COVID-19 Updates

It’s a common scenario. A patient, Agnes, with symptoms of an upper respiratory infection (URI), but what’s the cause? Is it COVID-19, flu, or even RSV? I recently described just such a patient, an obese woman with type 2 diabetes, presenting with fever, cough, myalgia, and fatigue. I asked readers whether they agreed with my management of this patient.

Thank you for your comments as we continue to react to high rates of URIs. Your comments highlight the importance of local resources and practice habits when managing patients with URI.

It was clear that readers value testing to distinguish between infections. However, access to testing is highly variable around the world and is likely to be routinely used only in high-income countries. The Kaiser Family Foundation performed a cost analysis of testing for SARS-CoV-2 in 2020 and found, not surprisingly, wide variability in the cost of testing. Medicare covers tests at rates of $36-$143 per test; a study of list prices for SARS-CoV-2 tests at 93 hospitals found a median cost of $148 per test. And this does not include collection or facility fees. About 20% of tests cost more than $300.

These costs are prohibitive for many health systems. However, more devices have been introduced since that analysis, and competition and evolving technology should drive down prices. Generally, multiplex polymerase chain reaction (PCR) testing for multiple pathogens is less expensive than ordering two or three separate molecular tests and is more convenient for patients and practices alike.

Other reader comments focused on the challenges of getting accurate data on viral epidemiology, and there is certainly a time lag between infection trends and public health reports. This is exacerbated by underreporting of symptoms and more testing at home using antigen tests.

But please do not give up on epidemiology! If a test such as PCR is 90% sensitive for identifying infection, the yield in terms of the number of individuals infected with a particular virus should be high, and that is true when infection is in broad circulation. If 20% of a population of 1,000 has an infection and the test sensitivity is 90%, the yield of testing is 180 true cases versus 20 false positives.

However, if just 2% of the population of 1,000 has the infection in this same scenario, then only 18 true cases are identified. The effect on public health is certainly less, and a lower prevalence rate means that confounding variables, such as how long an individual might shed viral particles and the method of sample collection, have an outsized effect on results. This reduces the validity of diagnostic tests.

Even trends on a national level can provide some insight regarding whom to test. Traditionally, our practice has been to not routinely test patients for influenza or RSV from late spring to early fall unless there was a compelling reason, such as recent travel to an area where these infections were more prevalent. The loss of temporality for these infections since 2020 has altered this approach and made us pay more attention to reports from public health organizations.

I also appreciate the discussion of how to treat Agnes’s symptoms as she waits to improve, and anyone who suffers with or treats a viral URI knows that there are few interventions effective for such symptoms as cough and congestion. A systematic review of 29 randomized controlled trials of over-the-counter medications for cough yielded mixed and largely negative results.

Antihistamines alone do not seem to work, and guaifenesin was successful in only one of three trials. Combinations of different drug classes appeared to be slightly more effective.

My personal favorite for the management of acute cough is something that kids generally love: honey. In a review of 14 studies, 9 of which were limited to pediatric patients, honey was associated with significant reductions in cough frequency, cough severity, and total symptom score. However, there was a moderate risk of bias in the included research, and evidence of honey’s benefit in placebo-controlled trials was limited. Honey used in this research came in a variety of forms, so the best dosage is uncertain.

Clearly, advancements are needed. Better symptom management in viral URI will almost certainly improve productivity across the population and will probably reduce the inappropriate use of antibiotics as well. I have said for years that the scientists who can solve the Gordian knot of pediatric mucus deserve three Nobel prizes. I look forward to that golden day.

Dr. Vega is a clinical professor of family medicine at the University of California, Irvine. He reported a conflict of interest with McNeil Pharmaceuticals.

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

It’s a common scenario. A patient, Agnes, with symptoms of an upper respiratory infection (URI), but what’s the cause? Is it COVID-19, flu, or even RSV? I recently described just such a patient, an obese woman with type 2 diabetes, presenting with fever, cough, myalgia, and fatigue. I asked readers whether they agreed with my management of this patient.

Thank you for your comments as we continue to react to high rates of URIs. Your comments highlight the importance of local resources and practice habits when managing patients with URI.

It was clear that readers value testing to distinguish between infections. However, access to testing is highly variable around the world and is likely to be routinely used only in high-income countries. The Kaiser Family Foundation performed a cost analysis of testing for SARS-CoV-2 in 2020 and found, not surprisingly, wide variability in the cost of testing. Medicare covers tests at rates of $36-$143 per test; a study of list prices for SARS-CoV-2 tests at 93 hospitals found a median cost of $148 per test. And this does not include collection or facility fees. About 20% of tests cost more than $300.

These costs are prohibitive for many health systems. However, more devices have been introduced since that analysis, and competition and evolving technology should drive down prices. Generally, multiplex polymerase chain reaction (PCR) testing for multiple pathogens is less expensive than ordering two or three separate molecular tests and is more convenient for patients and practices alike.

Other reader comments focused on the challenges of getting accurate data on viral epidemiology, and there is certainly a time lag between infection trends and public health reports. This is exacerbated by underreporting of symptoms and more testing at home using antigen tests.

But please do not give up on epidemiology! If a test such as PCR is 90% sensitive for identifying infection, the yield in terms of the number of individuals infected with a particular virus should be high, and that is true when infection is in broad circulation. If 20% of a population of 1,000 has an infection and the test sensitivity is 90%, the yield of testing is 180 true cases versus 20 false positives.

However, if just 2% of the population of 1,000 has the infection in this same scenario, then only 18 true cases are identified. The effect on public health is certainly less, and a lower prevalence rate means that confounding variables, such as how long an individual might shed viral particles and the method of sample collection, have an outsized effect on results. This reduces the validity of diagnostic tests.

Even trends on a national level can provide some insight regarding whom to test. Traditionally, our practice has been to not routinely test patients for influenza or RSV from late spring to early fall unless there was a compelling reason, such as recent travel to an area where these infections were more prevalent. The loss of temporality for these infections since 2020 has altered this approach and made us pay more attention to reports from public health organizations.

I also appreciate the discussion of how to treat Agnes’s symptoms as she waits to improve, and anyone who suffers with or treats a viral URI knows that there are few interventions effective for such symptoms as cough and congestion. A systematic review of 29 randomized controlled trials of over-the-counter medications for cough yielded mixed and largely negative results.

Antihistamines alone do not seem to work, and guaifenesin was successful in only one of three trials. Combinations of different drug classes appeared to be slightly more effective.

My personal favorite for the management of acute cough is something that kids generally love: honey. In a review of 14 studies, 9 of which were limited to pediatric patients, honey was associated with significant reductions in cough frequency, cough severity, and total symptom score. However, there was a moderate risk of bias in the included research, and evidence of honey’s benefit in placebo-controlled trials was limited. Honey used in this research came in a variety of forms, so the best dosage is uncertain.

Clearly, advancements are needed. Better symptom management in viral URI will almost certainly improve productivity across the population and will probably reduce the inappropriate use of antibiotics as well. I have said for years that the scientists who can solve the Gordian knot of pediatric mucus deserve three Nobel prizes. I look forward to that golden day.

Dr. Vega is a clinical professor of family medicine at the University of California, Irvine. He reported a conflict of interest with McNeil Pharmaceuticals.

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

It’s a common scenario. A patient, Agnes, with symptoms of an upper respiratory infection (URI), but what’s the cause? Is it COVID-19, flu, or even RSV? I recently described just such a patient, an obese woman with type 2 diabetes, presenting with fever, cough, myalgia, and fatigue. I asked readers whether they agreed with my management of this patient.

Thank you for your comments as we continue to react to high rates of URIs. Your comments highlight the importance of local resources and practice habits when managing patients with URI.

It was clear that readers value testing to distinguish between infections. However, access to testing is highly variable around the world and is likely to be routinely used only in high-income countries. The Kaiser Family Foundation performed a cost analysis of testing for SARS-CoV-2 in 2020 and found, not surprisingly, wide variability in the cost of testing. Medicare covers tests at rates of $36-$143 per test; a study of list prices for SARS-CoV-2 tests at 93 hospitals found a median cost of $148 per test. And this does not include collection or facility fees. About 20% of tests cost more than $300.

These costs are prohibitive for many health systems. However, more devices have been introduced since that analysis, and competition and evolving technology should drive down prices. Generally, multiplex polymerase chain reaction (PCR) testing for multiple pathogens is less expensive than ordering two or three separate molecular tests and is more convenient for patients and practices alike.

Other reader comments focused on the challenges of getting accurate data on viral epidemiology, and there is certainly a time lag between infection trends and public health reports. This is exacerbated by underreporting of symptoms and more testing at home using antigen tests.

But please do not give up on epidemiology! If a test such as PCR is 90% sensitive for identifying infection, the yield in terms of the number of individuals infected with a particular virus should be high, and that is true when infection is in broad circulation. If 20% of a population of 1,000 has an infection and the test sensitivity is 90%, the yield of testing is 180 true cases versus 20 false positives.

However, if just 2% of the population of 1,000 has the infection in this same scenario, then only 18 true cases are identified. The effect on public health is certainly less, and a lower prevalence rate means that confounding variables, such as how long an individual might shed viral particles and the method of sample collection, have an outsized effect on results. This reduces the validity of diagnostic tests.

Even trends on a national level can provide some insight regarding whom to test. Traditionally, our practice has been to not routinely test patients for influenza or RSV from late spring to early fall unless there was a compelling reason, such as recent travel to an area where these infections were more prevalent. The loss of temporality for these infections since 2020 has altered this approach and made us pay more attention to reports from public health organizations.

I also appreciate the discussion of how to treat Agnes’s symptoms as she waits to improve, and anyone who suffers with or treats a viral URI knows that there are few interventions effective for such symptoms as cough and congestion. A systematic review of 29 randomized controlled trials of over-the-counter medications for cough yielded mixed and largely negative results.

Antihistamines alone do not seem to work, and guaifenesin was successful in only one of three trials. Combinations of different drug classes appeared to be slightly more effective.

My personal favorite for the management of acute cough is something that kids generally love: honey. In a review of 14 studies, 9 of which were limited to pediatric patients, honey was associated with significant reductions in cough frequency, cough severity, and total symptom score. However, there was a moderate risk of bias in the included research, and evidence of honey’s benefit in placebo-controlled trials was limited. Honey used in this research came in a variety of forms, so the best dosage is uncertain.

Clearly, advancements are needed. Better symptom management in viral URI will almost certainly improve productivity across the population and will probably reduce the inappropriate use of antibiotics as well. I have said for years that the scientists who can solve the Gordian knot of pediatric mucus deserve three Nobel prizes. I look forward to that golden day.

Dr. Vega is a clinical professor of family medicine at the University of California, Irvine. He reported a conflict of interest with McNeil Pharmaceuticals.

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

The two national emergency declarations dealing with the COVID-19 pandemic will end May 11, President Joe Biden said on Jan. 30.

Doing so will have many effects, including the end of free vaccines and health services to fight the pandemic. The public health emergency has been renewed every 90 days since it was declared by the Trump administration in January 2020.

The declaration allowed major changes throughout the health care system to deal with the pandemic, including the free distribution of vaccines, testing, and treatments. In addition, telehealth services were expanded, and Medicaid and the Children’s Health Insurance Program were extended to millions more Americans.

Biden said the COVID-19 national emergency is set to expire March 1 while the declared public health emergency would currently expire on April 11. The president said both will be extended to end May 11.

There were nearly 300,000 newly reported COVID-19 cases in the United States for the week ending Jan. 25, according to CDC data, as well as more than 3,750 deaths.

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

The two national emergency declarations dealing with the COVID-19 pandemic will end May 11, President Joe Biden said on Jan. 30.

Doing so will have many effects, including the end of free vaccines and health services to fight the pandemic. The public health emergency has been renewed every 90 days since it was declared by the Trump administration in January 2020.

The declaration allowed major changes throughout the health care system to deal with the pandemic, including the free distribution of vaccines, testing, and treatments. In addition, telehealth services were expanded, and Medicaid and the Children’s Health Insurance Program were extended to millions more Americans.

