Covid ICYMI

Cases of menstrual disorders, particularly unusually heavy menstrual bleeding, have been reported following RNA vaccination against COVID-19.

In France, this safety signal has been confirmed and added to the product characteristics summaries and vaccine leaflets for mRNA vaccines in October 2022. However, few studies have accurately measured this risk to date.

To address this gap in research, the French scientific interest group in the epidemiology of health products, ANSM-Cnam EPI-PHARE, conducted a study to assess the risk for heavy menstrual bleeding requiring hospitalization after COVID-19 vaccination in France.

“This study provides new evidence supporting the existence of an increased risk for heavy menstrual bleeding following COVID-19 vaccination with mRNA vaccines,” wrote the authors.
 

Study Details

The study included all women aged 15-50 years who were diagnosed with heavy menstrual bleeding in the hospital between May 12, 2021, and August 31, 2022. Participants were identified in the National Health Data System, and the study population totaled 4610 women.

Each participant was randomly matched with as many as 30 women who had not been hospitalized for abnormal genital bleeding and had similar characteristics in terms of age, department of residence, social deprivation index of the commune of residence, and contraceptive method.

Women who had a recent pregnancy, hysterectomy, or coagulation disorder within the specified time frames were excluded.

At the time of the study, 71% of cases and 70% of controls had received at least one dose of the COVID-19 vaccine. Among vaccinated participants, 68% and 66%, respectively, received a vaccination dose (first or second dose). An mRNA vaccine (Comirnaty or Spikevax) was the last vaccine for 99.8% of the population.
 

Increased Risk 

Compared with control women, those hospitalized for heavy menstrual bleeding were more likely to have received their last dose of mRNA vaccine (Comirnaty or Spikevax) in the previous 1-3 months. This association was observed for vaccination doses (odds ratio [OR], 1.20), indicating a 20% increased risk, but it was not found for booster doses (OR, 1.07).

This association was particularly notable for women residing in socially disadvantaged communities (OR, 1.28) and women not using hormonal contraception (OR, 1.28).

The risk did not appear to be increased beyond 3 months after vaccination. Researchers noted that the increased risk may have occurred earlier, considering the likely interval between initial symptoms and hospitalization.

Assuming a causal relationship, the estimated number of cases attributable to vaccination was 8 cases per million vaccinated women, totaling 103 cases among all women aged 15-50 years who were vaccinated in France between May 12, 2021, and August 31, 2022.

As of the study date and in the 3 years before the study, none of the authors had any conflicts of interest with pharmaceutical companies. 
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

Cases of menstrual disorders, particularly unusually heavy menstrual bleeding, have been reported following RNA vaccination against COVID-19.

In France, this safety signal has been confirmed and added to the product characteristics summaries and vaccine leaflets for mRNA vaccines in October 2022. However, few studies have accurately measured this risk to date.

To address this gap in research, the French scientific interest group in the epidemiology of health products, ANSM-Cnam EPI-PHARE, conducted a study to assess the risk for heavy menstrual bleeding requiring hospitalization after COVID-19 vaccination in France.

“This study provides new evidence supporting the existence of an increased risk for heavy menstrual bleeding following COVID-19 vaccination with mRNA vaccines,” wrote the authors.
 

Study Details

The study included all women aged 15-50 years who were diagnosed with heavy menstrual bleeding in the hospital between May 12, 2021, and August 31, 2022. Participants were identified in the National Health Data System, and the study population totaled 4610 women.

Each participant was randomly matched with as many as 30 women who had not been hospitalized for abnormal genital bleeding and had similar characteristics in terms of age, department of residence, social deprivation index of the commune of residence, and contraceptive method.

Women who had a recent pregnancy, hysterectomy, or coagulation disorder within the specified time frames were excluded.

At the time of the study, 71% of cases and 70% of controls had received at least one dose of the COVID-19 vaccine. Among vaccinated participants, 68% and 66%, respectively, received a vaccination dose (first or second dose). An mRNA vaccine (Comirnaty or Spikevax) was the last vaccine for 99.8% of the population.
 

Increased Risk 

Compared with control women, those hospitalized for heavy menstrual bleeding were more likely to have received their last dose of mRNA vaccine (Comirnaty or Spikevax) in the previous 1-3 months. This association was observed for vaccination doses (odds ratio [OR], 1.20), indicating a 20% increased risk, but it was not found for booster doses (OR, 1.07).

This association was particularly notable for women residing in socially disadvantaged communities (OR, 1.28) and women not using hormonal contraception (OR, 1.28).

The risk did not appear to be increased beyond 3 months after vaccination. Researchers noted that the increased risk may have occurred earlier, considering the likely interval between initial symptoms and hospitalization.

Assuming a causal relationship, the estimated number of cases attributable to vaccination was 8 cases per million vaccinated women, totaling 103 cases among all women aged 15-50 years who were vaccinated in France between May 12, 2021, and August 31, 2022.

As of the study date and in the 3 years before the study, none of the authors had any conflicts of interest with pharmaceutical companies. 
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

Cases of menstrual disorders, particularly unusually heavy menstrual bleeding, have been reported following RNA vaccination against COVID-19.

In France, this safety signal has been confirmed and added to the product characteristics summaries and vaccine leaflets for mRNA vaccines in October 2022. However, few studies have accurately measured this risk to date.

To address this gap in research, the French scientific interest group in the epidemiology of health products, ANSM-Cnam EPI-PHARE, conducted a study to assess the risk for heavy menstrual bleeding requiring hospitalization after COVID-19 vaccination in France.

“This study provides new evidence supporting the existence of an increased risk for heavy menstrual bleeding following COVID-19 vaccination with mRNA vaccines,” wrote the authors.
 

Study Details

The study included all women aged 15-50 years who were diagnosed with heavy menstrual bleeding in the hospital between May 12, 2021, and August 31, 2022. Participants were identified in the National Health Data System, and the study population totaled 4610 women.

Each participant was randomly matched with as many as 30 women who had not been hospitalized for abnormal genital bleeding and had similar characteristics in terms of age, department of residence, social deprivation index of the commune of residence, and contraceptive method.

Women who had a recent pregnancy, hysterectomy, or coagulation disorder within the specified time frames were excluded.

At the time of the study, 71% of cases and 70% of controls had received at least one dose of the COVID-19 vaccine. Among vaccinated participants, 68% and 66%, respectively, received a vaccination dose (first or second dose). An mRNA vaccine (Comirnaty or Spikevax) was the last vaccine for 99.8% of the population.
 

Increased Risk 

Compared with control women, those hospitalized for heavy menstrual bleeding were more likely to have received their last dose of mRNA vaccine (Comirnaty or Spikevax) in the previous 1-3 months. This association was observed for vaccination doses (odds ratio [OR], 1.20), indicating a 20% increased risk, but it was not found for booster doses (OR, 1.07).

This association was particularly notable for women residing in socially disadvantaged communities (OR, 1.28) and women not using hormonal contraception (OR, 1.28).

The risk did not appear to be increased beyond 3 months after vaccination. Researchers noted that the increased risk may have occurred earlier, considering the likely interval between initial symptoms and hospitalization.

Assuming a causal relationship, the estimated number of cases attributable to vaccination was 8 cases per million vaccinated women, totaling 103 cases among all women aged 15-50 years who were vaccinated in France between May 12, 2021, and August 31, 2022.

As of the study date and in the 3 years before the study, none of the authors had any conflicts of interest with pharmaceutical companies. 
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

Children and adolescents ages 5-17 who received a bivalent COVID-19 mRNA vaccine were less likely to become infected with SARS-CoV-2 compared with those who were unvaccinated or received only the monovalent COVID-19 vaccine, according to new data published February 6 in JAMA.

“All eligible children and adolescents should remain up to date with recommended COVID-19 vaccinations,” wrote the authors, led by Leora R. Feldstein, PhD, with the US Centers for Disease Control and Prevention (CDC) in Atlanta.

By the end of 2023, at least 911 youths ages 5-17 had died from COVID-related causes.

Researchers found that compared with participants who did not receive the COVID-19 vaccine or got monovalent-only doses 180 days or more before, the adjusted vaccine effectiveness of a bivalent COVID-19 vaccine dose against SARS-CoV-2 infection was 51.3% (95% confidence interval [CI], 23.6%-71.9%) 7-60 days after vaccination. Relative effectiveness was 62.4% (95% CI, 38.5%-81.1%) 61-150 days after vaccination. The researchers said the confidence intervals were wide because of the small sample size.

The information can help inform public health strategies, the authors noted, especially as new variants emerge.
 

Bivalent Dose Recommended in Fall of 2022

Bivalent mRNA COVID vaccines were recommended in the United States for children and adolescents ages 12 years or older on Sept. 1, 2022, and for children ages 5-11 on Oct. 12, 2022, when Omicron BA.4/5 types were the predominant circulating variant.

The study included 2,959 participants who completed periodic surveys (answering questions on demographics, household details, chronic medical conditions, and COVID-19 symptoms) and submitted weekly self-collected nasal swabs (whether or not they had symptoms). Those in the study submitted additional nasal swabs if they developed any symptoms.

Median adherence to weekly upper respiratory specimen swabbing was high throughout the study period at 93.8%.

Data from Sept. 4, 2022, to Jan. 31, 2023, were combined from three prospective US cohort studies at six sites. In addition to the surveys, researchers used information from state immunization information systems and electronic medical records.
 

Most of the Infected Were Unvaccinated or Had Monovalent Vax

Of the 426 participants (14.4% of the combined cohorts) infected with SARS-CoV-2, 383 (89.9%) were either unvaccinated or received monovalent vaccine doses only.

Calculations were adjusted for age, sex, race, ethnicity, health conditions, prior SARS-CoV-2 infections, geographic location, proportion of circulating variants by site, and local virus prevalence.

Participants living in Oregon, for example, had the highest uptake of bivalent COVID-19 vaccine (56.2%), whereas those in Texas had the lowest (2.4%). Participants reporting Hispanic ethnicity had lower bivalent uptake (17.1%) compared with non-Hispanic participants of all races (27.1%).

Of the 2,207 participants who did not receive a bivalent dose, 24.2% were unvaccinated and 1,672 (75.8%) received at least 1 monovalent dose.

The researchers said they saw no sign of waning effectiveness 61-150 days (the limit for this analysis) after receipt of the bivalent COVID-19 vaccine.

They wrote that continuation of the cohorts will allow study of waning patterns, which could help inform vaccine recommendations.

Among the limitations of the study are that testing methods and the COVID-19 symptoms surveyed varied among the three cohorts, so there may be some differences in defining infection or symptomatic COVID. In addition, the researchers were not able to account for the social vulnerability index and immunocompromised status, which could have affected vaccine uptake and risk of SARS-CoV-2 infection.

This study was supported by the National Center for Immunization and Respiratory Diseases, US Centers for Disease Control and Prevention, and by the National Institute of Allergy and Infectious Diseases. Coauthor Dr. Caban-Martinez reported grants from the Florida Firefighter Cancer Initiative and the Florida Department of Health. Coauthors Dr. Chu, Dr. Englund, Dr. Martin, and Dr. Monto reported receiving personal fees or grants from multiple pharmaceutical companies. Dr. Hegmann reported being the editor of the American College of Occupational and Environmental Medicine practice guidelines. Coauthor Dr. Gaglani reported serving as cochair of the infectious diseases and immunization committee and the respiratory syncytial virus task force lead for the Texas Pediatric Society and the Texas Chapter of the American Academy of Pediatrics. No other disclosures were reported.

Children and adolescents ages 5-17 who received a bivalent COVID-19 mRNA vaccine were less likely to become infected with SARS-CoV-2 compared with those who were unvaccinated or received only the monovalent COVID-19 vaccine, according to new data published February 6 in JAMA.

“All eligible children and adolescents should remain up to date with recommended COVID-19 vaccinations,” wrote the authors, led by Leora R. Feldstein, PhD, with the US Centers for Disease Control and Prevention (CDC) in Atlanta.

By the end of 2023, at least 911 youths ages 5-17 had died from COVID-related causes.

