who are going to be traveling internationally. “We recommend that when they’ve got infants traveling with them who are 6-11 months of age, that they get a first dose (which we consider a zero dose), because they need a routine dose at 12-15 months, and then 4-6 years,” said Dr. Sugerman. He said that it’s safe for adults who are unsure of their status to receive an MMR dose as well.
Dr. Sugerman stressed that despite major strides, “we just don’t have enough coverage in all individuals in this country. Because people are traveling as often as they are, it can be imported. Until measles is eliminated globally, there’s going to be an ongoing risk of importation and potential spread amongst others in their household or community, especially amongst individuals who are not fully vaccinated and, in particular, amongst those who are unvaccinated,” he said.
Dr. Sugerman reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The Centers for Disease Control and Prevention has issued a Health Alert Network (HAN) health advisory notifying clinicians and public health officials of a confirmed measles case in an individual who for 2 days (February 17-18) attended a large religious gathering that was attended by an estimated 20,000 people at Asbury University in Wilmore, Ky.
Given that large numbers of people might have been exposed to the attendee (who was not vaccinated) and that the individual had a history of recent international travel, the CDC has encouraged clinicians to be vigilant for patients presenting with symptoms that meet the measles case definition. A steady increase in measles cases from 49 in 2021 to 121 in 2022 in children who were not fully vaccinated – coupled with outbreaks in Ohio and Minnesota – underscores the potential gravity of the CDC advisory as well as the need to mitigate the risk of ongoing or secondary transmission.
Currently, little is known about the individual who contracted measles other than the fact that he is a resident of Jessamine County, Ky., according to a news release issued by the Kentucky Department of Public Health. It is the third confirmed case in Kentucky over the past 3 months. State and national health officials are concerned that the individual might have transmitted measles to attendees visiting from other states.
David Sugerman, MD, MPH, a medical officer in CDC’s division of viral diseases and lead for the measles, rubella, and cytomegalovirus team, noted that the timing of the alert coincides with the period in which persons who had had contact with the initial case patient might be expected to develop symptoms.
For clinicians, “It’s really about considering measles in any un- or undervaccinated patient that arrives at a clinic and recently traveled internationally,” Dr. Sugerman told this news organization. He explained that “when doctors are seeing patients, they’re not going to necessarily share that information off the bat when they present with fever or rash, or if their child has fever and rash, or that they traveled internationally. So, eliciting that history from the patient or their parents is really critical.”
The CDC recommends that measles be considered in anyone presenting with a febrile illness and symptoms that are clinically compatible with measles (that is, rash, cough, coryza, or conjunctivitis), as well as in patients who have recently traveled abroad, especially to countries with ongoing outbreaks, including India, Somalia, and Yemen.
“In general, if they’ve traveled internationally and they are undervaccinated, measles should be part of the differential diagnosis,” Sugerman said. He also emphasized the need to follow airborne isolation precautions in addition to general infection control measures.
Immediate triage is critical, especially since overcrowded waiting rooms might be filled with patients who are not yet eligible for vaccination or are not up to date or fully vaccinated.
“Measles is under airborne isolation criteria and precautions, and therefore, [patients] need to be placed as soon as possible into a negative pressure or airborne infection isolation room – and that should be a single room,” he explained. He noted, “In some settings, there may not be a negative pressure room, e.g., an outpatient pediatrics or family medicine office.”
Dr. Sugerman said that in these circumstances, patients should be placed in a room with masked health care providers who have received two doses of measles, mumps, and rubella (MMR) vaccine and that they should wear an N95 mask when entering the room and interviewing the patient.
Clinicians should follow CDC’s testing recommendations and collect a nasopharyngeal or throat swab or a urine specimen for PCR testing and a blood specimen for serology. In addition, they should immediately report cases to local and state public health authorities.
For all patients, it’s critical to be up to date on MMR vaccines, especially persons who are going to be traveling internationally. “We recommend that when they’ve got infants traveling with them who are 6-11 months of age, that they get a first dose (which we consider a zero dose), because they need a routine dose at 12-15 months, and then 4-6 years,” said Dr. Sugerman. He said that it’s safe for adults who are unsure of their status to receive an MMR dose as well.
Dr. Sugerman stressed that despite major strides, “we just don’t have enough coverage in all individuals in this country. Because people are traveling as often as they are, it can be imported. Until measles is eliminated globally, there’s going to be an ongoing risk of importation and potential spread amongst others in their household or community, especially amongst individuals who are not fully vaccinated and, in particular, amongst those who are unvaccinated,” he said.