Biden said the COVID-19 national emergency is set to expire March 1 while the declared public health emergency would currently expire on April 11. The president said both will be extended to end May 11.

There were nearly 300,000 newly reported COVID-19 cases in the United States for the week ending Jan. 25, according to CDC data, as well as more than 3,750 deaths.

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

The two national emergency declarations dealing with the COVID-19 pandemic will end May 11, President Joe Biden said on Jan. 30.

Doing so will have many effects, including the end of free vaccines and health services to fight the pandemic. The public health emergency has been renewed every 90 days since it was declared by the Trump administration in January 2020.

The declaration allowed major changes throughout the health care system to deal with the pandemic, including the free distribution of vaccines, testing, and treatments. In addition, telehealth services were expanded, and Medicaid and the Children’s Health Insurance Program were extended to millions more Americans.

Biden said the COVID-19 national emergency is set to expire March 1 while the declared public health emergency would currently expire on April 11. The president said both will be extended to end May 11.

There were nearly 300,000 newly reported COVID-19 cases in the United States for the week ending Jan. 25, according to CDC data, as well as more than 3,750 deaths.

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

To the Editor:

Because the SARS-CoV-2 virus is constantly changing, routine vaccination to prevent COVID-19 infection is recommended. The messenger RNA (mRNA) vaccines from Pfizer-BioNTech and Moderna as well as the Ad26.COV2.S (Johnson & Johnson) and NVX-CoV2373 (Novavax) vaccines are the most commonly used COVID-19 vaccines in the United States. Adverse effects following vaccination against SARS-CoV-2 are well documented; recent studies report a small incidence of adverse effects in the general population, with most being minor (eg, headache, fever, muscle pain).^1,2 Interestingly, reports of exacerbation of psoriasis and new-onset psoriasis following COVID-19 vaccination suggest a potential association.^3,4 However, the literature investigating the vaccine adverse effect profile in this demographic is scarce. We examined the incidence of adverse effects from SARS-CoV-2 vaccines in patients with psoriasis.

This retrospective cohort study used the COVID-19 Research Database (https://covid19researchdatabase.org/) to examine the adverse effects following the first and second doses of the mRNA vaccines in patients with and without psoriasis. The sample size for the Ad26.COV2.S vaccine was too small to analyze.

Claims were evaluated from August to October 2021 for 2 diagnoses of psoriasis prior to January 1, 2020, using the International Classification of Diseases, Tenth Revision (ICD-10) code L40.9 to increase the positive predictive value and ensure that the diagnosis preceded the COVID-19 pandemic. Patients younger than 18 years and those who did not receive 2 doses of a SARS-CoV-2 vaccine were excluded. Controls who did not have a diagnosis of psoriasis were matched for age, sex, and hypertension at a 4:1 ratio. Hypertension represented the most common comorbidity that could feasibly be controlled for in this study population. Other comorbidities recorded included obesity, type 2 diabetes mellitus, congestive heart failure, asthma, chronic obstructive pulmonary disease, chronic ischemic heart disease, rhinitis, and chronic kidney disease.

Common adverse effects as long as 30 days after vaccination were identified using ICD-10 codes. Adverse effects of interest were anaphylactic reaction, initial encounter of adverse effect of viral vaccines, fever, allergic urticaria, weakness, altered mental status, malaise, allergic reaction, chest pain, symptoms involving circulatory or respiratory systems, localized rash, axillary lymphadenopathy, infection, and myocarditis.⁵ Poisson regression was performed using Stata 17 analytical software.

We identified 4273 patients with psoriasis and 17,092 controls who received mRNA COVID-19 vaccines (Table). Adjusted odds ratios (aORs) for doses 1 and 2 were calculated for each vaccine (eTable). Adverse effects with sufficient data to generate an aOR included weakness, altered mental status, malaise, chest pain, and symptoms involving the circulatory or respiratory system. The aORs for allergic urticaria and initial encounter of adverse effect of viral vaccines were only calculated for the Moderna mRNA vaccine due to low sample size.

This study demonstrated that patients with psoriasis do not appear to have a significantly increased risk of adverse effects from mRNA SARS-CoV-2 vaccines. Although the ORs in this study were not significant, most recorded adverse effects demonstrated an aOR less than 1, suggesting that there might be a lower risk of certain adverse effects in psoriasis patients. This could be explained by the immunomodulatory effects of certain systemic psoriasis treatments that might influence the adverse effect presentation.

The study is limited by the lack of treatment data, small sample size, and the fact that it did not assess flares or worsening of psoriasis with the vaccines. Underreporting of adverse effects by patients and underdiagnosis of adverse effects secondary to SARS-CoV-2 vaccines due to its novel nature, incompletely understood consequences, and limited ICD-10 codes associated with adverse effects all contributed to the small sample size.

Our findings suggest that the risk for immediate adverse effects from the mRNA SARS-CoV-2 vaccines is not increased among psoriasis patients. However, the impact of immunomodulatory agents on vaccine efficacy and expected adverse effects should be investigated. As more individuals receive the COVID-19 vaccine, the adverse effect profile in patients with psoriasis is an important area of investigation.

To the Editor:

Because the SARS-CoV-2 virus is constantly changing, routine vaccination to prevent COVID-19 infection is recommended. The messenger RNA (mRNA) vaccines from Pfizer-BioNTech and Moderna as well as the Ad26.COV2.S (Johnson & Johnson) and NVX-CoV2373 (Novavax) vaccines are the most commonly used COVID-19 vaccines in the United States. Adverse effects following vaccination against SARS-CoV-2 are well documented; recent studies report a small incidence of adverse effects in the general population, with most being minor (eg, headache, fever, muscle pain).^1,2 Interestingly, reports of exacerbation of psoriasis and new-onset psoriasis following COVID-19 vaccination suggest a potential association.^3,4 However, the literature investigating the vaccine adverse effect profile in this demographic is scarce. We examined the incidence of adverse effects from SARS-CoV-2 vaccines in patients with psoriasis.

This retrospective cohort study used the COVID-19 Research Database (https://covid19researchdatabase.org/) to examine the adverse effects following the first and second doses of the mRNA vaccines in patients with and without psoriasis. The sample size for the Ad26.COV2.S vaccine was too small to analyze.

Claims were evaluated from August to October 2021 for 2 diagnoses of psoriasis prior to January 1, 2020, using the International Classification of Diseases, Tenth Revision (ICD-10) code L40.9 to increase the positive predictive value and ensure that the diagnosis preceded the COVID-19 pandemic. Patients younger than 18 years and those who did not receive 2 doses of a SARS-CoV-2 vaccine were excluded. Controls who did not have a diagnosis of psoriasis were matched for age, sex, and hypertension at a 4:1 ratio. Hypertension represented the most common comorbidity that could feasibly be controlled for in this study population. Other comorbidities recorded included obesity, type 2 diabetes mellitus, congestive heart failure, asthma, chronic obstructive pulmonary disease, chronic ischemic heart disease, rhinitis, and chronic kidney disease.

Common adverse effects as long as 30 days after vaccination were identified using ICD-10 codes. Adverse effects of interest were anaphylactic reaction, initial encounter of adverse effect of viral vaccines, fever, allergic urticaria, weakness, altered mental status, malaise, allergic reaction, chest pain, symptoms involving circulatory or respiratory systems, localized rash, axillary lymphadenopathy, infection, and myocarditis.⁵ Poisson regression was performed using Stata 17 analytical software.

We identified 4273 patients with psoriasis and 17,092 controls who received mRNA COVID-19 vaccines (Table). Adjusted odds ratios (aORs) for doses 1 and 2 were calculated for each vaccine (eTable). Adverse effects with sufficient data to generate an aOR included weakness, altered mental status, malaise, chest pain, and symptoms involving the circulatory or respiratory system. The aORs for allergic urticaria and initial encounter of adverse effect of viral vaccines were only calculated for the Moderna mRNA vaccine due to low sample size.

This study demonstrated that patients with psoriasis do not appear to have a significantly increased risk of adverse effects from mRNA SARS-CoV-2 vaccines. Although the ORs in this study were not significant, most recorded adverse effects demonstrated an aOR less than 1, suggesting that there might be a lower risk of certain adverse effects in psoriasis patients. This could be explained by the immunomodulatory effects of certain systemic psoriasis treatments that might influence the adverse effect presentation.

The study is limited by the lack of treatment data, small sample size, and the fact that it did not assess flares or worsening of psoriasis with the vaccines. Underreporting of adverse effects by patients and underdiagnosis of adverse effects secondary to SARS-CoV-2 vaccines due to its novel nature, incompletely understood consequences, and limited ICD-10 codes associated with adverse effects all contributed to the small sample size.

Our findings suggest that the risk for immediate adverse effects from the mRNA SARS-CoV-2 vaccines is not increased among psoriasis patients. However, the impact of immunomodulatory agents on vaccine efficacy and expected adverse effects should be investigated. As more individuals receive the COVID-19 vaccine, the adverse effect profile in patients with psoriasis is an important area of investigation.

To the Editor:

Because the SARS-CoV-2 virus is constantly changing, routine vaccination to prevent COVID-19 infection is recommended. The messenger RNA (mRNA) vaccines from Pfizer-BioNTech and Moderna as well as the Ad26.COV2.S (Johnson & Johnson) and NVX-CoV2373 (Novavax) vaccines are the most commonly used COVID-19 vaccines in the United States. Adverse effects following vaccination against SARS-CoV-2 are well documented; recent studies report a small incidence of adverse effects in the general population, with most being minor (eg, headache, fever, muscle pain).^1,2 Interestingly, reports of exacerbation of psoriasis and new-onset psoriasis following COVID-19 vaccination suggest a potential association.^3,4 However, the literature investigating the vaccine adverse effect profile in this demographic is scarce. We examined the incidence of adverse effects from SARS-CoV-2 vaccines in patients with psoriasis.

This retrospective cohort study used the COVID-19 Research Database (https://covid19researchdatabase.org/) to examine the adverse effects following the first and second doses of the mRNA vaccines in patients with and without psoriasis. The sample size for the Ad26.COV2.S vaccine was too small to analyze.

Claims were evaluated from August to October 2021 for 2 diagnoses of psoriasis prior to January 1, 2020, using the International Classification of Diseases, Tenth Revision (ICD-10) code L40.9 to increase the positive predictive value and ensure that the diagnosis preceded the COVID-19 pandemic. Patients younger than 18 years and those who did not receive 2 doses of a SARS-CoV-2 vaccine were excluded. Controls who did not have a diagnosis of psoriasis were matched for age, sex, and hypertension at a 4:1 ratio. Hypertension represented the most common comorbidity that could feasibly be controlled for in this study population. Other comorbidities recorded included obesity, type 2 diabetes mellitus, congestive heart failure, asthma, chronic obstructive pulmonary disease, chronic ischemic heart disease, rhinitis, and chronic kidney disease.

Common adverse effects as long as 30 days after vaccination were identified using ICD-10 codes. Adverse effects of interest were anaphylactic reaction, initial encounter of adverse effect of viral vaccines, fever, allergic urticaria, weakness, altered mental status, malaise, allergic reaction, chest pain, symptoms involving circulatory or respiratory systems, localized rash, axillary lymphadenopathy, infection, and myocarditis.⁵ Poisson regression was performed using Stata 17 analytical software.

We identified 4273 patients with psoriasis and 17,092 controls who received mRNA COVID-19 vaccines (Table). Adjusted odds ratios (aORs) for doses 1 and 2 were calculated for each vaccine (eTable). Adverse effects with sufficient data to generate an aOR included weakness, altered mental status, malaise, chest pain, and symptoms involving the circulatory or respiratory system. The aORs for allergic urticaria and initial encounter of adverse effect of viral vaccines were only calculated for the Moderna mRNA vaccine due to low sample size.

This study demonstrated that patients with psoriasis do not appear to have a significantly increased risk of adverse effects from mRNA SARS-CoV-2 vaccines. Although the ORs in this study were not significant, most recorded adverse effects demonstrated an aOR less than 1, suggesting that there might be a lower risk of certain adverse effects in psoriasis patients. This could be explained by the immunomodulatory effects of certain systemic psoriasis treatments that might influence the adverse effect presentation.