Researchers found that compared with participants who did not receive the COVID-19 vaccine or got monovalent-only doses 180 days or more before, the adjusted vaccine effectiveness of a bivalent COVID-19 vaccine dose against SARS-CoV-2 infection was 51.3% (95% confidence interval [CI], 23.6%-71.9%) 7-60 days after vaccination. Relative effectiveness was 62.4% (95% CI, 38.5%-81.1%) 61-150 days after vaccination. The researchers said the confidence intervals were wide because of the small sample size.

The information can help inform public health strategies, the authors noted, especially as new variants emerge.
 

Bivalent Dose Recommended in Fall of 2022

Bivalent mRNA COVID vaccines were recommended in the United States for children and adolescents ages 12 years or older on Sept. 1, 2022, and for children ages 5-11 on Oct. 12, 2022, when Omicron BA.4/5 types were the predominant circulating variant.

The study included 2,959 participants who completed periodic surveys (answering questions on demographics, household details, chronic medical conditions, and COVID-19 symptoms) and submitted weekly self-collected nasal swabs (whether or not they had symptoms). Those in the study submitted additional nasal swabs if they developed any symptoms.

Median adherence to weekly upper respiratory specimen swabbing was high throughout the study period at 93.8%.

Data from Sept. 4, 2022, to Jan. 31, 2023, were combined from three prospective US cohort studies at six sites. In addition to the surveys, researchers used information from state immunization information systems and electronic medical records.
 

Most of the Infected Were Unvaccinated or Had Monovalent Vax

Of the 426 participants (14.4% of the combined cohorts) infected with SARS-CoV-2, 383 (89.9%) were either unvaccinated or received monovalent vaccine doses only.

Calculations were adjusted for age, sex, race, ethnicity, health conditions, prior SARS-CoV-2 infections, geographic location, proportion of circulating variants by site, and local virus prevalence.

Participants living in Oregon, for example, had the highest uptake of bivalent COVID-19 vaccine (56.2%), whereas those in Texas had the lowest (2.4%). Participants reporting Hispanic ethnicity had lower bivalent uptake (17.1%) compared with non-Hispanic participants of all races (27.1%).

Of the 2,207 participants who did not receive a bivalent dose, 24.2% were unvaccinated and 1,672 (75.8%) received at least 1 monovalent dose.

The researchers said they saw no sign of waning effectiveness 61-150 days (the limit for this analysis) after receipt of the bivalent COVID-19 vaccine.

They wrote that continuation of the cohorts will allow study of waning patterns, which could help inform vaccine recommendations.

Among the limitations of the study are that testing methods and the COVID-19 symptoms surveyed varied among the three cohorts, so there may be some differences in defining infection or symptomatic COVID. In addition, the researchers were not able to account for the social vulnerability index and immunocompromised status, which could have affected vaccine uptake and risk of SARS-CoV-2 infection.

This study was supported by the National Center for Immunization and Respiratory Diseases, US Centers for Disease Control and Prevention, and by the National Institute of Allergy and Infectious Diseases. Coauthor Dr. Caban-Martinez reported grants from the Florida Firefighter Cancer Initiative and the Florida Department of Health. Coauthors Dr. Chu, Dr. Englund, Dr. Martin, and Dr. Monto reported receiving personal fees or grants from multiple pharmaceutical companies. Dr. Hegmann reported being the editor of the American College of Occupational and Environmental Medicine practice guidelines. Coauthor Dr. Gaglani reported serving as cochair of the infectious diseases and immunization committee and the respiratory syncytial virus task force lead for the Texas Pediatric Society and the Texas Chapter of the American Academy of Pediatrics. No other disclosures were reported.

Children and adolescents ages 5-17 who received a bivalent COVID-19 mRNA vaccine were less likely to become infected with SARS-CoV-2 compared with those who were unvaccinated or received only the monovalent COVID-19 vaccine, according to new data published February 6 in JAMA.

“All eligible children and adolescents should remain up to date with recommended COVID-19 vaccinations,” wrote the authors, led by Leora R. Feldstein, PhD, with the US Centers for Disease Control and Prevention (CDC) in Atlanta.

By the end of 2023, at least 911 youths ages 5-17 had died from COVID-related causes.

Researchers found that compared with participants who did not receive the COVID-19 vaccine or got monovalent-only doses 180 days or more before, the adjusted vaccine effectiveness of a bivalent COVID-19 vaccine dose against SARS-CoV-2 infection was 51.3% (95% confidence interval [CI], 23.6%-71.9%) 7-60 days after vaccination. Relative effectiveness was 62.4% (95% CI, 38.5%-81.1%) 61-150 days after vaccination. The researchers said the confidence intervals were wide because of the small sample size.

The information can help inform public health strategies, the authors noted, especially as new variants emerge.
 

Bivalent Dose Recommended in Fall of 2022

Bivalent mRNA COVID vaccines were recommended in the United States for children and adolescents ages 12 years or older on Sept. 1, 2022, and for children ages 5-11 on Oct. 12, 2022, when Omicron BA.4/5 types were the predominant circulating variant.

The study included 2,959 participants who completed periodic surveys (answering questions on demographics, household details, chronic medical conditions, and COVID-19 symptoms) and submitted weekly self-collected nasal swabs (whether or not they had symptoms). Those in the study submitted additional nasal swabs if they developed any symptoms.

Median adherence to weekly upper respiratory specimen swabbing was high throughout the study period at 93.8%.

Data from Sept. 4, 2022, to Jan. 31, 2023, were combined from three prospective US cohort studies at six sites. In addition to the surveys, researchers used information from state immunization information systems and electronic medical records.
 

Most of the Infected Were Unvaccinated or Had Monovalent Vax

Of the 426 participants (14.4% of the combined cohorts) infected with SARS-CoV-2, 383 (89.9%) were either unvaccinated or received monovalent vaccine doses only.

Calculations were adjusted for age, sex, race, ethnicity, health conditions, prior SARS-CoV-2 infections, geographic location, proportion of circulating variants by site, and local virus prevalence.

Participants living in Oregon, for example, had the highest uptake of bivalent COVID-19 vaccine (56.2%), whereas those in Texas had the lowest (2.4%). Participants reporting Hispanic ethnicity had lower bivalent uptake (17.1%) compared with non-Hispanic participants of all races (27.1%).

Of the 2,207 participants who did not receive a bivalent dose, 24.2% were unvaccinated and 1,672 (75.8%) received at least 1 monovalent dose.

The researchers said they saw no sign of waning effectiveness 61-150 days (the limit for this analysis) after receipt of the bivalent COVID-19 vaccine.

They wrote that continuation of the cohorts will allow study of waning patterns, which could help inform vaccine recommendations.

Among the limitations of the study are that testing methods and the COVID-19 symptoms surveyed varied among the three cohorts, so there may be some differences in defining infection or symptomatic COVID. In addition, the researchers were not able to account for the social vulnerability index and immunocompromised status, which could have affected vaccine uptake and risk of SARS-CoV-2 infection.

This study was supported by the National Center for Immunization and Respiratory Diseases, US Centers for Disease Control and Prevention, and by the National Institute of Allergy and Infectious Diseases. Coauthor Dr. Caban-Martinez reported grants from the Florida Firefighter Cancer Initiative and the Florida Department of Health. Coauthors Dr. Chu, Dr. Englund, Dr. Martin, and Dr. Monto reported receiving personal fees or grants from multiple pharmaceutical companies. Dr. Hegmann reported being the editor of the American College of Occupational and Environmental Medicine practice guidelines. Coauthor Dr. Gaglani reported serving as cochair of the infectious diseases and immunization committee and the respiratory syncytial virus task force lead for the Texas Pediatric Society and the Texas Chapter of the American Academy of Pediatrics. No other disclosures were reported.

Amid the current wave of winter respiratory virus cases, influenza (types A and B) leads the way with the highest number of emergency room visits, followed closely by COVID-19, thanks to the JN.1 variant, and respiratory syncytial virus (RSV). With various similarities and differences in disease presentations, how challenging is it for physician’s to distinguish between, diagnose, and treat COVID-19 vs RSV and influenza? 

While these three respiratory viruses often have similar presentations, you may often find that patients with COVID-19 experience more fever, dry cough, and labored breathing, according to Cyrus Munguti, MD, assistant professor of medicine at KU Medical Center and hospitalist at Wesley Medical Center, Wichita, Kansas. 

“COVID-19 patients tend to have trouble breathing because the alveoli are affected and get inflammation and fluid accumulating in the lungs, and they end up having little to no oxygen,” said Dr. Munguti. “When we check their vital signs, patients with COVID tend to have hypoxemia [meaning saturations are less than 88% or 90% depending on the guidelines you follow].”

Patients with RSV and influenza tend to have more upper respiratory symptoms, like runny nose, sternutation — which later can progress to a cough in the upper airways, Dr. Munguti said. Unlike with COVID-19, patients with RSV and influenza — generally until they are very sick — often do not experience hypoxemia.

Inflammation in the airways can form as a result of all three viruses. Furthermore, bacteria that live in these airways could lead to a secondary bacterial infection in the upper respiratory and lower respiratory tracts — which could then cause pneumonia, Dr. Munguti said.

Another note: Changes in COVID-19 variants over the years have made it increasingly difficult to differentiate COVID-19 symptoms from those of RSV and influenza, according to Panagis Galiatsatos, MD, pulmonologist and associate professor at Johns Hopkins Medicine. “The Alpha through Delta variants really were a lot more lung tissue invading,” Dr. Galiatsatos said. “With the COVID-19 Omicron family — its capabilities are similar to what flu and RSV have done over the years. It’s more airway-invading.”

It’s critical to understand that diagnosing these diseases based on symptoms alone can be quite fickle, according to Dr. Galiatsatos. Objective tests, either at home or in a laboratory, are preferred. This is largely because disease presentation can depend on the host factor that the virus enters into, said Dr. Galiatsatos. For example, virus symptoms may look different for a patient with asthma and for someone with heart disease.

With children being among the most vulnerable for severe respiratory illness, testing and treatment are paramount and can be quite accurate in seasons where respiratory viruses thrive, according to Stan Spinner, MD, chief medical officer at Texas Children’s Pediatrics and Urgent Care. “When individuals are tested for either of these conditions when the prevalence in the community is low, we tend to see false positive results.” 

Texas Children’s Pediatrics and Urgent Care’s 12 sites offer COVID-19 and influenza antigen tests that have results ready in around 10 minutes. RSV testing, on the other hand, is limited to around half of the Texas Children’s Pediatrics and none of the urgent care locations, as the test can only be administered through a nasal swab conducted by a physician. As there is no specific treatment or therapy for RSV, the benefits of RSV testing can actually be quite low — often leading to frustrated parents regarding next steps after diagnosis.

“There are a number of respiratory viruses that may present with similar symptoms as RSV, and some of these viruses may even lead to much of the same adverse outcomes as the RSV virus,” Dr. Galiatsatos said. “Consequently, our physicians need to help parents understand this and give them guidance as to when to seek medical attention for worsening symptoms.”

There are two new RSV immunizations to treat certain demographics of patients, Dr. Spinner added. One is an RSV vaccine for infants under 8 months old, though there is limited supply. There is also an RSV vaccine available for pregnant women (between 32 and 36 weeks gestation) that has proved to be effective in fending off RSV infections in newborns up to 6 months old. 

Physicians should remain diligent in stressing to patients that vaccinations against COVID-19 and influenza play a key role in keeping their families safe during seasons of staggering respiratory infections.

“These vaccines are extremely safe, and while they may not always prevent infection, these vaccines are extremely effective in preventing more serious consequences, such as hospitalization or death,” Dr. Galiatsatos said.
 

A version of this article appeared on Medscape.com.

Amid the current wave of winter respiratory virus cases, influenza (types A and B) leads the way with the highest number of emergency room visits, followed closely by COVID-19, thanks to the JN.1 variant, and respiratory syncytial virus (RSV). With various similarities and differences in disease presentations, how challenging is it for physician’s to distinguish between, diagnose, and treat COVID-19 vs RSV and influenza? 