Dr. Sugerman reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
One in four parents lied about kids’ COVID status: Survey
More than 1 in 4 parents lied to school officials about their children’s COVID-19 status or refused to comply with public health rules during the height of the pandemic, a new study found. Researchers said they suspected the 26% of parents who misrepresented their children’s health status may have undercounted the actual figure.
“If anything, 26% is probably the minimum” of parents who misled school officials, said Angela Fagerlin, PhD, a researcher at the University of Utah Medical School, Salt Lake City.
In the survey, many parents said they considered it their right as parents to make their own decision about their children’s health status, said Dr. Fagerlin, who is also the chair of the department of population health sciences at the University of Utah School of Medicine.
“It appears that many parents were concerned about their children missing school,” she said. “At the same time, they’re potentially exposing other kids to a serious illness.”
In the survey, parents were asked whether they lied or misrepresented information about their children on seven different COVID-19 topics, including illness and vaccination status and if they followed quarantine protocols. Researchers tallied survey responses collected in December 2021 from 580 parents, whose average age was 36 and of whom 70% were women. Results were published in the journal JAMA Network Open.
Overall, 24% of parents said they lied to people that their children were with while knowing or suspecting the children had COVID. About half of parents cited at least one of the following reasons for doing so: parental freedom, child did not feel very sick, or wanted the child’s life to feel “normal.”
About 20% of parents said they avoided testing when they thought their child had COVID, and parents also reported allowing children to break quarantine rules at a similar rate. More than half of parents who avoided testing said they were worried testing would hurt or feel uncomfortable.
About 4 in 10 parents who lied about their child’s illness status or who lied about whether their child should be in quarantine said they did so because of guidance from a public figure such as a celebrity or politician. At least 3 in 10 said they lied because they could not miss work to stay home with their child.
“We need to do a better job of providing support mechanisms like paid sick leave for family illness so that parents don’t feel like their only option is to engage in misrepresentation or non-adherence to public health guidelines during a future infectious disease outbreak that matches or exceeds the magnitude of COVID-19,” says researcher Andrea Gurmankin Levy, PhD, of Middlesex (Conn.) Community College.
A version of this article first appeared on WebMD.com.
More than 1 in 4 parents lied to school officials about their children’s COVID-19 status or refused to comply with public health rules during the height of the pandemic, a new study found. Researchers said they suspected the 26% of parents who misrepresented their children’s health status may have undercounted the actual figure.
“If anything, 26% is probably the minimum” of parents who misled school officials, said Angela Fagerlin, PhD, a researcher at the University of Utah Medical School, Salt Lake City.
In the survey, many parents said they considered it their right as parents to make their own decision about their children’s health status, said Dr. Fagerlin, who is also the chair of the department of population health sciences at the University of Utah School of Medicine.
“It appears that many parents were concerned about their children missing school,” she said. “At the same time, they’re potentially exposing other kids to a serious illness.”
In the survey, parents were asked whether they lied or misrepresented information about their children on seven different COVID-19 topics, including illness and vaccination status and if they followed quarantine protocols. Researchers tallied survey responses collected in December 2021 from 580 parents, whose average age was 36 and of whom 70% were women. Results were published in the journal JAMA Network Open.
Overall, 24% of parents said they lied to people that their children were with while knowing or suspecting the children had COVID. About half of parents cited at least one of the following reasons for doing so: parental freedom, child did not feel very sick, or wanted the child’s life to feel “normal.”
About 20% of parents said they avoided testing when they thought their child had COVID, and parents also reported allowing children to break quarantine rules at a similar rate. More than half of parents who avoided testing said they were worried testing would hurt or feel uncomfortable.
About 4 in 10 parents who lied about their child’s illness status or who lied about whether their child should be in quarantine said they did so because of guidance from a public figure such as a celebrity or politician. At least 3 in 10 said they lied because they could not miss work to stay home with their child.
“We need to do a better job of providing support mechanisms like paid sick leave for family illness so that parents don’t feel like their only option is to engage in misrepresentation or non-adherence to public health guidelines during a future infectious disease outbreak that matches or exceeds the magnitude of COVID-19,” says researcher Andrea Gurmankin Levy, PhD, of Middlesex (Conn.) Community College.
A version of this article first appeared on WebMD.com.
More than 1 in 4 parents lied to school officials about their children’s COVID-19 status or refused to comply with public health rules during the height of the pandemic, a new study found. Researchers said they suspected the 26% of parents who misrepresented their children’s health status may have undercounted the actual figure.