The study is limited by the lack of treatment data, small sample size, and the fact that it did not assess flares or worsening of psoriasis with the vaccines. Underreporting of adverse effects by patients and underdiagnosis of adverse effects secondary to SARS-CoV-2 vaccines due to its novel nature, incompletely understood consequences, and limited ICD-10 codes associated with adverse effects all contributed to the small sample size.

Our findings suggest that the risk for immediate adverse effects from the mRNA SARS-CoV-2 vaccines is not increased among psoriasis patients. However, the impact of immunomodulatory agents on vaccine efficacy and expected adverse effects should be investigated. As more individuals receive the COVID-19 vaccine, the adverse effect profile in patients with psoriasis is an important area of investigation.

Almost 36% of students and faculty at George Washington University with a history of COVID-19 reported symptoms consistent with long COVID in a new study.

With a median age of 23 years, the study is unique for evaluating mostly healthy, young adults and for its rare look at long COVID in a university community. 

The more symptoms during a bout with COVID, the greater the risk for long COVID, the researchers found. That lines up with previous studies. Also, the more vaccinations and booster shots against SARS-CoV-2, the virus that causes COVID, the lower the long COVID risk.

Women were more likely than men to be affected. Current or prior smoking, seeking medical care for COVID, and receiving antibody treatment also were linked to higher chances for developing long COVID. 

Lead author Megan Landry, DrPH, MPH, and colleagues were already assessing students, staff, and faculty at George Washington University, Washington, who tested positive for COVID. Then they started seeing symptoms that lasted 28 days or more after their 10-day isolation period. 

“We were starting to recognize that individuals ... were still having symptoms longer than the typical isolation period,” said Dr. Landry. So they developed a questionnaire to figure out the how long these symptoms last and how many people are affected by them. 

The list of potential symptoms was long and included trouble thinking, fatigue, loss of smell or taste, shortness of breath, and more. 

The study was published online in Emerging Infectious Diseases. Results are based on records and responses from 1,388 students, faculty, and staff from July 2021 to March 2022.

People had a median of four long COVID symptoms, about 63% were women, and 56% were non-Hispanic White. About three-quarters were students and the remainder were faculty and staff. 

The finding that 36% of people with a history of COVID reported long COVID symptoms did not surprise Dr. Landry.

“Based on the literature that’s currently out there, it ranges from a 10% to an 80% prevalence of long COVID,” she said. “We kind of figured that we would fall somewhere in there.”

In contrast, that figure seemed high to Eric Topol, MD.

“That’s really high,” said Dr. Topol, founder and director of the Scripps Research Translational Institute in La Jolla, Calif. He added most studies estimate that about 10% of people with a history of acute infection develop long COVID. 

Even at 10%, which could be an underestimate, that’s a lot of affected people globally. 

“At least 65 million individuals around the world have long COVID, based on a conservative estimated incidence of 10% of infected people and more than 651 million documented COVID-19 cases worldwide; the number is likely much higher due to many undocumented cases,” Dr. Topol and colleagues wrote in a long COVID review article published in Nature Reviews Microbiology.

Research continues

“Long COVID is still evolving and we continue to learn more about it every day,” Landry said. “It’s just so new and there are still a lot of unknowns. That’s why it’s important to get this information out.” 

People with long COVID often have a hard time with occupational, educational, social, or personal activities, compared with before COVID, with effects that can last for more than 6 months, the authors noted. 

“I think across the board, universities in general need to consider the possibility of folks on their campuses are having symptoms of long COVID,” Dr. Landry said.

Moving forward, Dr. Landry and colleagues would like to continue investigating long COVID. For example, in the current study, they did not ask about severity of symptoms or how the symptoms affected daily functioning. 

“I would like to continue this and dive deeper into how disruptive their symptoms of long COVID are to their everyday studying, teaching, or their activities to keeping a university running,” Dr. Landry said.

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

Almost 36% of students and faculty at George Washington University with a history of COVID-19 reported symptoms consistent with long COVID in a new study.

With a median age of 23 years, the study is unique for evaluating mostly healthy, young adults and for its rare look at long COVID in a university community. 

The more symptoms during a bout with COVID, the greater the risk for long COVID, the researchers found. That lines up with previous studies. Also, the more vaccinations and booster shots against SARS-CoV-2, the virus that causes COVID, the lower the long COVID risk.

Women were more likely than men to be affected. Current or prior smoking, seeking medical care for COVID, and receiving antibody treatment also were linked to higher chances for developing long COVID. 

Lead author Megan Landry, DrPH, MPH, and colleagues were already assessing students, staff, and faculty at George Washington University, Washington, who tested positive for COVID. Then they started seeing symptoms that lasted 28 days or more after their 10-day isolation period. 

“We were starting to recognize that individuals ... were still having symptoms longer than the typical isolation period,” said Dr. Landry. So they developed a questionnaire to figure out the how long these symptoms last and how many people are affected by them. 

The list of potential symptoms was long and included trouble thinking, fatigue, loss of smell or taste, shortness of breath, and more. 

The study was published online in Emerging Infectious Diseases. Results are based on records and responses from 1,388 students, faculty, and staff from July 2021 to March 2022.

People had a median of four long COVID symptoms, about 63% were women, and 56% were non-Hispanic White. About three-quarters were students and the remainder were faculty and staff. 

The finding that 36% of people with a history of COVID reported long COVID symptoms did not surprise Dr. Landry.

“Based on the literature that’s currently out there, it ranges from a 10% to an 80% prevalence of long COVID,” she said. “We kind of figured that we would fall somewhere in there.”

In contrast, that figure seemed high to Eric Topol, MD.

“That’s really high,” said Dr. Topol, founder and director of the Scripps Research Translational Institute in La Jolla, Calif. He added most studies estimate that about 10% of people with a history of acute infection develop long COVID. 

Even at 10%, which could be an underestimate, that’s a lot of affected people globally. 

“At least 65 million individuals around the world have long COVID, based on a conservative estimated incidence of 10% of infected people and more than 651 million documented COVID-19 cases worldwide; the number is likely much higher due to many undocumented cases,” Dr. Topol and colleagues wrote in a long COVID review article published in Nature Reviews Microbiology.

Research continues

“Long COVID is still evolving and we continue to learn more about it every day,” Landry said. “It’s just so new and there are still a lot of unknowns. That’s why it’s important to get this information out.” 

People with long COVID often have a hard time with occupational, educational, social, or personal activities, compared with before COVID, with effects that can last for more than 6 months, the authors noted. 

“I think across the board, universities in general need to consider the possibility of folks on their campuses are having symptoms of long COVID,” Dr. Landry said.

Moving forward, Dr. Landry and colleagues would like to continue investigating long COVID. For example, in the current study, they did not ask about severity of symptoms or how the symptoms affected daily functioning. 

“I would like to continue this and dive deeper into how disruptive their symptoms of long COVID are to their everyday studying, teaching, or their activities to keeping a university running,” Dr. Landry said.

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

Almost 36% of students and faculty at George Washington University with a history of COVID-19 reported symptoms consistent with long COVID in a new study.

With a median age of 23 years, the study is unique for evaluating mostly healthy, young adults and for its rare look at long COVID in a university community. 

The more symptoms during a bout with COVID, the greater the risk for long COVID, the researchers found. That lines up with previous studies. Also, the more vaccinations and booster shots against SARS-CoV-2, the virus that causes COVID, the lower the long COVID risk.

Women were more likely than men to be affected. Current or prior smoking, seeking medical care for COVID, and receiving antibody treatment also were linked to higher chances for developing long COVID. 

Lead author Megan Landry, DrPH, MPH, and colleagues were already assessing students, staff, and faculty at George Washington University, Washington, who tested positive for COVID. Then they started seeing symptoms that lasted 28 days or more after their 10-day isolation period. 

“We were starting to recognize that individuals ... were still having symptoms longer than the typical isolation period,” said Dr. Landry. So they developed a questionnaire to figure out the how long these symptoms last and how many people are affected by them. 

The list of potential symptoms was long and included trouble thinking, fatigue, loss of smell or taste, shortness of breath, and more. 

The study was published online in Emerging Infectious Diseases. Results are based on records and responses from 1,388 students, faculty, and staff from July 2021 to March 2022.

People had a median of four long COVID symptoms, about 63% were women, and 56% were non-Hispanic White. About three-quarters were students and the remainder were faculty and staff. 

The finding that 36% of people with a history of COVID reported long COVID symptoms did not surprise Dr. Landry.

“Based on the literature that’s currently out there, it ranges from a 10% to an 80% prevalence of long COVID,” she said. “We kind of figured that we would fall somewhere in there.”

In contrast, that figure seemed high to Eric Topol, MD.

“That’s really high,” said Dr. Topol, founder and director of the Scripps Research Translational Institute in La Jolla, Calif. He added most studies estimate that about 10% of people with a history of acute infection develop long COVID. 

Even at 10%, which could be an underestimate, that’s a lot of affected people globally. 

“At least 65 million individuals around the world have long COVID, based on a conservative estimated incidence of 10% of infected people and more than 651 million documented COVID-19 cases worldwide; the number is likely much higher due to many undocumented cases,” Dr. Topol and colleagues wrote in a long COVID review article published in Nature Reviews Microbiology.

Research continues

“Long COVID is still evolving and we continue to learn more about it every day,” Landry said. “It’s just so new and there are still a lot of unknowns. That’s why it’s important to get this information out.” 

People with long COVID often have a hard time with occupational, educational, social, or personal activities, compared with before COVID, with effects that can last for more than 6 months, the authors noted. 

“I think across the board, universities in general need to consider the possibility of folks on their campuses are having symptoms of long COVID,” Dr. Landry said.

Moving forward, Dr. Landry and colleagues would like to continue investigating long COVID. For example, in the current study, they did not ask about severity of symptoms or how the symptoms affected daily functioning. 

“I would like to continue this and dive deeper into how disruptive their symptoms of long COVID are to their everyday studying, teaching, or their activities to keeping a university running,” Dr. Landry said.

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

A panel of advisers to the Food and Drug Administration unanimously supported an effort to simplify COVID-19 vaccinations, with the aim of developing a one-dose approach – perhaps annually – for the general population.

The FDA is looking to give clearer direction to vaccine makers about future development of COVID-19 vaccines. The plan is to narrow down the current complex landscape of options for vaccinations, and thus help increase use of these shots. 

COVID remains a serious threat, causing about 4,000 deaths a week recently, according to the Centers for Disease Control and Prevention. The 21 members of the Vaccines and Related Biological Products Advisory Committee (VRBPAC) on Jan. 26 voted unanimously “yes” on a single question posed by the FDA: 

“Does the committee recommend harmonizing the vaccine strain composition of primary series and booster doses in the U.S. to a single composition, e.g., the composition for all vaccines administered currently would be a bivalent vaccine (Original plus Omicron BA.4/BA.5)?”

In other words, would it be better to have one vaccine potentially combining multiple strains of the virus, instead of multiple vaccines – such as a two-shot primary series then a booster containing different combinations of viral strains.

The FDA will consider the panel’s advice as it outlines new strategies for keeping ahead of the evolving virus.

In explaining their support for the FDA plan, panel members said they hoped that a simpler regime would aid in persuading more people to get COVID vaccines.

Pamela McInnes, DDS, MSc, noted that it’s difficult to explain to many people that the vaccine works to protect them from more severe illness if they contract COVID after getting vaccinated. 

“That is a real challenge,” said Dr. McInness, retired deputy director of the National Center for Advancing Translational Sciences at the National Institutes of Health.

“The message that you would have gotten more sick and landed in the hospital resonates with me, but I’m not sure if it resonates with” many people who become infected, she said.
 

The plan

In the briefing document for the meeting, the FDA outlined a plan for transitioning from the current complex landscape of COVID-19 vaccines to a single vaccine composition for the primary series and booster vaccination. 