While these three respiratory viruses often have similar presentations, you may often find that patients with COVID-19 experience more fever, dry cough, and labored breathing, according to Cyrus Munguti, MD, assistant professor of medicine at KU Medical Center and hospitalist at Wesley Medical Center, Wichita, Kansas. 

“COVID-19 patients tend to have trouble breathing because the alveoli are affected and get inflammation and fluid accumulating in the lungs, and they end up having little to no oxygen,” said Dr. Munguti. “When we check their vital signs, patients with COVID tend to have hypoxemia [meaning saturations are less than 88% or 90% depending on the guidelines you follow].”

Patients with RSV and influenza tend to have more upper respiratory symptoms, like runny nose, sternutation — which later can progress to a cough in the upper airways, Dr. Munguti said. Unlike with COVID-19, patients with RSV and influenza — generally until they are very sick — often do not experience hypoxemia.

Inflammation in the airways can form as a result of all three viruses. Furthermore, bacteria that live in these airways could lead to a secondary bacterial infection in the upper respiratory and lower respiratory tracts — which could then cause pneumonia, Dr. Munguti said.

Another note: Changes in COVID-19 variants over the years have made it increasingly difficult to differentiate COVID-19 symptoms from those of RSV and influenza, according to Panagis Galiatsatos, MD, pulmonologist and associate professor at Johns Hopkins Medicine. “The Alpha through Delta variants really were a lot more lung tissue invading,” Dr. Galiatsatos said. “With the COVID-19 Omicron family — its capabilities are similar to what flu and RSV have done over the years. It’s more airway-invading.”

It’s critical to understand that diagnosing these diseases based on symptoms alone can be quite fickle, according to Dr. Galiatsatos. Objective tests, either at home or in a laboratory, are preferred. This is largely because disease presentation can depend on the host factor that the virus enters into, said Dr. Galiatsatos. For example, virus symptoms may look different for a patient with asthma and for someone with heart disease.

With children being among the most vulnerable for severe respiratory illness, testing and treatment are paramount and can be quite accurate in seasons where respiratory viruses thrive, according to Stan Spinner, MD, chief medical officer at Texas Children’s Pediatrics and Urgent Care. “When individuals are tested for either of these conditions when the prevalence in the community is low, we tend to see false positive results.” 

Texas Children’s Pediatrics and Urgent Care’s 12 sites offer COVID-19 and influenza antigen tests that have results ready in around 10 minutes. RSV testing, on the other hand, is limited to around half of the Texas Children’s Pediatrics and none of the urgent care locations, as the test can only be administered through a nasal swab conducted by a physician. As there is no specific treatment or therapy for RSV, the benefits of RSV testing can actually be quite low — often leading to frustrated parents regarding next steps after diagnosis.

“There are a number of respiratory viruses that may present with similar symptoms as RSV, and some of these viruses may even lead to much of the same adverse outcomes as the RSV virus,” Dr. Galiatsatos said. “Consequently, our physicians need to help parents understand this and give them guidance as to when to seek medical attention for worsening symptoms.”

There are two new RSV immunizations to treat certain demographics of patients, Dr. Spinner added. One is an RSV vaccine for infants under 8 months old, though there is limited supply. There is also an RSV vaccine available for pregnant women (between 32 and 36 weeks gestation) that has proved to be effective in fending off RSV infections in newborns up to 6 months old. 

Physicians should remain diligent in stressing to patients that vaccinations against COVID-19 and influenza play a key role in keeping their families safe during seasons of staggering respiratory infections.

“These vaccines are extremely safe, and while they may not always prevent infection, these vaccines are extremely effective in preventing more serious consequences, such as hospitalization or death,” Dr. Galiatsatos said.
 

A version of this article appeared on Medscape.com.

Amid the current wave of winter respiratory virus cases, influenza (types A and B) leads the way with the highest number of emergency room visits, followed closely by COVID-19, thanks to the JN.1 variant, and respiratory syncytial virus (RSV). With various similarities and differences in disease presentations, how challenging is it for physician’s to distinguish between, diagnose, and treat COVID-19 vs RSV and influenza? 

While these three respiratory viruses often have similar presentations, you may often find that patients with COVID-19 experience more fever, dry cough, and labored breathing, according to Cyrus Munguti, MD, assistant professor of medicine at KU Medical Center and hospitalist at Wesley Medical Center, Wichita, Kansas. 

“COVID-19 patients tend to have trouble breathing because the alveoli are affected and get inflammation and fluid accumulating in the lungs, and they end up having little to no oxygen,” said Dr. Munguti. “When we check their vital signs, patients with COVID tend to have hypoxemia [meaning saturations are less than 88% or 90% depending on the guidelines you follow].”

Patients with RSV and influenza tend to have more upper respiratory symptoms, like runny nose, sternutation — which later can progress to a cough in the upper airways, Dr. Munguti said. Unlike with COVID-19, patients with RSV and influenza — generally until they are very sick — often do not experience hypoxemia.

Inflammation in the airways can form as a result of all three viruses. Furthermore, bacteria that live in these airways could lead to a secondary bacterial infection in the upper respiratory and lower respiratory tracts — which could then cause pneumonia, Dr. Munguti said.

Another note: Changes in COVID-19 variants over the years have made it increasingly difficult to differentiate COVID-19 symptoms from those of RSV and influenza, according to Panagis Galiatsatos, MD, pulmonologist and associate professor at Johns Hopkins Medicine. “The Alpha through Delta variants really were a lot more lung tissue invading,” Dr. Galiatsatos said. “With the COVID-19 Omicron family — its capabilities are similar to what flu and RSV have done over the years. It’s more airway-invading.”

It’s critical to understand that diagnosing these diseases based on symptoms alone can be quite fickle, according to Dr. Galiatsatos. Objective tests, either at home or in a laboratory, are preferred. This is largely because disease presentation can depend on the host factor that the virus enters into, said Dr. Galiatsatos. For example, virus symptoms may look different for a patient with asthma and for someone with heart disease.

With children being among the most vulnerable for severe respiratory illness, testing and treatment are paramount and can be quite accurate in seasons where respiratory viruses thrive, according to Stan Spinner, MD, chief medical officer at Texas Children’s Pediatrics and Urgent Care. “When individuals are tested for either of these conditions when the prevalence in the community is low, we tend to see false positive results.” 

Texas Children’s Pediatrics and Urgent Care’s 12 sites offer COVID-19 and influenza antigen tests that have results ready in around 10 minutes. RSV testing, on the other hand, is limited to around half of the Texas Children’s Pediatrics and none of the urgent care locations, as the test can only be administered through a nasal swab conducted by a physician. As there is no specific treatment or therapy for RSV, the benefits of RSV testing can actually be quite low — often leading to frustrated parents regarding next steps after diagnosis.

“There are a number of respiratory viruses that may present with similar symptoms as RSV, and some of these viruses may even lead to much of the same adverse outcomes as the RSV virus,” Dr. Galiatsatos said. “Consequently, our physicians need to help parents understand this and give them guidance as to when to seek medical attention for worsening symptoms.”

There are two new RSV immunizations to treat certain demographics of patients, Dr. Spinner added. One is an RSV vaccine for infants under 8 months old, though there is limited supply. There is also an RSV vaccine available for pregnant women (between 32 and 36 weeks gestation) that has proved to be effective in fending off RSV infections in newborns up to 6 months old. 

Physicians should remain diligent in stressing to patients that vaccinations against COVID-19 and influenza play a key role in keeping their families safe during seasons of staggering respiratory infections.

“These vaccines are extremely safe, and while they may not always prevent infection, these vaccines are extremely effective in preventing more serious consequences, such as hospitalization or death,” Dr. Galiatsatos said.
 

A version of this article appeared on Medscape.com.

With a number of large-scale clinical trials underway and researchers on the hunt for new therapies, long COVID scientists are hopeful that this is the year patients — and doctors who care for them — will finally see improvements in treating their symptoms.

Here are five bold predictions — all based on encouraging research — that could happen in 2024. At the very least, they are promising signs of progress against a debilitating and frustrating disease.

#1: We’ll gain a better understanding of each long COVID phenotype

This past year, a wide breadth of research began showing that long COVID can be defined by a number of different disease phenotypes that present a range of symptoms.

Researchers identified four clinical phenotypes: Chronic fatigue-like syndrome, headache, and memory loss; respiratory syndrome, which includes cough and difficulty breathing; chronic pain; and neurosensorial syndrome, which causes an altered sense of taste and smell.

Identifying specific diagnostic criteria for each phenotype would lead to better health outcomes for patients instead of treating them as if it were a “one-size-fits-all disease,” said Nisha Viswanathan, MD, director of the long COVID program at UCLA Health, Los Angeles, California.

Ultimately, she hopes that this year her patients will receive treatments based on the type of long COVID they’re personally experiencing, and the symptoms they have, leading to improved health outcomes and more rapid relief.

“Many new medications are focused on different pathways of long COVID, and the challenge becomes which drug is the right drug for each treatment,” said Dr. Viswanathan.

#2: Monoclonal antibodies may change the game

We’re starting to have a better understanding that what’s been called “viral persistence” as a main cause of long COVID may potentially be treated with monoclonal antibodies. These are antibodies produced by cloning unique white blood cells to target the circulating spike proteins in the blood that hang out in viral reservoirs and cause the immune system to react as if it’s still fighting acute COVID-19.

Smaller-scale studies have already shown promising results. A January 2024 study published in The American Journal of Emergency Medicine followed three patients who completely recovered from long COVID after taking monoclonal antibodies. “Remission occurred despite dissimilar past histories, sex, age, and illness duration,” wrote the study authors.

Larger clinical trials are underway at the University of California, San Francisco, California, to test targeted monoclonal antibodies. If the results of the larger study show that monoclonal antibodies are beneficial, then it could be a game changer for a large swath of patients around the world, said David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City.

“The idea is that the downstream damage caused by viral persistence will resolve itself once you wipe out the virus,” said Dr. Putrino.

#3: Paxlovid could prove effective for long COVID

The US Food and Drug Administration granted approval for Paxlovid last May for the treatment of mild to moderate COVID-19 in adults at a high risk for severe disease. The medication is made up of two drugs packaged together. The first, nirmatrelvir, works by blocking a key enzyme required for virus replication. The second, ritonavir, is an antiviral that’s been used in patients with HIV and helps boost levels of antivirals in the body.

In a large-scale trial headed up by Dr. Putrino and his team, the oral antiviral is being studied for use in the post-viral stage in patients who test negative for acute COVID-19 but have persisting symptoms of long COVID.

Similar to monoclonal antibodies, the idea is to quell viral persistence. If patients have long COVID because they can’t clear SAR-CoV-2 from their bodies, Paxlovid could help. But unlike monoclonal antibodies that quash the virus, Paxlovid stops the virus from replicating. It’s a different mechanism with the same end goal.

It’s been a controversial treatment because it’s life-changing for some patients and ineffective for others. In addition, it can cause a range of side effects such as diarrhea, nausea, vomiting, and an impaired sense of taste. The goal of the trial is to see which patients with long COVID are most likely to benefit from the treatment.

#4: Anti-inflammatories like metformin could prove useful

Many of the inflammatory markers persistent in patients with long COVID were similarly present in patients with autoimmune diseases like rheumatoid arthritis, according to a July 2023 study published in JAMA.

The hope is that anti-inflammatory medications may be used to reduce inflammation causing long COVID symptoms. But drugs used to treat rheumatoid arthritis like abatacept and infliximabcan also have serious side effects, including increased risk for infection, flu-like symptoms, and burning of the skin.

“Powerful anti-inflammatories can change a number of pathways in the immune system,” said Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. Anti-inflammatories hold promise but, Dr. McComsey said, “some are more toxic with many side effects, so even if they work, there’s still a question about who should take them.”

Still, other anti-inflammatories that could work don’t have as many side effects. For example, a study published in The Lancet Infectious Diseases found that the diabetes drug metformin reduced a patient’s risk for long COVID up to 40% when the drug was taken during the acute stage.

Metformin, compared to other anti-inflammatories (also known as immune modulators), is an inexpensive and widely available drug with relatively few side effects compared with other medications.