“If anything, 26% is probably the minimum” of parents who misled school officials, said Angela Fagerlin, PhD, a researcher at the University of Utah Medical School, Salt Lake City.
In the survey, many parents said they considered it their right as parents to make their own decision about their children’s health status, said Dr. Fagerlin, who is also the chair of the department of population health sciences at the University of Utah School of Medicine.
“It appears that many parents were concerned about their children missing school,” she said. “At the same time, they’re potentially exposing other kids to a serious illness.”
In the survey, parents were asked whether they lied or misrepresented information about their children on seven different COVID-19 topics, including illness and vaccination status and if they followed quarantine protocols. Researchers tallied survey responses collected in December 2021 from 580 parents, whose average age was 36 and of whom 70% were women. Results were published in the journal JAMA Network Open.
Overall, 24% of parents said they lied to people that their children were with while knowing or suspecting the children had COVID. About half of parents cited at least one of the following reasons for doing so: parental freedom, child did not feel very sick, or wanted the child’s life to feel “normal.”
About 20% of parents said they avoided testing when they thought their child had COVID, and parents also reported allowing children to break quarantine rules at a similar rate. More than half of parents who avoided testing said they were worried testing would hurt or feel uncomfortable.
About 4 in 10 parents who lied about their child’s illness status or who lied about whether their child should be in quarantine said they did so because of guidance from a public figure such as a celebrity or politician. At least 3 in 10 said they lied because they could not miss work to stay home with their child.
“We need to do a better job of providing support mechanisms like paid sick leave for family illness so that parents don’t feel like their only option is to engage in misrepresentation or non-adherence to public health guidelines during a future infectious disease outbreak that matches or exceeds the magnitude of COVID-19,” says researcher Andrea Gurmankin Levy, PhD, of Middlesex (Conn.) Community College.
A version of this article first appeared on WebMD.com.
FROM JAMA NETWORK OPEN
Be vigilant about suspected cases of measles, expert advises
HONOLULU – .
“Measles is one of the most contagious of human viruses, and we are seeing a resurgence,” Adelaide A. Hebert, MD, professor of dermatology and pediatrics, and chief of pediatric dermatology at the Universtiy of Texas, Houston, said at the Hawaii Dermatology Seminar provided by MedscapeLIVE! “This is a re-emerging viral infection that dermatologists must recognize. Measles often starts behind the ears, and the eruption can look a lot like a drug eruption,” she noted. “Many of my pediatric colleagues have never seen a case of measles before because we have had a vaccine since 1963. Measles can almost entirely be prevented with vaccination. You get herd immunity if both doses have been administered to 95% of the population.”
In 2021, the World Health Organization estimated that 25 million children worldwide missed the measles vaccine. This caused 9 million cases of measles and 128,000 deaths in 22 countries, mainly from viral pneumonia, secondary bacterial pneumonia, and postviral encephalitis. According to the Centers for Disease Control and Prevention, 1,274 measles cases occurred in 31 states in 2019, mostly in individuals who were not vaccinated against it. Reported cases fell to 13 in 2020 but rose to 49 cases in 2021 and to 121 cases in 2022. As of Feb. 28, 2023, three cases have been reported in the United States.
“Measles spreads through direct contact with an infected person and through airborne transmission,” said Dr. Hebert, who recommended an article published in The Lancet for background on the topic. “Unlike COVID-19, measles has not mutated, so the original measles vaccine will work very well.”
Common clinical signs of measles include a generalized, maculopapular eruption lasting for 3 days or more, a temperature above 101° F plus cough, coryza, or conjunctivitis. Confirmation of measles can be made by PCR for viral RNA. Clinicians can also send a blood draw to the state public health lab for analysis. The serologic standard is a fourfold rise or fall in IgG titer with a paired sample sent 10-14 days after the initial collection.
“You can administer immune globulin up to 6 days after exposure to potentially prevent measles or decrease severity [in] immunocompromised hosts not previously vaccinated,” she said. The recommended intramuscular dose is 0.5 mL/kg, up to a dose of 15 mL/kg. Treatment is supportive and focused on relieving common symptoms and providing nutritional support. Administration of vitamin A is currently recommended for all children with acute measles.
Vitamin A supplements are available either as capsules (50,000 IU; 100,000 IU; 200,000 IU) or in liquid form. Parenteral formulations are also available. “Capsules need to be cut open and the contents squeezed into the mouths of children younger than 2 years,” Dr. Hebert said. “Capsules have the advantage that they can be given to mothers for administration at home.”
The recommended dosage of vitamin A in children is as follows, she said:
- Aged 12 months or older: 200,000 IU daily for 2 days.