This would require harmonizing the strain composition of all COVID-19 vaccines; simplifying the immunization schedule for future vaccination campaigns to administer a two-dose series in certain young children and in older adults and persons with compromised immunity, and only one dose in all other individuals; and establishing a process for vaccine strain selection recommendations, similar in many ways to that used for seasonal influenza vaccines, based on prevailing and predicted variants that would take place by June to allow for vaccine production by September.

During the discussion, though, questions arose about the June target date. Given the production schedule for some vaccines, that date might need to shift, said Jerry Weir, PhD, director of the division of viral products at FDA’s Center for Biologics Evaluation and Research. 

“We’re all just going to have to maintain flexibility,” Dr. Weir said, adding that there is not yet a “good pattern” established for updating these vaccines. 
 

Increasing vaccination rates

There was broad consensus about the need to boost public support for COVID-19 vaccinations. While about 81% of the U.S. population has had at least one dose of this vaccine, only 15.3% have had an updated bivalent booster dose, according to the CDC.

“Anything that results in better public communication would be extremely valuable,” said committee member Henry H. Bernstein, DO, MHCM, of the Zucker School of Medicine at Hofstra/Northwell Health in Hempstead, N.Y.

But it’s unclear what expectations will be prioritized for the COVID vaccine program, he said. 

“Realistically, I don’t think we can have it all – less infection, less transmission, less severe disease, and less long COVID,” Dr. Bernstein said. “And that seems to be a major challenge for public messaging.” 
 

Panelists press for more data 

Other committee members also pressed for clearer targets in evaluating the goals for COVID vaccines, and for more robust data. 

Like his fellow VRBPAC members, Cody Meissner, MD, of Dartmouth’s Geisel School of Medicine, Hanover, N.H., supported a move toward harmonizing the strains used in different companies’ vaccines. But he added that it wasn’t clear yet how frequently they should be administered. 

“We need to see what happens with disease burden,” Dr. Meissner said. “We may or may not need annual vaccination. It’s just awfully early, it seems to me, in this process to answer that question.”

Among those serving on VRBPAC was one of the FDA’s more vocal critics on these points, Paul A. Offit, MD, a vaccine expert from Children’s Hospital of Philadelphia. Dr. Offit, for example, joined former FDA officials in writing a November opinion article for the Washington Post, arguing that the evidence for boosters for healthy younger adults was not strong.

At the Jan. 26 meeting, he supported the drive toward simplification of COVID vaccine schedules, while arguing for more data about how well these products are working.

“This virus is going to be with us for years, if not decades, and there will always be vulnerable groups who are going to be hospitalized and killed by the virus,” Dr. Offit said.

The CDC needs to provide more information about the characteristics of people being hospitalized with COVID infections, including their ages and comorbidities as well as details about their vaccine history, he said. In addition, academic researchers should provide a clearer picture of what immunological predictors are at play in increasing people’s risk from COVID.

“Then and only then can we really best make the decision about who gets vaccinated with what and when,” Dr. Offit said. 

VRBPAC member Ofer Levy, MD, PhD, also urged the FDA to press for a collection of more robust and detailed information about the immune response to COVID-19 vaccinations, such as a deeper look at what’s happening with antibodies.

“I hope FDA will continue to reflect on how to best take this information forward, and encourage – or require – sponsors to gather more information in a standardized way across these different arms of the human immune system,” Dr. Levy said. “So we keep learning and keep doing this better.”

In recapping the panel’s suggestions at the end of the meeting, Peter Marks, MD, PhD, the director of the FDA’s Center for Biologics Evaluation and Research, addressed the requests made during the day’s meeting about better data on how the vaccines work. 

“We heard loud and clear that we need to use a data-driven approach to get to the simplest possible scheme that we can for vaccination,” Dr. Marks said. “And it should be as simple as possible but not oversimplified, a little bit like they say about Mozart’s music.”

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

A panel of advisers to the Food and Drug Administration unanimously supported an effort to simplify COVID-19 vaccinations, with the aim of developing a one-dose approach – perhaps annually – for the general population.

The FDA is looking to give clearer direction to vaccine makers about future development of COVID-19 vaccines. The plan is to narrow down the current complex landscape of options for vaccinations, and thus help increase use of these shots. 

COVID remains a serious threat, causing about 4,000 deaths a week recently, according to the Centers for Disease Control and Prevention. The 21 members of the Vaccines and Related Biological Products Advisory Committee (VRBPAC) on Jan. 26 voted unanimously “yes” on a single question posed by the FDA: 

“Does the committee recommend harmonizing the vaccine strain composition of primary series and booster doses in the U.S. to a single composition, e.g., the composition for all vaccines administered currently would be a bivalent vaccine (Original plus Omicron BA.4/BA.5)?”

In other words, would it be better to have one vaccine potentially combining multiple strains of the virus, instead of multiple vaccines – such as a two-shot primary series then a booster containing different combinations of viral strains.

The FDA will consider the panel’s advice as it outlines new strategies for keeping ahead of the evolving virus.

In explaining their support for the FDA plan, panel members said they hoped that a simpler regime would aid in persuading more people to get COVID vaccines.

Pamela McInnes, DDS, MSc, noted that it’s difficult to explain to many people that the vaccine works to protect them from more severe illness if they contract COVID after getting vaccinated. 

“That is a real challenge,” said Dr. McInness, retired deputy director of the National Center for Advancing Translational Sciences at the National Institutes of Health.

“The message that you would have gotten more sick and landed in the hospital resonates with me, but I’m not sure if it resonates with” many people who become infected, she said.
 

The plan

In the briefing document for the meeting, the FDA outlined a plan for transitioning from the current complex landscape of COVID-19 vaccines to a single vaccine composition for the primary series and booster vaccination. 

This would require harmonizing the strain composition of all COVID-19 vaccines; simplifying the immunization schedule for future vaccination campaigns to administer a two-dose series in certain young children and in older adults and persons with compromised immunity, and only one dose in all other individuals; and establishing a process for vaccine strain selection recommendations, similar in many ways to that used for seasonal influenza vaccines, based on prevailing and predicted variants that would take place by June to allow for vaccine production by September.

During the discussion, though, questions arose about the June target date. Given the production schedule for some vaccines, that date might need to shift, said Jerry Weir, PhD, director of the division of viral products at FDA’s Center for Biologics Evaluation and Research. 

“We’re all just going to have to maintain flexibility,” Dr. Weir said, adding that there is not yet a “good pattern” established for updating these vaccines. 
 

Increasing vaccination rates

There was broad consensus about the need to boost public support for COVID-19 vaccinations. While about 81% of the U.S. population has had at least one dose of this vaccine, only 15.3% have had an updated bivalent booster dose, according to the CDC.

“Anything that results in better public communication would be extremely valuable,” said committee member Henry H. Bernstein, DO, MHCM, of the Zucker School of Medicine at Hofstra/Northwell Health in Hempstead, N.Y.

But it’s unclear what expectations will be prioritized for the COVID vaccine program, he said. 

“Realistically, I don’t think we can have it all – less infection, less transmission, less severe disease, and less long COVID,” Dr. Bernstein said. “And that seems to be a major challenge for public messaging.” 
 

Panelists press for more data 

Other committee members also pressed for clearer targets in evaluating the goals for COVID vaccines, and for more robust data. 

Like his fellow VRBPAC members, Cody Meissner, MD, of Dartmouth’s Geisel School of Medicine, Hanover, N.H., supported a move toward harmonizing the strains used in different companies’ vaccines. But he added that it wasn’t clear yet how frequently they should be administered. 

“We need to see what happens with disease burden,” Dr. Meissner said. “We may or may not need annual vaccination. It’s just awfully early, it seems to me, in this process to answer that question.”

Among those serving on VRBPAC was one of the FDA’s more vocal critics on these points, Paul A. Offit, MD, a vaccine expert from Children’s Hospital of Philadelphia. Dr. Offit, for example, joined former FDA officials in writing a November opinion article for the Washington Post, arguing that the evidence for boosters for healthy younger adults was not strong.

At the Jan. 26 meeting, he supported the drive toward simplification of COVID vaccine schedules, while arguing for more data about how well these products are working.

“This virus is going to be with us for years, if not decades, and there will always be vulnerable groups who are going to be hospitalized and killed by the virus,” Dr. Offit said.

The CDC needs to provide more information about the characteristics of people being hospitalized with COVID infections, including their ages and comorbidities as well as details about their vaccine history, he said. In addition, academic researchers should provide a clearer picture of what immunological predictors are at play in increasing people’s risk from COVID.

“Then and only then can we really best make the decision about who gets vaccinated with what and when,” Dr. Offit said. 

VRBPAC member Ofer Levy, MD, PhD, also urged the FDA to press for a collection of more robust and detailed information about the immune response to COVID-19 vaccinations, such as a deeper look at what’s happening with antibodies.

“I hope FDA will continue to reflect on how to best take this information forward, and encourage – or require – sponsors to gather more information in a standardized way across these different arms of the human immune system,” Dr. Levy said. “So we keep learning and keep doing this better.”

In recapping the panel’s suggestions at the end of the meeting, Peter Marks, MD, PhD, the director of the FDA’s Center for Biologics Evaluation and Research, addressed the requests made during the day’s meeting about better data on how the vaccines work. 

“We heard loud and clear that we need to use a data-driven approach to get to the simplest possible scheme that we can for vaccination,” Dr. Marks said. “And it should be as simple as possible but not oversimplified, a little bit like they say about Mozart’s music.”

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

A panel of advisers to the Food and Drug Administration unanimously supported an effort to simplify COVID-19 vaccinations, with the aim of developing a one-dose approach – perhaps annually – for the general population.

The FDA is looking to give clearer direction to vaccine makers about future development of COVID-19 vaccines. The plan is to narrow down the current complex landscape of options for vaccinations, and thus help increase use of these shots. 

COVID remains a serious threat, causing about 4,000 deaths a week recently, according to the Centers for Disease Control and Prevention. The 21 members of the Vaccines and Related Biological Products Advisory Committee (VRBPAC) on Jan. 26 voted unanimously “yes” on a single question posed by the FDA: 

“Does the committee recommend harmonizing the vaccine strain composition of primary series and booster doses in the U.S. to a single composition, e.g., the composition for all vaccines administered currently would be a bivalent vaccine (Original plus Omicron BA.4/BA.5)?”

In other words, would it be better to have one vaccine potentially combining multiple strains of the virus, instead of multiple vaccines – such as a two-shot primary series then a booster containing different combinations of viral strains.

The FDA will consider the panel’s advice as it outlines new strategies for keeping ahead of the evolving virus.

In explaining their support for the FDA plan, panel members said they hoped that a simpler regime would aid in persuading more people to get COVID vaccines.

Pamela McInnes, DDS, MSc, noted that it’s difficult to explain to many people that the vaccine works to protect them from more severe illness if they contract COVID after getting vaccinated. 

“That is a real challenge,” said Dr. McInness, retired deputy director of the National Center for Advancing Translational Sciences at the National Institutes of Health.

“The message that you would have gotten more sick and landed in the hospital resonates with me, but I’m not sure if it resonates with” many people who become infected, she said.
 

The plan

In the briefing document for the meeting, the FDA outlined a plan for transitioning from the current complex landscape of COVID-19 vaccines to a single vaccine composition for the primary series and booster vaccination. 

This would require harmonizing the strain composition of all COVID-19 vaccines; simplifying the immunization schedule for future vaccination campaigns to administer a two-dose series in certain young children and in older adults and persons with compromised immunity, and only one dose in all other individuals; and establishing a process for vaccine strain selection recommendations, similar in many ways to that used for seasonal influenza vaccines, based on prevailing and predicted variants that would take place by June to allow for vaccine production by September.

During the discussion, though, questions arose about the June target date. Given the production schedule for some vaccines, that date might need to shift, said Jerry Weir, PhD, director of the division of viral products at FDA’s Center for Biologics Evaluation and Research. 

“We’re all just going to have to maintain flexibility,” Dr. Weir said, adding that there is not yet a “good pattern” established for updating these vaccines. 
 