#5: Serotonin levels — and selective serotonin reuptake inhibitors (SSRIs) — may be keys to unlocking long COVID

One of the most groundbreaking studies of the year came last November. A study published in the journal Cell found lower circulating serotonin levels in patents with long COVID than in those who did not have the condition. The study also found that the SSRI fluoxetine improved cognitive function in rat models infected with the virus.

Researchers found that the reduction in serotonin levels was partially caused by the body’s inability to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactivated blood platelets may also have played a role.

Michael Peluso, MD, an assistant research professor of infectious medicine at the UCSF School of Medicine, San Francisco, California, hopes to take the finding a step further, investigating whether increased serotonin levels in patients with long COVID will lead to improvements in symptoms.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said last month in an interview with this news organization.

If patients show an improvement in symptoms, then the next step is looking into whether SSRIs boost serotonin levels in patients and, as a result, reduce their symptoms.

A version of this article appeared on Medscape.com.

With a number of large-scale clinical trials underway and researchers on the hunt for new therapies, long COVID scientists are hopeful that this is the year patients — and doctors who care for them — will finally see improvements in treating their symptoms.

Here are five bold predictions — all based on encouraging research — that could happen in 2024. At the very least, they are promising signs of progress against a debilitating and frustrating disease.

#1: We’ll gain a better understanding of each long COVID phenotype

This past year, a wide breadth of research began showing that long COVID can be defined by a number of different disease phenotypes that present a range of symptoms.

Researchers identified four clinical phenotypes: Chronic fatigue-like syndrome, headache, and memory loss; respiratory syndrome, which includes cough and difficulty breathing; chronic pain; and neurosensorial syndrome, which causes an altered sense of taste and smell.

Identifying specific diagnostic criteria for each phenotype would lead to better health outcomes for patients instead of treating them as if it were a “one-size-fits-all disease,” said Nisha Viswanathan, MD, director of the long COVID program at UCLA Health, Los Angeles, California.

Ultimately, she hopes that this year her patients will receive treatments based on the type of long COVID they’re personally experiencing, and the symptoms they have, leading to improved health outcomes and more rapid relief.

“Many new medications are focused on different pathways of long COVID, and the challenge becomes which drug is the right drug for each treatment,” said Dr. Viswanathan.

#2: Monoclonal antibodies may change the game

We’re starting to have a better understanding that what’s been called “viral persistence” as a main cause of long COVID may potentially be treated with monoclonal antibodies. These are antibodies produced by cloning unique white blood cells to target the circulating spike proteins in the blood that hang out in viral reservoirs and cause the immune system to react as if it’s still fighting acute COVID-19.

Smaller-scale studies have already shown promising results. A January 2024 study published in The American Journal of Emergency Medicine followed three patients who completely recovered from long COVID after taking monoclonal antibodies. “Remission occurred despite dissimilar past histories, sex, age, and illness duration,” wrote the study authors.

Larger clinical trials are underway at the University of California, San Francisco, California, to test targeted monoclonal antibodies. If the results of the larger study show that monoclonal antibodies are beneficial, then it could be a game changer for a large swath of patients around the world, said David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City.

“The idea is that the downstream damage caused by viral persistence will resolve itself once you wipe out the virus,” said Dr. Putrino.

#3: Paxlovid could prove effective for long COVID

The US Food and Drug Administration granted approval for Paxlovid last May for the treatment of mild to moderate COVID-19 in adults at a high risk for severe disease. The medication is made up of two drugs packaged together. The first, nirmatrelvir, works by blocking a key enzyme required for virus replication. The second, ritonavir, is an antiviral that’s been used in patients with HIV and helps boost levels of antivirals in the body.

In a large-scale trial headed up by Dr. Putrino and his team, the oral antiviral is being studied for use in the post-viral stage in patients who test negative for acute COVID-19 but have persisting symptoms of long COVID.

Similar to monoclonal antibodies, the idea is to quell viral persistence. If patients have long COVID because they can’t clear SAR-CoV-2 from their bodies, Paxlovid could help. But unlike monoclonal antibodies that quash the virus, Paxlovid stops the virus from replicating. It’s a different mechanism with the same end goal.

It’s been a controversial treatment because it’s life-changing for some patients and ineffective for others. In addition, it can cause a range of side effects such as diarrhea, nausea, vomiting, and an impaired sense of taste. The goal of the trial is to see which patients with long COVID are most likely to benefit from the treatment.

#4: Anti-inflammatories like metformin could prove useful

Many of the inflammatory markers persistent in patients with long COVID were similarly present in patients with autoimmune diseases like rheumatoid arthritis, according to a July 2023 study published in JAMA.

The hope is that anti-inflammatory medications may be used to reduce inflammation causing long COVID symptoms. But drugs used to treat rheumatoid arthritis like abatacept and infliximabcan also have serious side effects, including increased risk for infection, flu-like symptoms, and burning of the skin.

“Powerful anti-inflammatories can change a number of pathways in the immune system,” said Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. Anti-inflammatories hold promise but, Dr. McComsey said, “some are more toxic with many side effects, so even if they work, there’s still a question about who should take them.”

Still, other anti-inflammatories that could work don’t have as many side effects. For example, a study published in The Lancet Infectious Diseases found that the diabetes drug metformin reduced a patient’s risk for long COVID up to 40% when the drug was taken during the acute stage.

Metformin, compared to other anti-inflammatories (also known as immune modulators), is an inexpensive and widely available drug with relatively few side effects compared with other medications.

#5: Serotonin levels — and selective serotonin reuptake inhibitors (SSRIs) — may be keys to unlocking long COVID

One of the most groundbreaking studies of the year came last November. A study published in the journal Cell found lower circulating serotonin levels in patents with long COVID than in those who did not have the condition. The study also found that the SSRI fluoxetine improved cognitive function in rat models infected with the virus.

Researchers found that the reduction in serotonin levels was partially caused by the body’s inability to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactivated blood platelets may also have played a role.

Michael Peluso, MD, an assistant research professor of infectious medicine at the UCSF School of Medicine, San Francisco, California, hopes to take the finding a step further, investigating whether increased serotonin levels in patients with long COVID will lead to improvements in symptoms.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said last month in an interview with this news organization.

If patients show an improvement in symptoms, then the next step is looking into whether SSRIs boost serotonin levels in patients and, as a result, reduce their symptoms.

A version of this article appeared on Medscape.com.

With a number of large-scale clinical trials underway and researchers on the hunt for new therapies, long COVID scientists are hopeful that this is the year patients — and doctors who care for them — will finally see improvements in treating their symptoms.

Here are five bold predictions — all based on encouraging research — that could happen in 2024. At the very least, they are promising signs of progress against a debilitating and frustrating disease.

#1: We’ll gain a better understanding of each long COVID phenotype

This past year, a wide breadth of research began showing that long COVID can be defined by a number of different disease phenotypes that present a range of symptoms.

Researchers identified four clinical phenotypes: Chronic fatigue-like syndrome, headache, and memory loss; respiratory syndrome, which includes cough and difficulty breathing; chronic pain; and neurosensorial syndrome, which causes an altered sense of taste and smell.

Identifying specific diagnostic criteria for each phenotype would lead to better health outcomes for patients instead of treating them as if it were a “one-size-fits-all disease,” said Nisha Viswanathan, MD, director of the long COVID program at UCLA Health, Los Angeles, California.

Ultimately, she hopes that this year her patients will receive treatments based on the type of long COVID they’re personally experiencing, and the symptoms they have, leading to improved health outcomes and more rapid relief.

“Many new medications are focused on different pathways of long COVID, and the challenge becomes which drug is the right drug for each treatment,” said Dr. Viswanathan.

#2: Monoclonal antibodies may change the game

We’re starting to have a better understanding that what’s been called “viral persistence” as a main cause of long COVID may potentially be treated with monoclonal antibodies. These are antibodies produced by cloning unique white blood cells to target the circulating spike proteins in the blood that hang out in viral reservoirs and cause the immune system to react as if it’s still fighting acute COVID-19.

Smaller-scale studies have already shown promising results. A January 2024 study published in The American Journal of Emergency Medicine followed three patients who completely recovered from long COVID after taking monoclonal antibodies. “Remission occurred despite dissimilar past histories, sex, age, and illness duration,” wrote the study authors.

Larger clinical trials are underway at the University of California, San Francisco, California, to test targeted monoclonal antibodies. If the results of the larger study show that monoclonal antibodies are beneficial, then it could be a game changer for a large swath of patients around the world, said David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City.

“The idea is that the downstream damage caused by viral persistence will resolve itself once you wipe out the virus,” said Dr. Putrino.

#3: Paxlovid could prove effective for long COVID

The US Food and Drug Administration granted approval for Paxlovid last May for the treatment of mild to moderate COVID-19 in adults at a high risk for severe disease. The medication is made up of two drugs packaged together. The first, nirmatrelvir, works by blocking a key enzyme required for virus replication. The second, ritonavir, is an antiviral that’s been used in patients with HIV and helps boost levels of antivirals in the body.

In a large-scale trial headed up by Dr. Putrino and his team, the oral antiviral is being studied for use in the post-viral stage in patients who test negative for acute COVID-19 but have persisting symptoms of long COVID.

Similar to monoclonal antibodies, the idea is to quell viral persistence. If patients have long COVID because they can’t clear SAR-CoV-2 from their bodies, Paxlovid could help. But unlike monoclonal antibodies that quash the virus, Paxlovid stops the virus from replicating. It’s a different mechanism with the same end goal.

It’s been a controversial treatment because it’s life-changing for some patients and ineffective for others. In addition, it can cause a range of side effects such as diarrhea, nausea, vomiting, and an impaired sense of taste. The goal of the trial is to see which patients with long COVID are most likely to benefit from the treatment.

#4: Anti-inflammatories like metformin could prove useful

Many of the inflammatory markers persistent in patients with long COVID were similarly present in patients with autoimmune diseases like rheumatoid arthritis, according to a July 2023 study published in JAMA.

The hope is that anti-inflammatory medications may be used to reduce inflammation causing long COVID symptoms. But drugs used to treat rheumatoid arthritis like abatacept and infliximabcan also have serious side effects, including increased risk for infection, flu-like symptoms, and burning of the skin.

“Powerful anti-inflammatories can change a number of pathways in the immune system,” said Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. Anti-inflammatories hold promise but, Dr. McComsey said, “some are more toxic with many side effects, so even if they work, there’s still a question about who should take them.”

Still, other anti-inflammatories that could work don’t have as many side effects. For example, a study published in The Lancet Infectious Diseases found that the diabetes drug metformin reduced a patient’s risk for long COVID up to 40% when the drug was taken during the acute stage.

Metformin, compared to other anti-inflammatories (also known as immune modulators), is an inexpensive and widely available drug with relatively few side effects compared with other medications.

#5: Serotonin levels — and selective serotonin reuptake inhibitors (SSRIs) — may be keys to unlocking long COVID

One of the most groundbreaking studies of the year came last November. A study published in the journal Cell found lower circulating serotonin levels in patents with long COVID than in those who did not have the condition. The study also found that the SSRI fluoxetine improved cognitive function in rat models infected with the virus.

Researchers found that the reduction in serotonin levels was partially caused by the body’s inability to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactivated blood platelets may also have played a role.

Michael Peluso, MD, an assistant research professor of infectious medicine at the UCSF School of Medicine, San Francisco, California, hopes to take the finding a step further, investigating whether increased serotonin levels in patients with long COVID will lead to improvements in symptoms.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said last month in an interview with this news organization.

If patients show an improvement in symptoms, then the next step is looking into whether SSRIs boost serotonin levels in patients and, as a result, reduce their symptoms.

A version of this article appeared on Medscape.com.

Annette Gillaspie, a nurse in a small Oregon hospital, hoped she would be back working with patients by now. She contracted COVID-19 on the job early in the pandemic and ended up with long COVID.

After recovering a bit, her fatigue and dizziness returned, and today she is still working a desk job. She has also experienced more severe menstrual periods than before she had COVID.

“Being a female with long COVID definitely does add to the roller-coaster effect of symptoms,” Ms. Gillaspie said.

Long COVID affects nearly twice as many women as men, with 6.6% of women reporting long COVID compared with 4% of men, according to a recent Census Bureau survey reported by the Centers for Disease Control and Prevention (CDC). Researchers are trying to determine why, what causes the gender disparity, and how best to treat it.