- Aged 6 to 11 months: 100,000 IU daily for 2 days.
- Aged 6 months or younger: 50,000 IU daily for 2 days.
The American Academy of Pediatrics recommends a third dose given 2-4 weeks later to children with clinical signs and symptoms of vitamin A deficiency.
In an interview following the meeting, Moise L. Levy, MD, professor of internal medicine and pediatrics at the University of Texas, Austin, emphasized that when clinicians evaluate pediatric patients with viral symptoms such as fever, cough, and skin eruption, “measles should be in the differential diagnosis.” The 2022 uptick in measles cases “would be another reason to engage in regular vaccinations.”
Dr. Hebert disclosed that she is a consultant or advisor for AbbVie, Almirall, Amryt Pharma, Arcutis Biotherapeutics, Beiersdorf, Dermavant Sciences, Galderma Laboratories, L’Oreal, Novan, Ortho Dermatologics, Pfizer, and Verrica.
Dr. Levy disclosed that he is consultant or advisor for Abeona, Castle Creek, Dusa Pharma, Krystal Bio, Novan, Regeneron, and Sanofi-Genzyme.
MedscapeLIVE! and this news organization are owned by the same parent company.
HONOLULU – .
“Measles is one of the most contagious of human viruses, and we are seeing a resurgence,” Adelaide A. Hebert, MD, professor of dermatology and pediatrics, and chief of pediatric dermatology at the Universtiy of Texas, Houston, said at the Hawaii Dermatology Seminar provided by MedscapeLIVE! “This is a re-emerging viral infection that dermatologists must recognize. Measles often starts behind the ears, and the eruption can look a lot like a drug eruption,” she noted. “Many of my pediatric colleagues have never seen a case of measles before because we have had a vaccine since 1963. Measles can almost entirely be prevented with vaccination. You get herd immunity if both doses have been administered to 95% of the population.”
In 2021, the World Health Organization estimated that 25 million children worldwide missed the measles vaccine. This caused 9 million cases of measles and 128,000 deaths in 22 countries, mainly from viral pneumonia, secondary bacterial pneumonia, and postviral encephalitis. According to the Centers for Disease Control and Prevention, 1,274 measles cases occurred in 31 states in 2019, mostly in individuals who were not vaccinated against it. Reported cases fell to 13 in 2020 but rose to 49 cases in 2021 and to 121 cases in 2022. As of Feb. 28, 2023, three cases have been reported in the United States.
“Measles spreads through direct contact with an infected person and through airborne transmission,” said Dr. Hebert, who recommended an article published in The Lancet for background on the topic. “Unlike COVID-19, measles has not mutated, so the original measles vaccine will work very well.”
Common clinical signs of measles include a generalized, maculopapular eruption lasting for 3 days or more, a temperature above 101° F plus cough, coryza, or conjunctivitis. Confirmation of measles can be made by PCR for viral RNA. Clinicians can also send a blood draw to the state public health lab for analysis. The serologic standard is a fourfold rise or fall in IgG titer with a paired sample sent 10-14 days after the initial collection.
“You can administer immune globulin up to 6 days after exposure to potentially prevent measles or decrease severity [in] immunocompromised hosts not previously vaccinated,” she said. The recommended intramuscular dose is 0.5 mL/kg, up to a dose of 15 mL/kg. Treatment is supportive and focused on relieving common symptoms and providing nutritional support. Administration of vitamin A is currently recommended for all children with acute measles.
Vitamin A supplements are available either as capsules (50,000 IU; 100,000 IU; 200,000 IU) or in liquid form. Parenteral formulations are also available. “Capsules need to be cut open and the contents squeezed into the mouths of children younger than 2 years,” Dr. Hebert said. “Capsules have the advantage that they can be given to mothers for administration at home.”
The recommended dosage of vitamin A in children is as follows, she said:
- Aged 12 months or older: 200,000 IU daily for 2 days.
- Aged 6 to 11 months: 100,000 IU daily for 2 days.
- Aged 6 months or younger: 50,000 IU daily for 2 days.
The American Academy of Pediatrics recommends a third dose given 2-4 weeks later to children with clinical signs and symptoms of vitamin A deficiency.
In an interview following the meeting, Moise L. Levy, MD, professor of internal medicine and pediatrics at the University of Texas, Austin, emphasized that when clinicians evaluate pediatric patients with viral symptoms such as fever, cough, and skin eruption, “measles should be in the differential diagnosis.” The 2022 uptick in measles cases “would be another reason to engage in regular vaccinations.”