Increasing vaccination rates

There was broad consensus about the need to boost public support for COVID-19 vaccinations. While about 81% of the U.S. population has had at least one dose of this vaccine, only 15.3% have had an updated bivalent booster dose, according to the CDC.

“Anything that results in better public communication would be extremely valuable,” said committee member Henry H. Bernstein, DO, MHCM, of the Zucker School of Medicine at Hofstra/Northwell Health in Hempstead, N.Y.

But it’s unclear what expectations will be prioritized for the COVID vaccine program, he said. 

“Realistically, I don’t think we can have it all – less infection, less transmission, less severe disease, and less long COVID,” Dr. Bernstein said. “And that seems to be a major challenge for public messaging.” 
 

Panelists press for more data 

Other committee members also pressed for clearer targets in evaluating the goals for COVID vaccines, and for more robust data. 

Like his fellow VRBPAC members, Cody Meissner, MD, of Dartmouth’s Geisel School of Medicine, Hanover, N.H., supported a move toward harmonizing the strains used in different companies’ vaccines. But he added that it wasn’t clear yet how frequently they should be administered. 

“We need to see what happens with disease burden,” Dr. Meissner said. “We may or may not need annual vaccination. It’s just awfully early, it seems to me, in this process to answer that question.”

Among those serving on VRBPAC was one of the FDA’s more vocal critics on these points, Paul A. Offit, MD, a vaccine expert from Children’s Hospital of Philadelphia. Dr. Offit, for example, joined former FDA officials in writing a November opinion article for the Washington Post, arguing that the evidence for boosters for healthy younger adults was not strong.

At the Jan. 26 meeting, he supported the drive toward simplification of COVID vaccine schedules, while arguing for more data about how well these products are working.

“This virus is going to be with us for years, if not decades, and there will always be vulnerable groups who are going to be hospitalized and killed by the virus,” Dr. Offit said.

The CDC needs to provide more information about the characteristics of people being hospitalized with COVID infections, including their ages and comorbidities as well as details about their vaccine history, he said. In addition, academic researchers should provide a clearer picture of what immunological predictors are at play in increasing people’s risk from COVID.

“Then and only then can we really best make the decision about who gets vaccinated with what and when,” Dr. Offit said. 

VRBPAC member Ofer Levy, MD, PhD, also urged the FDA to press for a collection of more robust and detailed information about the immune response to COVID-19 vaccinations, such as a deeper look at what’s happening with antibodies.

“I hope FDA will continue to reflect on how to best take this information forward, and encourage – or require – sponsors to gather more information in a standardized way across these different arms of the human immune system,” Dr. Levy said. “So we keep learning and keep doing this better.”

In recapping the panel’s suggestions at the end of the meeting, Peter Marks, MD, PhD, the director of the FDA’s Center for Biologics Evaluation and Research, addressed the requests made during the day’s meeting about better data on how the vaccines work. 

“We heard loud and clear that we need to use a data-driven approach to get to the simplest possible scheme that we can for vaccination,” Dr. Marks said. “And it should be as simple as possible but not oversimplified, a little bit like they say about Mozart’s music.”

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

U.S. health officials want to simplify the recommended COVID-19 vaccine protocol, making it more like the process for annual flu shots.

The U.S. Food and Drug Administration is suggesting a single annual shot. The formulation would be selected in June targeting the most threatening COVID-19 strains, and then people could get a shot in the fall when people begin spending more time indoors and exposure increases. 

Some people, such as those who are older or immunocompromised, may need more than one dose.

A national advisory committee is expected to vote on the proposal at a meeting Jan. 26.

People in the United States have been much less likely to get an updated COVID-19 booster shot, compared with widespread uptake of the primary vaccine series. In its proposal, the FDA indicated it hoped a single annual shot would overcome challenges created by the complexity of the process – both in messaging and administration – attributed to that low booster rate. Nine in 10 people age 12 or older got the primary vaccine series in the United States, but only 15% got the latest booster shot for COVID-19.

About half of children and adults in the U.S. get an annual flu shot, according to Centers for Disease Control and Prevention data.

The FDA also wants to move to a single COVID-19 vaccine formulation that would be used for primary vaccine series and for booster shots.

COVID-19 cases, hospitalizations, and deaths are trending downward, according to the data tracker from the New York Times. Cases are down 28%, with 47,290 tallied daily. Hospitalizations are down 22%, with 37,474 daily. Deaths are down 4%, with an average of 489 per day as of Jan. 22.

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

U.S. health officials want to simplify the recommended COVID-19 vaccine protocol, making it more like the process for annual flu shots.

The U.S. Food and Drug Administration is suggesting a single annual shot. The formulation would be selected in June targeting the most threatening COVID-19 strains, and then people could get a shot in the fall when people begin spending more time indoors and exposure increases. 

Some people, such as those who are older or immunocompromised, may need more than one dose.

A national advisory committee is expected to vote on the proposal at a meeting Jan. 26.

People in the United States have been much less likely to get an updated COVID-19 booster shot, compared with widespread uptake of the primary vaccine series. In its proposal, the FDA indicated it hoped a single annual shot would overcome challenges created by the complexity of the process – both in messaging and administration – attributed to that low booster rate. Nine in 10 people age 12 or older got the primary vaccine series in the United States, but only 15% got the latest booster shot for COVID-19.

About half of children and adults in the U.S. get an annual flu shot, according to Centers for Disease Control and Prevention data.

The FDA also wants to move to a single COVID-19 vaccine formulation that would be used for primary vaccine series and for booster shots.

COVID-19 cases, hospitalizations, and deaths are trending downward, according to the data tracker from the New York Times. Cases are down 28%, with 47,290 tallied daily. Hospitalizations are down 22%, with 37,474 daily. Deaths are down 4%, with an average of 489 per day as of Jan. 22.

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

U.S. health officials want to simplify the recommended COVID-19 vaccine protocol, making it more like the process for annual flu shots.

The U.S. Food and Drug Administration is suggesting a single annual shot. The formulation would be selected in June targeting the most threatening COVID-19 strains, and then people could get a shot in the fall when people begin spending more time indoors and exposure increases. 

Some people, such as those who are older or immunocompromised, may need more than one dose.

A national advisory committee is expected to vote on the proposal at a meeting Jan. 26.

People in the United States have been much less likely to get an updated COVID-19 booster shot, compared with widespread uptake of the primary vaccine series. In its proposal, the FDA indicated it hoped a single annual shot would overcome challenges created by the complexity of the process – both in messaging and administration – attributed to that low booster rate. Nine in 10 people age 12 or older got the primary vaccine series in the United States, but only 15% got the latest booster shot for COVID-19.

About half of children and adults in the U.S. get an annual flu shot, according to Centers for Disease Control and Prevention data.

The FDA also wants to move to a single COVID-19 vaccine formulation that would be used for primary vaccine series and for booster shots.

COVID-19 cases, hospitalizations, and deaths are trending downward, according to the data tracker from the New York Times. Cases are down 28%, with 47,290 tallied daily. Hospitalizations are down 22%, with 37,474 daily. Deaths are down 4%, with an average of 489 per day as of Jan. 22.

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

In 2020, the rapid spread of the newly identified SARS-CoV-2 coronavirus led various global public health institutions to establish strategies to stop transmission and reduce mortality. Nonpharmacological measures – including social distancing, regular hand washing, and the use of face masks – contributed to reducing the impact of the COVID-19 pandemic on health systems in different regions of the world. However, because of the implementation of these measures, the transmission of other infectious agents also experienced a marked reduction.

Approximately 3 years after the start of the pandemic, it is evident that SARS-COV-2 has also affected the dynamic of other infectious agents, generating phenomena ranging from an immunity gap, which favors the increase in some diseases, to the apparent disappearance of an influenza virus lineage.
 

Understanding the phenomenon

In mid-2021, doctors and researchers around the world began to share their opinions about the side effect of the strict measures implemented to contain COVID-19.

In May 2021, along with some coresearchers, Emmanuel Grimprel, MD, of the Pediatric Infectious Pathology Group in Créteil, France, wrote for Infectious Disease Now, “The transmission of some pathogens is often similar to that of SARS-CoV-2, essentially large droplets, aerosols, and direct hand contact, often with lower transmissibility. The lack of immune system stimulation due to nonpharmaceutical measures induces an ‘immune debt’ that may have negative consequences when the pandemic is under control.” According to the authors, mathematical models evaluated up to that point were already suggesting that the respiratory syncytial virus (RSV) and influenza A epidemics would be more serious in subsequent years.

In July 2022, a commentary in The Lancet led by Kevin Messacar, MD, of the University of Colorado at Denver, Aurora, grew in relevance and gave prominence to the phenomenon. In the commentary, Dr. Messacar and a group of experts explained how the decrease in exposure to endemic viruses had given rise to an immunity gap.

“The immunity gap phenomenon that has been reported in articles such as The Lancet publication is mainly due to the isolation that took place to prevent SARS-CoV-2 infections. Although this distancing was a good response to combat infections, or at least delay them while coronavirus research advanced, what we are now experiencing is the increase in cases of respiratory diseases caused by other agents such as respiratory syncytial virus and influenza due to lack of exposure,” as explained to this news organization by Erandeni Martínez Jiménez, biomedicine graduate and member of the Medical Virology Laboratory of the Mexican Institute of Social Security, at the Zone No. 5 General Hospital in Metepec-Atlixco, Mexico.

“This phenomenon occurs in all age groups. However, it is more evident in children and babies, since at their age, they have been exposed to fewer pathogens and, when added to isolation, makes this immunity gap more evident. Many immunologists compare this to hygiene theory in which it is explained that a ‘sterile’ environment will cause children to avoid the everyday and common pathogens required to be able to develop an adequate immune system,” added Martínez Jimenez.

“In addition, due to the isolation, the vaccination rate in children decreased, since many parents did not risk their children going out. This causes the immunity gap to grow even further as these children are not protected against common pathogens. While a mother passes antibodies to the child through the uterus via her placenta, the mother will only pass on those antibodies to which she has been exposed and as expected due to the lockdown, exposure to other pathogens has been greatly reduced.”

On the other hand, Andreu Comas, MD, PhD, MHS, of the Center for Research in Health Sciences and Biomedicine of the Autonomous University of San Luis Potosí (Mexico), considered that there are other immunity gaps that are not limited to respiratory infections and that are related to the fall in vaccination coverage. “Children are going to experience several immunity gaps. In the middle of the previous 6-year term, we had a vaccination schedule coverage of around 70% for children. Now that vaccination coverage has fallen to 30%, today we have an immunity gap for measles, rubella, mumps, tetanus, diphtheria, whooping cough, and meningeal tuberculosis. We have a significant growth or risk for other diseases.”
 

Lineage extinction

Three types of influenza viruses – A, B, and C – cause infections in humans. Although influenza A virus is the main type associated with infections during seasonal periods, as of 2020, influenza B virus was considered the causative agent of about a quarter of annual influenza cases.

During the onset of the COVID-19 pandemic, cocirculation of the two distinct lineages of influenza B viruses, B/Victoria/2/1987 (B/Victoria) and B/Yamagata/16/1988 (B/Yamagata), decreased significantly. According to data from the FluNet tool, which is coordinated by the World Health Organization, since March 2020 the isolation or sequencing of viruses belonging to the Yamagata lineage was not conclusively carried out.

Specialists like John Paget, PhD, from the Netherlands Institute for Health Services Research (Nivel) in Utrecht, have indicated that determining the extinction of the B/Yamagata lineage is critical. There is the possibility of a reintroduction of the lineage, as has occurred in the past with the reemergence of influenza A (H1N1) in 1997, which could represent a risk in subsequent years.

“In the next few years, research related to viruses such as influenza B and the impact on population immunity will be important. Let’s remember that influenza changes every year due to its characteristics, so a lack of exposure will also have an impact on the development of the disease,” said Martínez Jiménez.
 

Vaccination is essential

According to Dr. Comas, the only way to overcome the immunity gap phenomenon is through vaccination campaigns. “There is no other way to overcome the phenomenon, and how fast it is done will depend on the effort,” he said.