Scientists are also starting to look at the impact of long COVID on female reproductive health, including menstruation, pregnancy, and menopause.

Sex differences are common in infection-associated illnesses, said Beth Pollack, MS, a research scientist specializing in long COVID in the Massachusetts Institute of Technology’s Department of Biological Engineering, Cambridge, Massachusetts. “It informs research priorities and the lens with which we understand long COVID.”

For example, reproductive health issues for women, such as puberty, pregnancy, and menopause, can alter the course of illness in a subset of women in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS), a condition that can cause dizziness and worse.

“This suggests that sex hormones may play key roles in immune responses to infections,” Ms. Pollack said.

ME/CFS and a Possible Link to Long COVID in Women

Some of the research into long COVID is being led by teams studying infection-associated chronic illnesses like ME/CFS.

The problem: Advocates say ME/CFS has been under-researched. Poorly understood for years, the condition is one of a handful of chronic illnesses linked to infections, including Lyme disease and now long COVID. Perhaps not coincidently, they are more likely to affect women.

Many of the research findings about long COVID mirror data that emerged in past ME/CFS research, said Jaime Seltzer, the scientific director at #MEAction, Santa Monica, California, an advocacy group. One point in particular: ME/CFS strikes women about twice as much as men, according to the CDC.

Ms. Seltzer said the response to long COVID could be much further ahead if the research community acknowledged the work done over the years on ME/CFS. Many of the potential biomarkers and risk factors emerging for long COVID were also suspected in ME/CFS, but not thoroughly studied, she said.

She also said not enough work has been done to unravel the links between gender and these chronic conditions.

“We’re stuck in this Groundhog Day situation,” she said. “There isn’t any research, so we can’t say anything definitively.”

Some New Research, Some New Clues

Scientists like Ms. Pollack are slowly making inroads. She was lead author on a 2023 review investigating the impact of long COVID on female reproductive health. The paper highlights long COVID links to ME/CFS, POTS, and Ehlers-Danlos syndrome (EDS), as well as a resulting laundry list of female reproductive health issues. The hope is physicians will examine how the menstrual cycle, pregnancy, and menopause affect symptoms and illness progression of long COVID.

The Tal Research group at MIT (where Ms. Pollack works) has also added long COVID to the list of infection-associated illnesses it studies. The lab is conducting a large study looking into both Lyme disease and long COVID. The goals are to identify biomarkers that can predict who will not recover and to advance available treatments.

Another MIT program, “SEXX + Immunity” holds seminars and networking sessions for scientists looking into the role of female and male biology in immune responses to infection.

Barriers to Progress Remain

On the clinical side, female patients with long COVID also have to deal with a historical bias that still lurks in medicine when it comes to women’s health, said Alba Azola, MD, an assistant professor of physical medicine at Johns Hopkins Medicine, Baltimore, Maryland.

Dr. Azola said she has discovered clinical descriptions of ME/CFE in the literature archives that describe it as “neurasthenia” and dismiss it as psychological.

Patients say that it is still happening, and while it may not be so blunt, “you can read between the lines,” Dr. Azola said.

Dr. Azola, who has worked with long COVID patients and is now seeing people with ME/CFS, said the symptoms of infection-associated chronic illness can mimic menopause, and many of her patients received that misdiagnosis. She recommends that doctors rule out long COVID for women with multiple symptoms before attributing symptoms to menopause.

Seeing that some long COVID patients were developing ME/CFS, staff at the Bateman Horne Center in Salt Lake City, Utah, set up a program for the condition in 2021. They were already treating patients with ME/CFS and what they call “multi-symptom chronic complex diseases.”

Jennifer Bell, a certified nurse practitioner at the center, said she has not seen any patients with ovarian failure but plenty with reproductive health issues.

“There definitely is a hormonal connection, but I don’t think there’s a good understanding about what is happening,” she said.

Most of her patients are female, and the more serious patients tend to go through a worsening of their symptoms in the week prior to getting a period, she said.

One thing Ms. Bell said she’s noticed in the past year is an increase in patients with EDS, which is also more common in women.

Like long COVID, many of the conditions traditionally treated at the center have no cure. But Ms. Bell said the center has developed an expertise in treating post-exertional malaise, a common symptom of long COVID, and keeps up with the literature for treatments to try, like the combination of guanfacine and the antioxidant N-acetyl cysteine to treat brain fog, an approach developed at Yale.

“It’s a very challenging illness to treat,” Ms. Bell said.

Since the emergence of long COVID, researchers have warned that symptoms vary so much from person to person that treatment will need to be targeted.

Ms. Pollack of MIT agrees and sees a big role for personalized medicine.

We need to “identify phenotypes within and across these overlapping and co-occurring illnesses so that we can identify the right therapeutics for each person,” she said.

As for Annette Gillaspie, she still hopes her long COVID will subside so she can get out from behind the desk and return to her normal nursing duties.

“I just got to a point where I realized I’m likely never going to be able to do my job,” she said. “It was incredibly heart breaking, but it’s the reality of long COVID, and I know I’m not the only one to have to step away from a job I loved.”

A version of this article appeared on Medscape.com.

Annette Gillaspie, a nurse in a small Oregon hospital, hoped she would be back working with patients by now. She contracted COVID-19 on the job early in the pandemic and ended up with long COVID.

After recovering a bit, her fatigue and dizziness returned, and today she is still working a desk job. She has also experienced more severe menstrual periods than before she had COVID.

“Being a female with long COVID definitely does add to the roller-coaster effect of symptoms,” Ms. Gillaspie said.

Long COVID affects nearly twice as many women as men, with 6.6% of women reporting long COVID compared with 4% of men, according to a recent Census Bureau survey reported by the Centers for Disease Control and Prevention (CDC). Researchers are trying to determine why, what causes the gender disparity, and how best to treat it.

Scientists are also starting to look at the impact of long COVID on female reproductive health, including menstruation, pregnancy, and menopause.

Sex differences are common in infection-associated illnesses, said Beth Pollack, MS, a research scientist specializing in long COVID in the Massachusetts Institute of Technology’s Department of Biological Engineering, Cambridge, Massachusetts. “It informs research priorities and the lens with which we understand long COVID.”

For example, reproductive health issues for women, such as puberty, pregnancy, and menopause, can alter the course of illness in a subset of women in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS), a condition that can cause dizziness and worse.

“This suggests that sex hormones may play key roles in immune responses to infections,” Ms. Pollack said.

ME/CFS and a Possible Link to Long COVID in Women

Some of the research into long COVID is being led by teams studying infection-associated chronic illnesses like ME/CFS.

The problem: Advocates say ME/CFS has been under-researched. Poorly understood for years, the condition is one of a handful of chronic illnesses linked to infections, including Lyme disease and now long COVID. Perhaps not coincidently, they are more likely to affect women.

Many of the research findings about long COVID mirror data that emerged in past ME/CFS research, said Jaime Seltzer, the scientific director at #MEAction, Santa Monica, California, an advocacy group. One point in particular: ME/CFS strikes women about twice as much as men, according to the CDC.

Ms. Seltzer said the response to long COVID could be much further ahead if the research community acknowledged the work done over the years on ME/CFS. Many of the potential biomarkers and risk factors emerging for long COVID were also suspected in ME/CFS, but not thoroughly studied, she said.

She also said not enough work has been done to unravel the links between gender and these chronic conditions.

“We’re stuck in this Groundhog Day situation,” she said. “There isn’t any research, so we can’t say anything definitively.”

Some New Research, Some New Clues

Scientists like Ms. Pollack are slowly making inroads. She was lead author on a 2023 review investigating the impact of long COVID on female reproductive health. The paper highlights long COVID links to ME/CFS, POTS, and Ehlers-Danlos syndrome (EDS), as well as a resulting laundry list of female reproductive health issues. The hope is physicians will examine how the menstrual cycle, pregnancy, and menopause affect symptoms and illness progression of long COVID.

The Tal Research group at MIT (where Ms. Pollack works) has also added long COVID to the list of infection-associated illnesses it studies. The lab is conducting a large study looking into both Lyme disease and long COVID. The goals are to identify biomarkers that can predict who will not recover and to advance available treatments.

Another MIT program, “SEXX + Immunity” holds seminars and networking sessions for scientists looking into the role of female and male biology in immune responses to infection.

Barriers to Progress Remain

On the clinical side, female patients with long COVID also have to deal with a historical bias that still lurks in medicine when it comes to women’s health, said Alba Azola, MD, an assistant professor of physical medicine at Johns Hopkins Medicine, Baltimore, Maryland.

Dr. Azola said she has discovered clinical descriptions of ME/CFE in the literature archives that describe it as “neurasthenia” and dismiss it as psychological.

Patients say that it is still happening, and while it may not be so blunt, “you can read between the lines,” Dr. Azola said.

Dr. Azola, who has worked with long COVID patients and is now seeing people with ME/CFS, said the symptoms of infection-associated chronic illness can mimic menopause, and many of her patients received that misdiagnosis. She recommends that doctors rule out long COVID for women with multiple symptoms before attributing symptoms to menopause.

Seeing that some long COVID patients were developing ME/CFS, staff at the Bateman Horne Center in Salt Lake City, Utah, set up a program for the condition in 2021. They were already treating patients with ME/CFS and what they call “multi-symptom chronic complex diseases.”

Jennifer Bell, a certified nurse practitioner at the center, said she has not seen any patients with ovarian failure but plenty with reproductive health issues.

“There definitely is a hormonal connection, but I don’t think there’s a good understanding about what is happening,” she said.

Most of her patients are female, and the more serious patients tend to go through a worsening of their symptoms in the week prior to getting a period, she said.

One thing Ms. Bell said she’s noticed in the past year is an increase in patients with EDS, which is also more common in women.

Like long COVID, many of the conditions traditionally treated at the center have no cure. But Ms. Bell said the center has developed an expertise in treating post-exertional malaise, a common symptom of long COVID, and keeps up with the literature for treatments to try, like the combination of guanfacine and the antioxidant N-acetyl cysteine to treat brain fog, an approach developed at Yale.

“It’s a very challenging illness to treat,” Ms. Bell said.

Since the emergence of long COVID, researchers have warned that symptoms vary so much from person to person that treatment will need to be targeted.

Ms. Pollack of MIT agrees and sees a big role for personalized medicine.

We need to “identify phenotypes within and across these overlapping and co-occurring illnesses so that we can identify the right therapeutics for each person,” she said.

As for Annette Gillaspie, she still hopes her long COVID will subside so she can get out from behind the desk and return to her normal nursing duties.

“I just got to a point where I realized I’m likely never going to be able to do my job,” she said. “It was incredibly heart breaking, but it’s the reality of long COVID, and I know I’m not the only one to have to step away from a job I loved.”

A version of this article appeared on Medscape.com.

Annette Gillaspie, a nurse in a small Oregon hospital, hoped she would be back working with patients by now. She contracted COVID-19 on the job early in the pandemic and ended up with long COVID.

After recovering a bit, her fatigue and dizziness returned, and today she is still working a desk job. She has also experienced more severe menstrual periods than before she had COVID.

“Being a female with long COVID definitely does add to the roller-coaster effect of symptoms,” Ms. Gillaspie said.

Long COVID affects nearly twice as many women as men, with 6.6% of women reporting long COVID compared with 4% of men, according to a recent Census Bureau survey reported by the Centers for Disease Control and Prevention (CDC). Researchers are trying to determine why, what causes the gender disparity, and how best to treat it.

Scientists are also starting to look at the impact of long COVID on female reproductive health, including menstruation, pregnancy, and menopause.

Sex differences are common in infection-associated illnesses, said Beth Pollack, MS, a research scientist specializing in long COVID in the Massachusetts Institute of Technology’s Department of Biological Engineering, Cambridge, Massachusetts. “It informs research priorities and the lens with which we understand long COVID.”

For example, reproductive health issues for women, such as puberty, pregnancy, and menopause, can alter the course of illness in a subset of women in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS), a condition that can cause dizziness and worse.