Dr. Hebert disclosed that she is a consultant or advisor for AbbVie, Almirall, Amryt Pharma, Arcutis Biotherapeutics, Beiersdorf, Dermavant Sciences, Galderma Laboratories, L’Oreal, Novan, Ortho Dermatologics, Pfizer, and Verrica.
Dr. Levy disclosed that he is consultant or advisor for Abeona, Castle Creek, Dusa Pharma, Krystal Bio, Novan, Regeneron, and Sanofi-Genzyme.
MedscapeLIVE! and this news organization are owned by the same parent company.
HONOLULU – .
“Measles is one of the most contagious of human viruses, and we are seeing a resurgence,” Adelaide A. Hebert, MD, professor of dermatology and pediatrics, and chief of pediatric dermatology at the Universtiy of Texas, Houston, said at the Hawaii Dermatology Seminar provided by MedscapeLIVE! “This is a re-emerging viral infection that dermatologists must recognize. Measles often starts behind the ears, and the eruption can look a lot like a drug eruption,” she noted. “Many of my pediatric colleagues have never seen a case of measles before because we have had a vaccine since 1963. Measles can almost entirely be prevented with vaccination. You get herd immunity if both doses have been administered to 95% of the population.”
In 2021, the World Health Organization estimated that 25 million children worldwide missed the measles vaccine. This caused 9 million cases of measles and 128,000 deaths in 22 countries, mainly from viral pneumonia, secondary bacterial pneumonia, and postviral encephalitis. According to the Centers for Disease Control and Prevention, 1,274 measles cases occurred in 31 states in 2019, mostly in individuals who were not vaccinated against it. Reported cases fell to 13 in 2020 but rose to 49 cases in 2021 and to 121 cases in 2022. As of Feb. 28, 2023, three cases have been reported in the United States.
“Measles spreads through direct contact with an infected person and through airborne transmission,” said Dr. Hebert, who recommended an article published in The Lancet for background on the topic. “Unlike COVID-19, measles has not mutated, so the original measles vaccine will work very well.”
Common clinical signs of measles include a generalized, maculopapular eruption lasting for 3 days or more, a temperature above 101° F plus cough, coryza, or conjunctivitis. Confirmation of measles can be made by PCR for viral RNA. Clinicians can also send a blood draw to the state public health lab for analysis. The serologic standard is a fourfold rise or fall in IgG titer with a paired sample sent 10-14 days after the initial collection.
“You can administer immune globulin up to 6 days after exposure to potentially prevent measles or decrease severity [in] immunocompromised hosts not previously vaccinated,” she said. The recommended intramuscular dose is 0.5 mL/kg, up to a dose of 15 mL/kg. Treatment is supportive and focused on relieving common symptoms and providing nutritional support. Administration of vitamin A is currently recommended for all children with acute measles.
Vitamin A supplements are available either as capsules (50,000 IU; 100,000 IU; 200,000 IU) or in liquid form. Parenteral formulations are also available. “Capsules need to be cut open and the contents squeezed into the mouths of children younger than 2 years,” Dr. Hebert said. “Capsules have the advantage that they can be given to mothers for administration at home.”
The recommended dosage of vitamin A in children is as follows, she said:
- Aged 12 months or older: 200,000 IU daily for 2 days.
- Aged 6 to 11 months: 100,000 IU daily for 2 days.
- Aged 6 months or younger: 50,000 IU daily for 2 days.
The American Academy of Pediatrics recommends a third dose given 2-4 weeks later to children with clinical signs and symptoms of vitamin A deficiency.
In an interview following the meeting, Moise L. Levy, MD, professor of internal medicine and pediatrics at the University of Texas, Austin, emphasized that when clinicians evaluate pediatric patients with viral symptoms such as fever, cough, and skin eruption, “measles should be in the differential diagnosis.” The 2022 uptick in measles cases “would be another reason to engage in regular vaccinations.”
Dr. Hebert disclosed that she is a consultant or advisor for AbbVie, Almirall, Amryt Pharma, Arcutis Biotherapeutics, Beiersdorf, Dermavant Sciences, Galderma Laboratories, L’Oreal, Novan, Ortho Dermatologics, Pfizer, and Verrica.
Dr. Levy disclosed that he is consultant or advisor for Abeona, Castle Creek, Dusa Pharma, Krystal Bio, Novan, Regeneron, and Sanofi-Genzyme.
MedscapeLIVE! and this news organization are owned by the same parent company.
AT THE MEDSCAPELIVE! HAWAII DERMATOLOGY SEMINAR