“In the case of COVID-19, it is not planned to vaccinate children under 5 years of age, and if we do not vaccinate children under 5 years of age, that gap will exist. In addition, this winter season will be important to know whether we are already endemic or not. It will be the key point, and it will determine if we will have a peak or not in the summer.

“In the case of the rest of the diseases, we need to correct what has been deficient in different governments, and we are going to have the resurgence of other infectious diseases that had already been forgotten. We have the example of poliomyelitis, the increase in meningeal tuberculosis, and we will have an increase in whooping cough and pertussislike syndrome. In this sense, we are going back to the point where Mexico and the world were around the ‘60s and ‘70s, and we have to be very alert to detect, isolate, and revaccinate.”

Finally, Dr. Comas called for continuing precautionary measures before the arrival of the sixth wave. “At a national level, the sixth wave of COVID-19 has already begun, and an increase in cases is expected in January. Regarding vaccines, if you are over 18 years of age and have not had any vaccine dose, you can get Abdala, however, there are no studies on this vaccine as a booster, and it is not authorized by the Mexican government for this purpose. Therefore, it is necessary to continue with measures such as the use of face masks in crowded places or with poor ventilation, and in the event of having symptoms, avoid going out and encourage ventilation at work and schools. If we do this, at least in the case of diseases that are transmitted by the respiratory route, the impact will be minimal.”

Martínez Jiménez and Dr. Comas have disclosed no relevant financial relationships.

This article was translated from the Medscape Spanish Edition.

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

In 2020, the rapid spread of the newly identified SARS-CoV-2 coronavirus led various global public health institutions to establish strategies to stop transmission and reduce mortality. Nonpharmacological measures – including social distancing, regular hand washing, and the use of face masks – contributed to reducing the impact of the COVID-19 pandemic on health systems in different regions of the world. However, because of the implementation of these measures, the transmission of other infectious agents also experienced a marked reduction.

Approximately 3 years after the start of the pandemic, it is evident that SARS-COV-2 has also affected the dynamic of other infectious agents, generating phenomena ranging from an immunity gap, which favors the increase in some diseases, to the apparent disappearance of an influenza virus lineage.
 

Understanding the phenomenon

In mid-2021, doctors and researchers around the world began to share their opinions about the side effect of the strict measures implemented to contain COVID-19.

In May 2021, along with some coresearchers, Emmanuel Grimprel, MD, of the Pediatric Infectious Pathology Group in Créteil, France, wrote for Infectious Disease Now, “The transmission of some pathogens is often similar to that of SARS-CoV-2, essentially large droplets, aerosols, and direct hand contact, often with lower transmissibility. The lack of immune system stimulation due to nonpharmaceutical measures induces an ‘immune debt’ that may have negative consequences when the pandemic is under control.” According to the authors, mathematical models evaluated up to that point were already suggesting that the respiratory syncytial virus (RSV) and influenza A epidemics would be more serious in subsequent years.

In July 2022, a commentary in The Lancet led by Kevin Messacar, MD, of the University of Colorado at Denver, Aurora, grew in relevance and gave prominence to the phenomenon. In the commentary, Dr. Messacar and a group of experts explained how the decrease in exposure to endemic viruses had given rise to an immunity gap.

“The immunity gap phenomenon that has been reported in articles such as The Lancet publication is mainly due to the isolation that took place to prevent SARS-CoV-2 infections. Although this distancing was a good response to combat infections, or at least delay them while coronavirus research advanced, what we are now experiencing is the increase in cases of respiratory diseases caused by other agents such as respiratory syncytial virus and influenza due to lack of exposure,” as explained to this news organization by Erandeni Martínez Jiménez, biomedicine graduate and member of the Medical Virology Laboratory of the Mexican Institute of Social Security, at the Zone No. 5 General Hospital in Metepec-Atlixco, Mexico.

“This phenomenon occurs in all age groups. However, it is more evident in children and babies, since at their age, they have been exposed to fewer pathogens and, when added to isolation, makes this immunity gap more evident. Many immunologists compare this to hygiene theory in which it is explained that a ‘sterile’ environment will cause children to avoid the everyday and common pathogens required to be able to develop an adequate immune system,” added Martínez Jimenez.

“In addition, due to the isolation, the vaccination rate in children decreased, since many parents did not risk their children going out. This causes the immunity gap to grow even further as these children are not protected against common pathogens. While a mother passes antibodies to the child through the uterus via her placenta, the mother will only pass on those antibodies to which she has been exposed and as expected due to the lockdown, exposure to other pathogens has been greatly reduced.”

On the other hand, Andreu Comas, MD, PhD, MHS, of the Center for Research in Health Sciences and Biomedicine of the Autonomous University of San Luis Potosí (Mexico), considered that there are other immunity gaps that are not limited to respiratory infections and that are related to the fall in vaccination coverage. “Children are going to experience several immunity gaps. In the middle of the previous 6-year term, we had a vaccination schedule coverage of around 70% for children. Now that vaccination coverage has fallen to 30%, today we have an immunity gap for measles, rubella, mumps, tetanus, diphtheria, whooping cough, and meningeal tuberculosis. We have a significant growth or risk for other diseases.”
 

Lineage extinction

Three types of influenza viruses – A, B, and C – cause infections in humans. Although influenza A virus is the main type associated with infections during seasonal periods, as of 2020, influenza B virus was considered the causative agent of about a quarter of annual influenza cases.

During the onset of the COVID-19 pandemic, cocirculation of the two distinct lineages of influenza B viruses, B/Victoria/2/1987 (B/Victoria) and B/Yamagata/16/1988 (B/Yamagata), decreased significantly. According to data from the FluNet tool, which is coordinated by the World Health Organization, since March 2020 the isolation or sequencing of viruses belonging to the Yamagata lineage was not conclusively carried out.

Specialists like John Paget, PhD, from the Netherlands Institute for Health Services Research (Nivel) in Utrecht, have indicated that determining the extinction of the B/Yamagata lineage is critical. There is the possibility of a reintroduction of the lineage, as has occurred in the past with the reemergence of influenza A (H1N1) in 1997, which could represent a risk in subsequent years.

“In the next few years, research related to viruses such as influenza B and the impact on population immunity will be important. Let’s remember that influenza changes every year due to its characteristics, so a lack of exposure will also have an impact on the development of the disease,” said Martínez Jiménez.
 

Vaccination is essential

According to Dr. Comas, the only way to overcome the immunity gap phenomenon is through vaccination campaigns. “There is no other way to overcome the phenomenon, and how fast it is done will depend on the effort,” he said.

“In the case of COVID-19, it is not planned to vaccinate children under 5 years of age, and if we do not vaccinate children under 5 years of age, that gap will exist. In addition, this winter season will be important to know whether we are already endemic or not. It will be the key point, and it will determine if we will have a peak or not in the summer.

“In the case of the rest of the diseases, we need to correct what has been deficient in different governments, and we are going to have the resurgence of other infectious diseases that had already been forgotten. We have the example of poliomyelitis, the increase in meningeal tuberculosis, and we will have an increase in whooping cough and pertussislike syndrome. In this sense, we are going back to the point where Mexico and the world were around the ‘60s and ‘70s, and we have to be very alert to detect, isolate, and revaccinate.”

Finally, Dr. Comas called for continuing precautionary measures before the arrival of the sixth wave. “At a national level, the sixth wave of COVID-19 has already begun, and an increase in cases is expected in January. Regarding vaccines, if you are over 18 years of age and have not had any vaccine dose, you can get Abdala, however, there are no studies on this vaccine as a booster, and it is not authorized by the Mexican government for this purpose. Therefore, it is necessary to continue with measures such as the use of face masks in crowded places or with poor ventilation, and in the event of having symptoms, avoid going out and encourage ventilation at work and schools. If we do this, at least in the case of diseases that are transmitted by the respiratory route, the impact will be minimal.”

Martínez Jiménez and Dr. Comas have disclosed no relevant financial relationships.

This article was translated from the Medscape Spanish Edition.

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

In 2020, the rapid spread of the newly identified SARS-CoV-2 coronavirus led various global public health institutions to establish strategies to stop transmission and reduce mortality. Nonpharmacological measures – including social distancing, regular hand washing, and the use of face masks – contributed to reducing the impact of the COVID-19 pandemic on health systems in different regions of the world. However, because of the implementation of these measures, the transmission of other infectious agents also experienced a marked reduction.

Approximately 3 years after the start of the pandemic, it is evident that SARS-COV-2 has also affected the dynamic of other infectious agents, generating phenomena ranging from an immunity gap, which favors the increase in some diseases, to the apparent disappearance of an influenza virus lineage.
 

Understanding the phenomenon

In mid-2021, doctors and researchers around the world began to share their opinions about the side effect of the strict measures implemented to contain COVID-19.

In May 2021, along with some coresearchers, Emmanuel Grimprel, MD, of the Pediatric Infectious Pathology Group in Créteil, France, wrote for Infectious Disease Now, “The transmission of some pathogens is often similar to that of SARS-CoV-2, essentially large droplets, aerosols, and direct hand contact, often with lower transmissibility. The lack of immune system stimulation due to nonpharmaceutical measures induces an ‘immune debt’ that may have negative consequences when the pandemic is under control.” According to the authors, mathematical models evaluated up to that point were already suggesting that the respiratory syncytial virus (RSV) and influenza A epidemics would be more serious in subsequent years.

In July 2022, a commentary in The Lancet led by Kevin Messacar, MD, of the University of Colorado at Denver, Aurora, grew in relevance and gave prominence to the phenomenon. In the commentary, Dr. Messacar and a group of experts explained how the decrease in exposure to endemic viruses had given rise to an immunity gap.

“The immunity gap phenomenon that has been reported in articles such as The Lancet publication is mainly due to the isolation that took place to prevent SARS-CoV-2 infections. Although this distancing was a good response to combat infections, or at least delay them while coronavirus research advanced, what we are now experiencing is the increase in cases of respiratory diseases caused by other agents such as respiratory syncytial virus and influenza due to lack of exposure,” as explained to this news organization by Erandeni Martínez Jiménez, biomedicine graduate and member of the Medical Virology Laboratory of the Mexican Institute of Social Security, at the Zone No. 5 General Hospital in Metepec-Atlixco, Mexico.

“This phenomenon occurs in all age groups. However, it is more evident in children and babies, since at their age, they have been exposed to fewer pathogens and, when added to isolation, makes this immunity gap more evident. Many immunologists compare this to hygiene theory in which it is explained that a ‘sterile’ environment will cause children to avoid the everyday and common pathogens required to be able to develop an adequate immune system,” added Martínez Jimenez.

“In addition, due to the isolation, the vaccination rate in children decreased, since many parents did not risk their children going out. This causes the immunity gap to grow even further as these children are not protected against common pathogens. While a mother passes antibodies to the child through the uterus via her placenta, the mother will only pass on those antibodies to which she has been exposed and as expected due to the lockdown, exposure to other pathogens has been greatly reduced.”

On the other hand, Andreu Comas, MD, PhD, MHS, of the Center for Research in Health Sciences and Biomedicine of the Autonomous University of San Luis Potosí (Mexico), considered that there are other immunity gaps that are not limited to respiratory infections and that are related to the fall in vaccination coverage. “Children are going to experience several immunity gaps. In the middle of the previous 6-year term, we had a vaccination schedule coverage of around 70% for children. Now that vaccination coverage has fallen to 30%, today we have an immunity gap for measles, rubella, mumps, tetanus, diphtheria, whooping cough, and meningeal tuberculosis. We have a significant growth or risk for other diseases.”
 

Lineage extinction

Three types of influenza viruses – A, B, and C – cause infections in humans. Although influenza A virus is the main type associated with infections during seasonal periods, as of 2020, influenza B virus was considered the causative agent of about a quarter of annual influenza cases.