“This suggests that sex hormones may play key roles in immune responses to infections,” Ms. Pollack said.

ME/CFS and a Possible Link to Long COVID in Women

Some of the research into long COVID is being led by teams studying infection-associated chronic illnesses like ME/CFS.

The problem: Advocates say ME/CFS has been under-researched. Poorly understood for years, the condition is one of a handful of chronic illnesses linked to infections, including Lyme disease and now long COVID. Perhaps not coincidently, they are more likely to affect women.

Many of the research findings about long COVID mirror data that emerged in past ME/CFS research, said Jaime Seltzer, the scientific director at #MEAction, Santa Monica, California, an advocacy group. One point in particular: ME/CFS strikes women about twice as much as men, according to the CDC.

Ms. Seltzer said the response to long COVID could be much further ahead if the research community acknowledged the work done over the years on ME/CFS. Many of the potential biomarkers and risk factors emerging for long COVID were also suspected in ME/CFS, but not thoroughly studied, she said.

She also said not enough work has been done to unravel the links between gender and these chronic conditions.

“We’re stuck in this Groundhog Day situation,” she said. “There isn’t any research, so we can’t say anything definitively.”

Some New Research, Some New Clues

Scientists like Ms. Pollack are slowly making inroads. She was lead author on a 2023 review investigating the impact of long COVID on female reproductive health. The paper highlights long COVID links to ME/CFS, POTS, and Ehlers-Danlos syndrome (EDS), as well as a resulting laundry list of female reproductive health issues. The hope is physicians will examine how the menstrual cycle, pregnancy, and menopause affect symptoms and illness progression of long COVID.

The Tal Research group at MIT (where Ms. Pollack works) has also added long COVID to the list of infection-associated illnesses it studies. The lab is conducting a large study looking into both Lyme disease and long COVID. The goals are to identify biomarkers that can predict who will not recover and to advance available treatments.

Another MIT program, “SEXX + Immunity” holds seminars and networking sessions for scientists looking into the role of female and male biology in immune responses to infection.

Barriers to Progress Remain

On the clinical side, female patients with long COVID also have to deal with a historical bias that still lurks in medicine when it comes to women’s health, said Alba Azola, MD, an assistant professor of physical medicine at Johns Hopkins Medicine, Baltimore, Maryland.

Dr. Azola said she has discovered clinical descriptions of ME/CFE in the literature archives that describe it as “neurasthenia” and dismiss it as psychological.

Patients say that it is still happening, and while it may not be so blunt, “you can read between the lines,” Dr. Azola said.

Dr. Azola, who has worked with long COVID patients and is now seeing people with ME/CFS, said the symptoms of infection-associated chronic illness can mimic menopause, and many of her patients received that misdiagnosis. She recommends that doctors rule out long COVID for women with multiple symptoms before attributing symptoms to menopause.

Seeing that some long COVID patients were developing ME/CFS, staff at the Bateman Horne Center in Salt Lake City, Utah, set up a program for the condition in 2021. They were already treating patients with ME/CFS and what they call “multi-symptom chronic complex diseases.”

Jennifer Bell, a certified nurse practitioner at the center, said she has not seen any patients with ovarian failure but plenty with reproductive health issues.

“There definitely is a hormonal connection, but I don’t think there’s a good understanding about what is happening,” she said.

Most of her patients are female, and the more serious patients tend to go through a worsening of their symptoms in the week prior to getting a period, she said.

One thing Ms. Bell said she’s noticed in the past year is an increase in patients with EDS, which is also more common in women.

Like long COVID, many of the conditions traditionally treated at the center have no cure. But Ms. Bell said the center has developed an expertise in treating post-exertional malaise, a common symptom of long COVID, and keeps up with the literature for treatments to try, like the combination of guanfacine and the antioxidant N-acetyl cysteine to treat brain fog, an approach developed at Yale.

“It’s a very challenging illness to treat,” Ms. Bell said.

Since the emergence of long COVID, researchers have warned that symptoms vary so much from person to person that treatment will need to be targeted.

Ms. Pollack of MIT agrees and sees a big role for personalized medicine.

We need to “identify phenotypes within and across these overlapping and co-occurring illnesses so that we can identify the right therapeutics for each person,” she said.

As for Annette Gillaspie, she still hopes her long COVID will subside so she can get out from behind the desk and return to her normal nursing duties.

“I just got to a point where I realized I’m likely never going to be able to do my job,” she said. “It was incredibly heart breaking, but it’s the reality of long COVID, and I know I’m not the only one to have to step away from a job I loved.”

A version of this article appeared on Medscape.com.

You may have never heard of it, but you may have had it. More evidence points to “long flu” being a real phenomenon, with a large study showing symptoms persist at least 4 weeks or more after some people are hospitalized for the flu.

Researchers compared long flu to long COVID-19 and found long flu happened less often and was less severe overall. This difference could be because the flu mostly affects the lungs whereas COVID can affect any number of organ systems in the body.

The investigators were surprised that both long flu and long COVID were linked to a greater burden of health loss, compared to either initial infection.

“I think COVID and long COVID made us realize that infections have long-term consequences, and often the toll of those long-term consequences is much larger than the toll of acute disease,” said Ziyad Al-Aly, MD, senior author of the study and chief of research and development at the VA St. Louis Health Care System.

“I know, having studied long COVID for the past 4 years, I should not be surprised. But I am in awe of what these infections can do to the long-term health of affected individuals,” said Dr. Al-Aly, who is also a clinical epidemiologist at Washington University in St. Louis.

Dr. Al-Aly and colleagues Yan Xie, PhD, and Taeyoung Choi, MS, analyzed US Department of Veterans Affairs medical records. They compared 81,280 people hospitalized with COVID to 10,985 people hospitalized with the flu before the COVID pandemic. They checked up to 18 months after initial infections to see who developed long flu or long COVID symptoms.

The study was published online in The Lancet Infectious Diseases.

It’s an interesting study, said Aaron E. Glatt, MD, chairman of the Department of Medicine and a hospital epidemiologist at Mount Sinai South Nassau in Oceanside, NY, who was not part of the research.

“There is a concern with many viruses that you can have long-term consequences,” said Dr. Glatt, who is also a fellow of the Infectious Diseases Society of America. He said the possibility of long-term symptoms with the flu is not new, “but it’s nice to have more data.”

People hospitalized with COVID had a 50% higher risk of death during the study period than people hospitalized with the flu. Put another way, for every 100 people admitted to the hospital with COVID, about eight more died than those hospitalized with the flu over the following 18 months. Hospital admissions and admissions to the intensive care unit were also higher in the long COVID group — 20 more people and nine more people, respectively, for every 100 people admitted to the hospital with COVID.

More research is needed, Dr. Glatt said. “With many of these viruses, we don’t understand what they do to the body.” A prospective study to see if antiviral treatments make a difference, for example, would be useful, he noted.

Dr. Al-Aly and colleagues would like to do more studies.

“We need to more deeply understand how and why acute infections cause long-term illness,” he said, noting that he also wants to investigate ways to prevent and treat the long-term effects.

“Much remains to be done, and we are deeply committed to doing our best to develop those answers.”

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

You may have never heard of it, but you may have had it. More evidence points to “long flu” being a real phenomenon, with a large study showing symptoms persist at least 4 weeks or more after some people are hospitalized for the flu.

Researchers compared long flu to long COVID-19 and found long flu happened less often and was less severe overall. This difference could be because the flu mostly affects the lungs whereas COVID can affect any number of organ systems in the body.

The investigators were surprised that both long flu and long COVID were linked to a greater burden of health loss, compared to either initial infection.

“I think COVID and long COVID made us realize that infections have long-term consequences, and often the toll of those long-term consequences is much larger than the toll of acute disease,” said Ziyad Al-Aly, MD, senior author of the study and chief of research and development at the VA St. Louis Health Care System.

“I know, having studied long COVID for the past 4 years, I should not be surprised. But I am in awe of what these infections can do to the long-term health of affected individuals,” said Dr. Al-Aly, who is also a clinical epidemiologist at Washington University in St. Louis.

Dr. Al-Aly and colleagues Yan Xie, PhD, and Taeyoung Choi, MS, analyzed US Department of Veterans Affairs medical records. They compared 81,280 people hospitalized with COVID to 10,985 people hospitalized with the flu before the COVID pandemic. They checked up to 18 months after initial infections to see who developed long flu or long COVID symptoms.

The study was published online in The Lancet Infectious Diseases.

It’s an interesting study, said Aaron E. Glatt, MD, chairman of the Department of Medicine and a hospital epidemiologist at Mount Sinai South Nassau in Oceanside, NY, who was not part of the research.

“There is a concern with many viruses that you can have long-term consequences,” said Dr. Glatt, who is also a fellow of the Infectious Diseases Society of America. He said the possibility of long-term symptoms with the flu is not new, “but it’s nice to have more data.”

People hospitalized with COVID had a 50% higher risk of death during the study period than people hospitalized with the flu. Put another way, for every 100 people admitted to the hospital with COVID, about eight more died than those hospitalized with the flu over the following 18 months. Hospital admissions and admissions to the intensive care unit were also higher in the long COVID group — 20 more people and nine more people, respectively, for every 100 people admitted to the hospital with COVID.

More research is needed, Dr. Glatt said. “With many of these viruses, we don’t understand what they do to the body.” A prospective study to see if antiviral treatments make a difference, for example, would be useful, he noted.

Dr. Al-Aly and colleagues would like to do more studies.

“We need to more deeply understand how and why acute infections cause long-term illness,” he said, noting that he also wants to investigate ways to prevent and treat the long-term effects.

“Much remains to be done, and we are deeply committed to doing our best to develop those answers.”

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

You may have never heard of it, but you may have had it. More evidence points to “long flu” being a real phenomenon, with a large study showing symptoms persist at least 4 weeks or more after some people are hospitalized for the flu.

Researchers compared long flu to long COVID-19 and found long flu happened less often and was less severe overall. This difference could be because the flu mostly affects the lungs whereas COVID can affect any number of organ systems in the body.

The investigators were surprised that both long flu and long COVID were linked to a greater burden of health loss, compared to either initial infection.

“I think COVID and long COVID made us realize that infections have long-term consequences, and often the toll of those long-term consequences is much larger than the toll of acute disease,” said Ziyad Al-Aly, MD, senior author of the study and chief of research and development at the VA St. Louis Health Care System.

“I know, having studied long COVID for the past 4 years, I should not be surprised. But I am in awe of what these infections can do to the long-term health of affected individuals,” said Dr. Al-Aly, who is also a clinical epidemiologist at Washington University in St. Louis.

Dr. Al-Aly and colleagues Yan Xie, PhD, and Taeyoung Choi, MS, analyzed US Department of Veterans Affairs medical records. They compared 81,280 people hospitalized with COVID to 10,985 people hospitalized with the flu before the COVID pandemic. They checked up to 18 months after initial infections to see who developed long flu or long COVID symptoms.

The study was published online in The Lancet Infectious Diseases.

It’s an interesting study, said Aaron E. Glatt, MD, chairman of the Department of Medicine and a hospital epidemiologist at Mount Sinai South Nassau in Oceanside, NY, who was not part of the research.

“There is a concern with many viruses that you can have long-term consequences,” said Dr. Glatt, who is also a fellow of the Infectious Diseases Society of America. He said the possibility of long-term symptoms with the flu is not new, “but it’s nice to have more data.”

People hospitalized with COVID had a 50% higher risk of death during the study period than people hospitalized with the flu. Put another way, for every 100 people admitted to the hospital with COVID, about eight more died than those hospitalized with the flu over the following 18 months. Hospital admissions and admissions to the intensive care unit were also higher in the long COVID group — 20 more people and nine more people, respectively, for every 100 people admitted to the hospital with COVID.

More research is needed, Dr. Glatt said. “With many of these viruses, we don’t understand what they do to the body.” A prospective study to see if antiviral treatments make a difference, for example, would be useful, he noted.

Dr. Al-Aly and colleagues would like to do more studies.

“We need to more deeply understand how and why acute infections cause long-term illness,” he said, noting that he also wants to investigate ways to prevent and treat the long-term effects.

“Much remains to be done, and we are deeply committed to doing our best to develop those answers.”

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

While COVID has now claimed more than 1 million lives in the United States alone, these aren’t the only fatalities caused at least in part by the virus. A small but growing number of Americans are surviving acute infections only to succumb months later to the lingering health problems caused by long COVID.

Much of the attention on long COVID has centered on the sometimes debilitating symptoms that strike people with the condition, with no formal diagnostic tests or standard treatments available, and the effect it has on quality of life. But new figures from the US Centers for Disease Control and Prevention (CDC) show that long COVID can also be deadly.

More than 5000 Americans have died from long COVID since the start of the pandemic, according to new estimates from the CDC.

This total, based on death certificate data collected by the CDC, includes a preliminary tally of 1491 long COVID deaths in 2023 in addition to 3544 fatalities previously reported from January 2020 through June 2022.

Guidance issued in 2023 on how to formally report long COVID as a cause of death on death certificates should help get a more accurate count of these fatalities going forward, said Robert Anderson, PhD, chief mortality statistician for the CDC, Atlanta, Georgia.

“We hope that the guidance will help cause of death certifiers be more aware of the impact of long COVID and more likely to report long COVID as a cause of death when appropriate,” Dr. Anderson said. “That said, we do not expect that this guidance will have a dramatic impact on the trend.”

There’s no standard definition or diagnostic test for long COVID. It’s typically diagnosed when people have symptoms at least 3 months after an acute infection that weren’t present before they got sick. As of the end of last year, about 7% of American adults had experienced long COVID at some point, the CDC estimated in September 2023.

The new death tally indicates long COVID remains a significant public health threat and is likely to grow in the years ahead, even though the pandemic may no longer be considered a global health crisis, experts said.

For example, the death certificate figures indicate:

COVID-19 was the third leading cause of American deaths in 2020 and 2021, and the fourth leading cause of death in the United States in 2023.

Nearly 1% of the more than one million deaths related to COVID-19 since the start of the pandemic have been attributed to long COVID, according to data released by the CDC.

The proportion of COVID-related deaths from long COVID peaked in June 2021 at 1.2% and again in April 2022 at 3.8%, according to the CDC. Both of these peaks coincided with periods of declining fatalities from acute infections.

“I do expect that deaths associated with long COVID will make up an increasingly larger proportion of total deaths associated with COVID-19,” said Mark Czeisler, PhD, a researcher at Harvard Medical School, Boston, Massachusetts, who has studied long COVID fatalities. 

Months and even years after an acute infection, long COVID can contribute to serious and potentially life-threatening conditions that impact nearly every major system in the body, according to the CDC guidelines for identifying the condition on death certificates. 

This means long COVID may often be listed as an underlying cause of death when people with this condition die of issues related to their heart, lungs, brain or kidneys, the CDC guidelines noted.

The risk for long COVID fatalities remains elevated for at least 6 months for people with milder acute infections and for at least 2 years in severe cases that require hospitalization, some previous research suggested.

As happens with other acute infections, certain people are more at risk for fatal case of long COVID. Age, race, and ethnicity have all been cited as risk factors by researchers who have been tracking the condition since the start of the pandemic.

Half of long COVID fatalities from July 2021 to June 2022 occurred in people aged 65 years and older, and another 23% were recorded among people aged 50-64 years old, according a report from CDC.

Long COVID death rates also varied by race and ethnicity, from a high of 14.1 cases per million among America Indian and Alaskan natives to a low of 1.5 cases per million among Asian people, the CDC found. Death rates per million were 6.7 for White individuals, 6.4 for Black people, and 4.7 for Hispanic people.

The disproportionate share of Black and Hispanic people who developed and died from severe acute infections may have left fewer survivors to develop long COVID, limiting long COVID fatalities among these groups, the CDC report concluded.

It’s also possible that long COVID fatalities were undercounted in these populations because they faced challenges accessing healthcare or seeing providers who could recognize the hallmark symptoms of long COVID.

It’s also difficult to distinguish between how many deaths related to the virus ultimately occur as a result of long COVID rather than acute infections. That’s because it may depend on a variety of factors, including how consistently medical examiners follow the CDC guidelines, said Ziyad Al-Aly, MD, chief of research at the Veterans Affairs, St. Louis Health Care System and a senior clinical epidemiologist at Washington University in St. Louis.

“Long COVID remains massively underdiagnosed, and death in people with long COVID is misattributed to other things,” Dr. Al-Aly said.

An accurate test for long COVID could help lead to a more accurate count of these fatalities, Dr. Czeisler said. Some preliminary research suggests that it might one day be possible to diagnose long COVID with a blood test.

“The timeline for such a test and the extent to which it would be widely applied is uncertain,” Dr. Czeisler noted, “though that would certainly be a gamechanger.”

A version of this article appeared on Medscape.com.

While COVID has now claimed more than 1 million lives in the United States alone, these aren’t the only fatalities caused at least in part by the virus. A small but growing number of Americans are surviving acute infections only to succumb months later to the lingering health problems caused by long COVID.

Much of the attention on long COVID has centered on the sometimes debilitating symptoms that strike people with the condition, with no formal diagnostic tests or standard treatments available, and the effect it has on quality of life. But new figures from the US Centers for Disease Control and Prevention (CDC) show that long COVID can also be deadly.

More than 5000 Americans have died from long COVID since the start of the pandemic, according to new estimates from the CDC.

This total, based on death certificate data collected by the CDC, includes a preliminary tally of 1491 long COVID deaths in 2023 in addition to 3544 fatalities previously reported from January 2020 through June 2022.

Guidance issued in 2023 on how to formally report long COVID as a cause of death on death certificates should help get a more accurate count of these fatalities going forward, said Robert Anderson, PhD, chief mortality statistician for the CDC, Atlanta, Georgia.

“We hope that the guidance will help cause of death certifiers be more aware of the impact of long COVID and more likely to report long COVID as a cause of death when appropriate,” Dr. Anderson said. “That said, we do not expect that this guidance will have a dramatic impact on the trend.”

There’s no standard definition or diagnostic test for long COVID. It’s typically diagnosed when people have symptoms at least 3 months after an acute infection that weren’t present before they got sick. As of the end of last year, about 7% of American adults had experienced long COVID at some point, the CDC estimated in September 2023.

The new death tally indicates long COVID remains a significant public health threat and is likely to grow in the years ahead, even though the pandemic may no longer be considered a global health crisis, experts said.

For example, the death certificate figures indicate:

COVID-19 was the third leading cause of American deaths in 2020 and 2021, and the fourth leading cause of death in the United States in 2023.

Nearly 1% of the more than one million deaths related to COVID-19 since the start of the pandemic have been attributed to long COVID, according to data released by the CDC.

The proportion of COVID-related deaths from long COVID peaked in June 2021 at 1.2% and again in April 2022 at 3.8%, according to the CDC. Both of these peaks coincided with periods of declining fatalities from acute infections.

“I do expect that deaths associated with long COVID will make up an increasingly larger proportion of total deaths associated with COVID-19,” said Mark Czeisler, PhD, a researcher at Harvard Medical School, Boston, Massachusetts, who has studied long COVID fatalities. 

Months and even years after an acute infection, long COVID can contribute to serious and potentially life-threatening conditions that impact nearly every major system in the body, according to the CDC guidelines for identifying the condition on death certificates. 

This means long COVID may often be listed as an underlying cause of death when people with this condition die of issues related to their heart, lungs, brain or kidneys, the CDC guidelines noted.

The risk for long COVID fatalities remains elevated for at least 6 months for people with milder acute infections and for at least 2 years in severe cases that require hospitalization, some previous research suggested.

As happens with other acute infections, certain people are more at risk for fatal case of long COVID. Age, race, and ethnicity have all been cited as risk factors by researchers who have been tracking the condition since the start of the pandemic.

Half of long COVID fatalities from July 2021 to June 2022 occurred in people aged 65 years and older, and another 23% were recorded among people aged 50-64 years old, according a report from CDC.

Long COVID death rates also varied by race and ethnicity, from a high of 14.1 cases per million among America Indian and Alaskan natives to a low of 1.5 cases per million among Asian people, the CDC found. Death rates per million were 6.7 for White individuals, 6.4 for Black people, and 4.7 for Hispanic people.

The disproportionate share of Black and Hispanic people who developed and died from severe acute infections may have left fewer survivors to develop long COVID, limiting long COVID fatalities among these groups, the CDC report concluded.

It’s also possible that long COVID fatalities were undercounted in these populations because they faced challenges accessing healthcare or seeing providers who could recognize the hallmark symptoms of long COVID.

It’s also difficult to distinguish between how many deaths related to the virus ultimately occur as a result of long COVID rather than acute infections. That’s because it may depend on a variety of factors, including how consistently medical examiners follow the CDC guidelines, said Ziyad Al-Aly, MD, chief of research at the Veterans Affairs, St. Louis Health Care System and a senior clinical epidemiologist at Washington University in St. Louis.

“Long COVID remains massively underdiagnosed, and death in people with long COVID is misattributed to other things,” Dr. Al-Aly said.

An accurate test for long COVID could help lead to a more accurate count of these fatalities, Dr. Czeisler said. Some preliminary research suggests that it might one day be possible to diagnose long COVID with a blood test.

“The timeline for such a test and the extent to which it would be widely applied is uncertain,” Dr. Czeisler noted, “though that would certainly be a gamechanger.”

A version of this article appeared on Medscape.com.

While COVID has now claimed more than 1 million lives in the United States alone, these aren’t the only fatalities caused at least in part by the virus. A small but growing number of Americans are surviving acute infections only to succumb months later to the lingering health problems caused by long COVID.

Much of the attention on long COVID has centered on the sometimes debilitating symptoms that strike people with the condition, with no formal diagnostic tests or standard treatments available, and the effect it has on quality of life. But new figures from the US Centers for Disease Control and Prevention (CDC) show that long COVID can also be deadly.

More than 5000 Americans have died from long COVID since the start of the pandemic, according to new estimates from the CDC.

This total, based on death certificate data collected by the CDC, includes a preliminary tally of 1491 long COVID deaths in 2023 in addition to 3544 fatalities previously reported from January 2020 through June 2022.

Guidance issued in 2023 on how to formally report long COVID as a cause of death on death certificates should help get a more accurate count of these fatalities going forward, said Robert Anderson, PhD, chief mortality statistician for the CDC, Atlanta, Georgia.

“We hope that the guidance will help cause of death certifiers be more aware of the impact of long COVID and more likely to report long COVID as a cause of death when appropriate,” Dr. Anderson said. “That said, we do not expect that this guidance will have a dramatic impact on the trend.”

There’s no standard definition or diagnostic test for long COVID. It’s typically diagnosed when people have symptoms at least 3 months after an acute infection that weren’t present before they got sick. As of the end of last year, about 7% of American adults had experienced long COVID at some point, the CDC estimated in September 2023.

The new death tally indicates long COVID remains a significant public health threat and is likely to grow in the years ahead, even though the pandemic may no longer be considered a global health crisis, experts said.

For example, the death certificate figures indicate:

COVID-19 was the third leading cause of American deaths in 2020 and 2021, and the fourth leading cause of death in the United States in 2023.

Nearly 1% of the more than one million deaths related to COVID-19 since the start of the pandemic have been attributed to long COVID, according to data released by the CDC.

The proportion of COVID-related deaths from long COVID peaked in June 2021 at 1.2% and again in April 2022 at 3.8%, according to the CDC. Both of these peaks coincided with periods of declining fatalities from acute infections.

“I do expect that deaths associated with long COVID will make up an increasingly larger proportion of total deaths associated with COVID-19,” said Mark Czeisler, PhD, a researcher at Harvard Medical School, Boston, Massachusetts, who has studied long COVID fatalities. 

Months and even years after an acute infection, long COVID can contribute to serious and potentially life-threatening conditions that impact nearly every major system in the body, according to the CDC guidelines for identifying the condition on death certificates. 

This means long COVID may often be listed as an underlying cause of death when people with this condition die of issues related to their heart, lungs, brain or kidneys, the CDC guidelines noted.