During the onset of the COVID-19 pandemic, cocirculation of the two distinct lineages of influenza B viruses, B/Victoria/2/1987 (B/Victoria) and B/Yamagata/16/1988 (B/Yamagata), decreased significantly. According to data from the FluNet tool, which is coordinated by the World Health Organization, since March 2020 the isolation or sequencing of viruses belonging to the Yamagata lineage was not conclusively carried out.

Specialists like John Paget, PhD, from the Netherlands Institute for Health Services Research (Nivel) in Utrecht, have indicated that determining the extinction of the B/Yamagata lineage is critical. There is the possibility of a reintroduction of the lineage, as has occurred in the past with the reemergence of influenza A (H1N1) in 1997, which could represent a risk in subsequent years.

“In the next few years, research related to viruses such as influenza B and the impact on population immunity will be important. Let’s remember that influenza changes every year due to its characteristics, so a lack of exposure will also have an impact on the development of the disease,” said Martínez Jiménez.
 

Vaccination is essential

According to Dr. Comas, the only way to overcome the immunity gap phenomenon is through vaccination campaigns. “There is no other way to overcome the phenomenon, and how fast it is done will depend on the effort,” he said.

“In the case of COVID-19, it is not planned to vaccinate children under 5 years of age, and if we do not vaccinate children under 5 years of age, that gap will exist. In addition, this winter season will be important to know whether we are already endemic or not. It will be the key point, and it will determine if we will have a peak or not in the summer.

“In the case of the rest of the diseases, we need to correct what has been deficient in different governments, and we are going to have the resurgence of other infectious diseases that had already been forgotten. We have the example of poliomyelitis, the increase in meningeal tuberculosis, and we will have an increase in whooping cough and pertussislike syndrome. In this sense, we are going back to the point where Mexico and the world were around the ‘60s and ‘70s, and we have to be very alert to detect, isolate, and revaccinate.”

Finally, Dr. Comas called for continuing precautionary measures before the arrival of the sixth wave. “At a national level, the sixth wave of COVID-19 has already begun, and an increase in cases is expected in January. Regarding vaccines, if you are over 18 years of age and have not had any vaccine dose, you can get Abdala, however, there are no studies on this vaccine as a booster, and it is not authorized by the Mexican government for this purpose. Therefore, it is necessary to continue with measures such as the use of face masks in crowded places or with poor ventilation, and in the event of having symptoms, avoid going out and encourage ventilation at work and schools. If we do this, at least in the case of diseases that are transmitted by the respiratory route, the impact will be minimal.”

Martínez Jiménez and Dr. Comas have disclosed no relevant financial relationships.

This article was translated from the Medscape Spanish Edition.

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

PCSK9 inhibitors may best be known for their powerful LDL-lowering effects but are less appreciated as anti-inflammatory agents with potential beyond cardiovascular health.

In a small pilot trial, for example, patients hospitalized with severe COVID-19 who received a single injection of PCSK9 inhibitor became less sick and more likely to survive than those given a placebo. Their 30-day risk of death or intubation fell significantly, as did their levels of the inflammatory cytokine interleukin 6 (IL-6).

Indeed, survival gains in the PCSK9-inhibitor group were greatest among patients with higher baseline concentrations of IL-6. Although the trial wasn’t powered for clinical outcomes, it suggests the drugs’ efficacy in COVID-19 tracks with intensity of inflammation, proposes a report published  in the Journal of the American College of Cardiology.

Therefore, “PCSK9 inhibition may represent a novel therapeutic pathway in addition to currently recommended therapeutic approaches for severe COVID-19,” conclude the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.
 

PCSK9 inhibitors as anti-inflammatories

Although the study was small and only hypothesis-generating, the fact that outcomes for actively treated patients were proportional to baseline IL-6 levels “strongly suggests that PCSK9 inhibition can directly modulate inflammation in COVID-19,” argues an editorial accompanying the report.

The study adds to “our clinical arsenal against COVID-19,” and likely sheds light on “mechanisms through which PCSK9 inhibition dually modulates lipoprotein metabolism and inflammation,” write Sascha N. Goonewardena, MD, University of Michigan, Ann Arbor, and Robert S. Rosenson, MD, Icahn School of Medicine at Mount Sinai, New York.

The results are consistent with prior evidence that the drugs are anti-inflammatory at least partly because of their interference with inflammatory pathways triggered by PCSK9 and mediated by IL-6, as described by Dr. Navarese and colleagues.

Indeed, they write, PCSK9 inhibitors may improve COVID outcomes mostly through mechanisms unrelated to LDL-receptor expression, “including direct inhibition of PCSK9-triggered inflammation.”

If true, the authors observe, it might explain “why the positive findings of the present study have not been consistently observed in trials involving other lipid-lowering agents, such as statins.” Those drugs are well-known to decrease levels of the inflammatory biomarker C-reactive protein.

In patients with stable coronary disease, in whom inflammation is typically tracked by measuring CRP, “the PCSK9 inhibitors have not been shown to have an anti-inflammatory effect,” Dr. Rosenson further explained.

But the current study’s patients with acute, severe COVID-19, a “profound inflammatory insult” with upregulation of IL-6, were “a good population” for evaluating the drugs’ potential anti-inflammatory effects, Dr. Rosenson said in an interview. The results “are quite enticing but require corroboration in a larger trial.”
 

A single injection

The IMPACT-SIRIO 5 trial entered 60 adults hospitalized with severe COVID-19 and elevated IL-6 at four centers in Poland. Patients with other known active infections were excluded.  

They were randomly assigned double-blind to receive a 140 mg injection of evolocumab (Repatha) or placebo. The 2 groups were similar with respect to demographics, body-mass index, time since symptom onset, and treatments for managing COVID-19 and its complications.

Rates of death or need for intubation at 30 days, the primary endpoint, were 23.3% in the PCSK9-inhibitor group and 53.3% for controls, a risk difference of 30% (95% confidence interval –53.4% to –6.6%). The median durations of oxygen therapy were significantly different at 13 days and 20 days, respectively, the report states.

Serum IL-6 levels fell further over 30 days in the PCSK9-inhibitor group (–56% vs. –21% among controls). A drop by more than 90% was seen in 60% of patients in the PCSK9-inhibitor group and in 27% of controls.

The average hospital stay was shorter for those getting the PCSK9 inhibitor, compared with placebo, 16 days versus 22 days, and their 30-day mortality was numerically lower, 16% versus 33.3%.

Patients’ baseline IL-6 levels above the median, the report states, had a lower mortality on the PCSK9 inhibitor versus placebo (risk difference –37.5%; 95% CI –68.2% to –6.70%).

A larger trial to corroborate these results would potentially enter similar patients hospitalized with COVID-19 with reproducible evidence of an ongoing cytokine storm, such as elevated levels of IL-6, who would be assigned to either a PCSK9 inhibitor or placebo, Dr. Rosenson proposed.

Although the current primary endpoint that combines mortality and intubation was “reasonable” for a small pilot trial, he said, if the researchers embark on a larger study, “they’ll want to look at those events separately.”

Dr. Navarese discloses receiving speaker and consultancy fees from Amgen, Sanofi-Regeneron, Bayer; and grants from Abbott. Disclosures for the other authors are in the report. Rosenson discloses receiving research funding to his institution from Amgen, Arrowhead, Eli Lilly, Novartis, and Regeneron; consulting fees from Amgen, Arrowhead, CRISPR Therapeutics, Eli Lilly, Lipigon, Novartis, Precision Biosciences, Regeneron, Ultragenyx, and Verve; speaking fees from Amgen, Kowa, and Regeneron; and royalties from Wolters Kluwer; and owning stock in MediMergent. Dr. Goonewardena reports no relevant financial relationships.

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

PCSK9 inhibitors may best be known for their powerful LDL-lowering effects but are less appreciated as anti-inflammatory agents with potential beyond cardiovascular health.

In a small pilot trial, for example, patients hospitalized with severe COVID-19 who received a single injection of PCSK9 inhibitor became less sick and more likely to survive than those given a placebo. Their 30-day risk of death or intubation fell significantly, as did their levels of the inflammatory cytokine interleukin 6 (IL-6).

Indeed, survival gains in the PCSK9-inhibitor group were greatest among patients with higher baseline concentrations of IL-6. Although the trial wasn’t powered for clinical outcomes, it suggests the drugs’ efficacy in COVID-19 tracks with intensity of inflammation, proposes a report published  in the Journal of the American College of Cardiology.

Therefore, “PCSK9 inhibition may represent a novel therapeutic pathway in addition to currently recommended therapeutic approaches for severe COVID-19,” conclude the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.
 

PCSK9 inhibitors as anti-inflammatories

Although the study was small and only hypothesis-generating, the fact that outcomes for actively treated patients were proportional to baseline IL-6 levels “strongly suggests that PCSK9 inhibition can directly modulate inflammation in COVID-19,” argues an editorial accompanying the report.

The study adds to “our clinical arsenal against COVID-19,” and likely sheds light on “mechanisms through which PCSK9 inhibition dually modulates lipoprotein metabolism and inflammation,” write Sascha N. Goonewardena, MD, University of Michigan, Ann Arbor, and Robert S. Rosenson, MD, Icahn School of Medicine at Mount Sinai, New York.

The results are consistent with prior evidence that the drugs are anti-inflammatory at least partly because of their interference with inflammatory pathways triggered by PCSK9 and mediated by IL-6, as described by Dr. Navarese and colleagues.

Indeed, they write, PCSK9 inhibitors may improve COVID outcomes mostly through mechanisms unrelated to LDL-receptor expression, “including direct inhibition of PCSK9-triggered inflammation.”

If true, the authors observe, it might explain “why the positive findings of the present study have not been consistently observed in trials involving other lipid-lowering agents, such as statins.” Those drugs are well-known to decrease levels of the inflammatory biomarker C-reactive protein.

In patients with stable coronary disease, in whom inflammation is typically tracked by measuring CRP, “the PCSK9 inhibitors have not been shown to have an anti-inflammatory effect,” Dr. Rosenson further explained.

But the current study’s patients with acute, severe COVID-19, a “profound inflammatory insult” with upregulation of IL-6, were “a good population” for evaluating the drugs’ potential anti-inflammatory effects, Dr. Rosenson said in an interview. The results “are quite enticing but require corroboration in a larger trial.”
 

A single injection

The IMPACT-SIRIO 5 trial entered 60 adults hospitalized with severe COVID-19 and elevated IL-6 at four centers in Poland. Patients with other known active infections were excluded.  

They were randomly assigned double-blind to receive a 140 mg injection of evolocumab (Repatha) or placebo. The 2 groups were similar with respect to demographics, body-mass index, time since symptom onset, and treatments for managing COVID-19 and its complications.

Rates of death or need for intubation at 30 days, the primary endpoint, were 23.3% in the PCSK9-inhibitor group and 53.3% for controls, a risk difference of 30% (95% confidence interval –53.4% to –6.6%). The median durations of oxygen therapy were significantly different at 13 days and 20 days, respectively, the report states.

Serum IL-6 levels fell further over 30 days in the PCSK9-inhibitor group (–56% vs. –21% among controls). A drop by more than 90% was seen in 60% of patients in the PCSK9-inhibitor group and in 27% of controls.

The average hospital stay was shorter for those getting the PCSK9 inhibitor, compared with placebo, 16 days versus 22 days, and their 30-day mortality was numerically lower, 16% versus 33.3%.

Patients’ baseline IL-6 levels above the median, the report states, had a lower mortality on the PCSK9 inhibitor versus placebo (risk difference –37.5%; 95% CI –68.2% to –6.70%).

A larger trial to corroborate these results would potentially enter similar patients hospitalized with COVID-19 with reproducible evidence of an ongoing cytokine storm, such as elevated levels of IL-6, who would be assigned to either a PCSK9 inhibitor or placebo, Dr. Rosenson proposed.

Although the current primary endpoint that combines mortality and intubation was “reasonable” for a small pilot trial, he said, if the researchers embark on a larger study, “they’ll want to look at those events separately.”

Dr. Navarese discloses receiving speaker and consultancy fees from Amgen, Sanofi-Regeneron, Bayer; and grants from Abbott. Disclosures for the other authors are in the report. Rosenson discloses receiving research funding to his institution from Amgen, Arrowhead, Eli Lilly, Novartis, and Regeneron; consulting fees from Amgen, Arrowhead, CRISPR Therapeutics, Eli Lilly, Lipigon, Novartis, Precision Biosciences, Regeneron, Ultragenyx, and Verve; speaking fees from Amgen, Kowa, and Regeneron; and royalties from Wolters Kluwer; and owning stock in MediMergent. Dr. Goonewardena reports no relevant financial relationships.

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

PCSK9 inhibitors may best be known for their powerful LDL-lowering effects but are less appreciated as anti-inflammatory agents with potential beyond cardiovascular health.

In a small pilot trial, for example, patients hospitalized with severe COVID-19 who received a single injection of PCSK9 inhibitor became less sick and more likely to survive than those given a placebo. Their 30-day risk of death or intubation fell significantly, as did their levels of the inflammatory cytokine interleukin 6 (IL-6).

Indeed, survival gains in the PCSK9-inhibitor group were greatest among patients with higher baseline concentrations of IL-6. Although the trial wasn’t powered for clinical outcomes, it suggests the drugs’ efficacy in COVID-19 tracks with intensity of inflammation, proposes a report published  in the Journal of the American College of Cardiology.

Therefore, “PCSK9 inhibition may represent a novel therapeutic pathway in addition to currently recommended therapeutic approaches for severe COVID-19,” conclude the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.
 

PCSK9 inhibitors as anti-inflammatories

Although the study was small and only hypothesis-generating, the fact that outcomes for actively treated patients were proportional to baseline IL-6 levels “strongly suggests that PCSK9 inhibition can directly modulate inflammation in COVID-19,” argues an editorial accompanying the report.

The study adds to “our clinical arsenal against COVID-19,” and likely sheds light on “mechanisms through which PCSK9 inhibition dually modulates lipoprotein metabolism and inflammation,” write Sascha N. Goonewardena, MD, University of Michigan, Ann Arbor, and Robert S. Rosenson, MD, Icahn School of Medicine at Mount Sinai, New York.

The results are consistent with prior evidence that the drugs are anti-inflammatory at least partly because of their interference with inflammatory pathways triggered by PCSK9 and mediated by IL-6, as described by Dr. Navarese and colleagues.

Indeed, they write, PCSK9 inhibitors may improve COVID outcomes mostly through mechanisms unrelated to LDL-receptor expression, “including direct inhibition of PCSK9-triggered inflammation.”

If true, the authors observe, it might explain “why the positive findings of the present study have not been consistently observed in trials involving other lipid-lowering agents, such as statins.” Those drugs are well-known to decrease levels of the inflammatory biomarker C-reactive protein.

In patients with stable coronary disease, in whom inflammation is typically tracked by measuring CRP, “the PCSK9 inhibitors have not been shown to have an anti-inflammatory effect,” Dr. Rosenson further explained.

But the current study’s patients with acute, severe COVID-19, a “profound inflammatory insult” with upregulation of IL-6, were “a good population” for evaluating the drugs’ potential anti-inflammatory effects, Dr. Rosenson said in an interview. The results “are quite enticing but require corroboration in a larger trial.”
 

A single injection

The IMPACT-SIRIO 5 trial entered 60 adults hospitalized with severe COVID-19 and elevated IL-6 at four centers in Poland. Patients with other known active infections were excluded.  

They were randomly assigned double-blind to receive a 140 mg injection of evolocumab (Repatha) or placebo. The 2 groups were similar with respect to demographics, body-mass index, time since symptom onset, and treatments for managing COVID-19 and its complications.

Rates of death or need for intubation at 30 days, the primary endpoint, were 23.3% in the PCSK9-inhibitor group and 53.3% for controls, a risk difference of 30% (95% confidence interval –53.4% to –6.6%). The median durations of oxygen therapy were significantly different at 13 days and 20 days, respectively, the report states.

Serum IL-6 levels fell further over 30 days in the PCSK9-inhibitor group (–56% vs. –21% among controls). A drop by more than 90% was seen in 60% of patients in the PCSK9-inhibitor group and in 27% of controls.

The average hospital stay was shorter for those getting the PCSK9 inhibitor, compared with placebo, 16 days versus 22 days, and their 30-day mortality was numerically lower, 16% versus 33.3%.

Patients’ baseline IL-6 levels above the median, the report states, had a lower mortality on the PCSK9 inhibitor versus placebo (risk difference –37.5%; 95% CI –68.2% to –6.70%).

A larger trial to corroborate these results would potentially enter similar patients hospitalized with COVID-19 with reproducible evidence of an ongoing cytokine storm, such as elevated levels of IL-6, who would be assigned to either a PCSK9 inhibitor or placebo, Dr. Rosenson proposed.

Although the current primary endpoint that combines mortality and intubation was “reasonable” for a small pilot trial, he said, if the researchers embark on a larger study, “they’ll want to look at those events separately.”

Dr. Navarese discloses receiving speaker and consultancy fees from Amgen, Sanofi-Regeneron, Bayer; and grants from Abbott. Disclosures for the other authors are in the report. Rosenson discloses receiving research funding to his institution from Amgen, Arrowhead, Eli Lilly, Novartis, and Regeneron; consulting fees from Amgen, Arrowhead, CRISPR Therapeutics, Eli Lilly, Lipigon, Novartis, Precision Biosciences, Regeneron, Ultragenyx, and Verve; speaking fees from Amgen, Kowa, and Regeneron; and royalties from Wolters Kluwer; and owning stock in MediMergent. Dr. Goonewardena reports no relevant financial relationships.

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

Doctors do not appear to be bouncing back from the pandemic’s early days – their happiness at and away from work continues to be significantly lower than before the pandemic. Physicians reported similar levels of unhappiness in 2022 too.

Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*

“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.

“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”

Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.

Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.

While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.

“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.

Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.

Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.

Physicians’ personal life suffers

Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.

“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.

That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.

More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.

When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.

“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
 

Prioritize your well-being

Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”

Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.

A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.

Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”

She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”

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

Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.

Doctors do not appear to be bouncing back from the pandemic’s early days – their happiness at and away from work continues to be significantly lower than before the pandemic. Physicians reported similar levels of unhappiness in 2022 too.

Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*

“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.

“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”

Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.

Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.

While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.

“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.

Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.

Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.

Physicians’ personal life suffers

Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.

“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.

That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.

More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.

When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.

“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
 

Prioritize your well-being

Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”

Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.

A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.

Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”

She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”

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

Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.

Doctors do not appear to be bouncing back from the pandemic’s early days – their happiness at and away from work continues to be significantly lower than before the pandemic. Physicians reported similar levels of unhappiness in 2022 too.

Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*

“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.

“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”

Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.

Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.

While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.

“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.

Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.

Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.

Physicians’ personal life suffers

Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.

“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.

That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.

More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.

When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.

“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
 

Prioritize your well-being

Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”

Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.

A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.

Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”

She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”

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

Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.

Women infected with COVID-19 during pregnancy are seven times more likely to die during childbirth or during the pregnancy than uninfected pregnant women, a new study shows. The new report also warns of many other severe complications linked with the virus during pregnancy, as well as risks to the baby after birth.

But the researchers said they did not find that COVID-19 infection during pregnancy impacted the risk of stillbirth or a baby’s growth rate during pregnancy.

The study, which was a meta-analysis of previous research, was published Jan. 16 in the journal BMJ Global Health. Data from 12 studies from 12 countries were combined so researchers could analyze outcomes for 13,136 pregnant women.

Babies born to mothers who were infected with COVID during pregnancy had almost double the risk of needing stays in the neonatal intensive care unit and also were more likely to be born preterm, compared with babies who were born to pregnant women who didn’t get COVID.

The researchers also found that pregnant women who got COVID were more likely to be admitted to intensive care units, need a ventilator to help them survive, develop dangerous blood clots, or develop preeclampsia, which is a high blood pressure disorder that can be fatal for the mother or baby.

One of the strengths of the study was that it included women in different trimesters during pregnancy.

“That’s something new here too is that COVID at any time during pregnancy did bring this extra risk onto mom and babies,” said lead author Emily R. Smith, ScD, MPH, assistant professor of global health at the George Washington University, in a video statement. 

The report is prompting calls for improved efforts to convince pregnant women to get vaccinated for COVID-19. The rate among them remains low: About 1 in 5 pregnant women had received the most updated COVID-19 booster as of Jan. 7, according to the CDC.

“The implications here are that it’s really important that if you’re pregnant or if you’re thinking about becoming pregnant, to get vaccinated,” Dr. Smith said. “This can really reduce the risk of having some of these bad outcomes for mom or for baby.”

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

Women infected with COVID-19 during pregnancy are seven times more likely to die during childbirth or during the pregnancy than uninfected pregnant women, a new study shows. The new report also warns of many other severe complications linked with the virus during pregnancy, as well as risks to the baby after birth.

But the researchers said they did not find that COVID-19 infection during pregnancy impacted the risk of stillbirth or a baby’s growth rate during pregnancy.

The study, which was a meta-analysis of previous research, was published Jan. 16 in the journal BMJ Global Health. Data from 12 studies from 12 countries were combined so researchers could analyze outcomes for 13,136 pregnant women.

Babies born to mothers who were infected with COVID during pregnancy had almost double the risk of needing stays in the neonatal intensive care unit and also were more likely to be born preterm, compared with babies who were born to pregnant women who didn’t get COVID.

The researchers also found that pregnant women who got COVID were more likely to be admitted to intensive care units, need a ventilator to help them survive, develop dangerous blood clots, or develop preeclampsia, which is a high blood pressure disorder that can be fatal for the mother or baby.

One of the strengths of the study was that it included women in different trimesters during pregnancy.

“That’s something new here too is that COVID at any time during pregnancy did bring this extra risk onto mom and babies,” said lead author Emily R. Smith, ScD, MPH, assistant professor of global health at the George Washington University, in a video statement. 

The report is prompting calls for improved efforts to convince pregnant women to get vaccinated for COVID-19. The rate among them remains low: About 1 in 5 pregnant women had received the most updated COVID-19 booster as of Jan. 7, according to the CDC.

“The implications here are that it’s really important that if you’re pregnant or if you’re thinking about becoming pregnant, to get vaccinated,” Dr. Smith said. “This can really reduce the risk of having some of these bad outcomes for mom or for baby.”

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

Women infected with COVID-19 during pregnancy are seven times more likely to die during childbirth or during the pregnancy than uninfected pregnant women, a new study shows. The new report also warns of many other severe complications linked with the virus during pregnancy, as well as risks to the baby after birth.

But the researchers said they did not find that COVID-19 infection during pregnancy impacted the risk of stillbirth or a baby’s growth rate during pregnancy.

The study, which was a meta-analysis of previous research, was published Jan. 16 in the journal BMJ Global Health. Data from 12 studies from 12 countries were combined so researchers could analyze outcomes for 13,136 pregnant women.

Babies born to mothers who were infected with COVID during pregnancy had almost double the risk of needing stays in the neonatal intensive care unit and also were more likely to be born preterm, compared with babies who were born to pregnant women who didn’t get COVID.

The researchers also found that pregnant women who got COVID were more likely to be admitted to intensive care units, need a ventilator to help them survive, develop dangerous blood clots, or develop preeclampsia, which is a high blood pressure disorder that can be fatal for the mother or baby.

One of the strengths of the study was that it included women in different trimesters during pregnancy.

“That’s something new here too is that COVID at any time during pregnancy did bring this extra risk onto mom and babies,” said lead author Emily R. Smith, ScD, MPH, assistant professor of global health at the George Washington University, in a video statement. 

The report is prompting calls for improved efforts to convince pregnant women to get vaccinated for COVID-19. The rate among them remains low: About 1 in 5 pregnant women had received the most updated COVID-19 booster as of Jan. 7, according to the CDC.

“The implications here are that it’s really important that if you’re pregnant or if you’re thinking about becoming pregnant, to get vaccinated,” Dr. Smith said. “This can really reduce the risk of having some of these bad outcomes for mom or for baby.”

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