The risk for long COVID fatalities remains elevated for at least 6 months for people with milder acute infections and for at least 2 years in severe cases that require hospitalization, some previous research suggested.

As happens with other acute infections, certain people are more at risk for fatal case of long COVID. Age, race, and ethnicity have all been cited as risk factors by researchers who have been tracking the condition since the start of the pandemic.

Half of long COVID fatalities from July 2021 to June 2022 occurred in people aged 65 years and older, and another 23% were recorded among people aged 50-64 years old, according a report from CDC.

Long COVID death rates also varied by race and ethnicity, from a high of 14.1 cases per million among America Indian and Alaskan natives to a low of 1.5 cases per million among Asian people, the CDC found. Death rates per million were 6.7 for White individuals, 6.4 for Black people, and 4.7 for Hispanic people.

The disproportionate share of Black and Hispanic people who developed and died from severe acute infections may have left fewer survivors to develop long COVID, limiting long COVID fatalities among these groups, the CDC report concluded.

It’s also possible that long COVID fatalities were undercounted in these populations because they faced challenges accessing healthcare or seeing providers who could recognize the hallmark symptoms of long COVID.

It’s also difficult to distinguish between how many deaths related to the virus ultimately occur as a result of long COVID rather than acute infections. That’s because it may depend on a variety of factors, including how consistently medical examiners follow the CDC guidelines, said Ziyad Al-Aly, MD, chief of research at the Veterans Affairs, St. Louis Health Care System and a senior clinical epidemiologist at Washington University in St. Louis.

“Long COVID remains massively underdiagnosed, and death in people with long COVID is misattributed to other things,” Dr. Al-Aly said.

An accurate test for long COVID could help lead to a more accurate count of these fatalities, Dr. Czeisler said. Some preliminary research suggests that it might one day be possible to diagnose long COVID with a blood test.

“The timeline for such a test and the extent to which it would be widely applied is uncertain,” Dr. Czeisler noted, “though that would certainly be a gamechanger.”

A version of this article appeared on Medscape.com.

Harvard Medical School’s Sharon K. Inouye, MD, MPH, is editor in chief of JAMA Internal Medicine and a leading voice in American gerontology. We asked her to choose five of the influential journal’s most impactful studies from 2023 and highlight important take-home messages for internists and their colleagues.
 

Q: One of the studies you chose suggests that the antiviral nirmatrelvir (Paxlovid) can ward off long COVID. Could you recap the findings?

A: Researchers followed a group of more than 280,000 Department of Veterans Affairs patients who were seen in 2022, had a positive COVID test, and had at least one risk factor for severe COVID. They focused on those who survived to 30 days after their COVID infection and compared those who received the drug within the first 5 days of a positive test with an equivalent control group.

They found that 13 long COVID symptoms were all significantly less common (relative risk = 0.74) in those who received nirmatrelvir. This was true no matter whether they’d ever had a COVID vaccination.
 

Q: How should this research affect clinical practice?

A: You can’t generalize from this to everyone because, of course, not everyone was included in this study. But it is highly suggestive that this drug is very effective for preventing long COVID.

Nirmatrelvir was touted as being able to shorten duration of illness and prevent hospitalization. But if you were low risk or you were already well into your COVID course, it wasn’t like rush, rush, rush to the doctor to get it.

This changes that equation because we know long COVID is such a huge issue. The vast majority of doctors who work with COVID patients and know this are now being more aggressive about prescribing it.
 

Q: What about patients whom the CDC considers to be at less risk — people with up-to-date vaccinations who are under 50 with mild-to-moderate COVID and no higher-risk medical conditions? Should they take nirmatrelvir?

A: The evidence is not 100% in yet. A study like this one needs to be repeated and include younger people without any risk factors to see if we see the same thing. So it’s a personal choice, and a personal calculus needs to be done. A lot of people are making that choice [to take the drug], and it can be a rational decision.

Q: You also chose a study that links high thyroid hormone levels to higher rates of dementia. What did it reveal?

A: This study looks at patients who had thyrotoxicosis — a thyroid level that’s too high — from hormone produced endogenously, and exogenously. Researchers tracked almost 66,000 patients aged 65 and older and found that thyrotoxicosis from all causes, whether it was endogenous or exogenous, was linked to an increased risk of dementia in a dose-response relationship (adjusted hazard ratio = 1.39).

Q: Is there a clinical take-home message here?

A: When we start patients on thyroid medication, they don’t always get reassessed on a regular basis. Given this finding, a TSH [thyroid-stimulating hormone] level is indicated during the annual wellness check that patients on Medicare can get every year.

Q: Is TSH measured as part of routine blood tests?

A: No it’s not. It has to be ordered. I think that’s why we’re seeing this problem to begin with — because it’s not something we all have awareness about. I wasn’t aware myself that mildly high levels of thyroid could increase the risk of cognitive impairment. Certainly, I’m going to be much more aware in my practice.

Q: You also picked a study about silicosis in workers who are exposed to dust when they make engineered stone countertops, also known as quartz countertops. What were the findings?

A: Silicosis is a very serious lung condition that develops from exposure to crystalline silica. Essentially, sand gets inhaled into the lungs. Workers can be exposed when they’re making engineered stone countertops, the most popular countertops now in the United States.

This study is based on statewide surveys from 2019 to 2022 that the California Department of Public Health does routinely. They gathered cases of silicosis and found 52 — all men with an average age of 45. All but one were Latino immigrants, and most either had no insurance or very poor insurance.
 

Q: The study found that “diagnosis was delayed in 58%, with 38% presenting with advanced disease (progressive massive fibrosis), and 19% died.” What does that tell you?

A: It’s a very serious condition. Once it gets to the advanced stage, it will just continue to progress, and the person will die. That’s why it’s so important to know that it’s absolutely preventable.

Q: Is there a message here for internists?

A: If you treat a lot of immigrants or work in an area where there are a lot of industrial workers, you’re going to want to have a very high suspicion about it. If you see an atypical pattern on the chest x-ray or via diffusion scoring, have a low threshold for getting a pulmonary function test.

Doctors need to be aware and diagnose this very quickly. When patients present, you can pull them out of that work environment or put mitigation systems into place.
 

Q: California regulators were expected to put emergency rules into place in late December to protect workers. Did this study play a role in focusing attention on the problem?

A: This article, along with a commentary and podcast that we put out, really helped with advocacy to improve health and safety for workers at stone-cutting and fabrication shops.

Q: You were impressed by another study about airborne dangers, this one linking air pollution to dementia. What did researchers discover?

A: [This analysis] of more than 27,000 people in the Health and Retirement Study, a respected and rich database, found that exposure to air pollution was associated with greater rates of dementia — an increase of about 8% a year. Exposure to agricultural emissions and wildfire smoke were most robustly associated with a greater risk of dementia.

Q: How are these findings important, especially in light of the unhealthy air spawned by recent wildfires in the United States and Canada?

A: Studies like this will make it even more compelling that we are better prepared for air quality issues.

I grew up in Los Angeles, where smog and pollution were very big issues. I was constantly hearing about various mitigation strategies that were going into place. But after I moved to the East Coast, I almost never heard about prevention.

Now, I’m hoping we can keep this topic in the national conversation.
 

Q: You also highlighted a systematic review of the use of restraints in the emergency department. Why did you choose this research?

A: At JAMA Internal Medicine, we’re really focused on ways we can address health disparities and raise awareness of potential unconscious bias.

This review looked at 10 studies that included more than 2.5 million patient encounters, including 24,000 incidents of physical restraint use. They found that the overall rate of use of restraints was low at below 1%.

But when they are used, Black patients were 1.3 times more likely to be restrained than White patients.
 

Q: What’s the message here?

A: This is an important start to recognizing these differences and then changing our behavior. Perhaps restraints don’t need to be used as often in light of evidence, for example, of increased rates of misdiagnosis of psychosis in the Black population.

Q: How should physicians change their approach to restraints?

A: Restraints are not to be used to control disruption — wild behavior or verbal outbursts. They’re for when someone is a danger to themselves or others.

Dr. Inouye has no conflicts of interest.

Harvard Medical School’s Sharon K. Inouye, MD, MPH, is editor in chief of JAMA Internal Medicine and a leading voice in American gerontology. We asked her to choose five of the influential journal’s most impactful studies from 2023 and highlight important take-home messages for internists and their colleagues.
 

Q: One of the studies you chose suggests that the antiviral nirmatrelvir (Paxlovid) can ward off long COVID. Could you recap the findings?

A: Researchers followed a group of more than 280,000 Department of Veterans Affairs patients who were seen in 2022, had a positive COVID test, and had at least one risk factor for severe COVID. They focused on those who survived to 30 days after their COVID infection and compared those who received the drug within the first 5 days of a positive test with an equivalent control group.

They found that 13 long COVID symptoms were all significantly less common (relative risk = 0.74) in those who received nirmatrelvir. This was true no matter whether they’d ever had a COVID vaccination.
 

Q: How should this research affect clinical practice?

A: You can’t generalize from this to everyone because, of course, not everyone was included in this study. But it is highly suggestive that this drug is very effective for preventing long COVID.

Nirmatrelvir was touted as being able to shorten duration of illness and prevent hospitalization. But if you were low risk or you were already well into your COVID course, it wasn’t like rush, rush, rush to the doctor to get it.

This changes that equation because we know long COVID is such a huge issue. The vast majority of doctors who work with COVID patients and know this are now being more aggressive about prescribing it.
 

Q: What about patients whom the CDC considers to be at less risk — people with up-to-date vaccinations who are under 50 with mild-to-moderate COVID and no higher-risk medical conditions? Should they take nirmatrelvir?

A: The evidence is not 100% in yet. A study like this one needs to be repeated and include younger people without any risk factors to see if we see the same thing. So it’s a personal choice, and a personal calculus needs to be done. A lot of people are making that choice [to take the drug], and it can be a rational decision.

Q: You also chose a study that links high thyroid hormone levels to higher rates of dementia. What did it reveal?

A: This study looks at patients who had thyrotoxicosis — a thyroid level that’s too high — from hormone produced endogenously, and exogenously. Researchers tracked almost 66,000 patients aged 65 and older and found that thyrotoxicosis from all causes, whether it was endogenous or exogenous, was linked to an increased risk of dementia in a dose-response relationship (adjusted hazard ratio = 1.39).

Q: Is there a clinical take-home message here?

A: When we start patients on thyroid medication, they don’t always get reassessed on a regular basis. Given this finding, a TSH [thyroid-stimulating hormone] level is indicated during the annual wellness check that patients on Medicare can get every year.

Q: Is TSH measured as part of routine blood tests?

A: No it’s not. It has to be ordered. I think that’s why we’re seeing this problem to begin with — because it’s not something we all have awareness about. I wasn’t aware myself that mildly high levels of thyroid could increase the risk of cognitive impairment. Certainly, I’m going to be much more aware in my practice.

Q: You also picked a study about silicosis in workers who are exposed to dust when they make engineered stone countertops, also known as quartz countertops. What were the findings?

A: Silicosis is a very serious lung condition that develops from exposure to crystalline silica. Essentially, sand gets inhaled into the lungs. Workers can be exposed when they’re making engineered stone countertops, the most popular countertops now in the United States.

This study is based on statewide surveys from 2019 to 2022 that the California Department of Public Health does routinely. They gathered cases of silicosis and found 52 — all men with an average age of 45. All but one were Latino immigrants, and most either had no insurance or very poor insurance.
 

Q: The study found that “diagnosis was delayed in 58%, with 38% presenting with advanced disease (progressive massive fibrosis), and 19% died.” What does that tell you?

A: It’s a very serious condition. Once it gets to the advanced stage, it will just continue to progress, and the person will die. That’s why it’s so important to know that it’s absolutely preventable.

Q: Is there a message here for internists?

A: If you treat a lot of immigrants or work in an area where there are a lot of industrial workers, you’re going to want to have a very high suspicion about it. If you see an atypical pattern on the chest x-ray or via diffusion scoring, have a low threshold for getting a pulmonary function test.

Doctors need to be aware and diagnose this very quickly. When patients present, you can pull them out of that work environment or put mitigation systems into place.
 

Q: California regulators were expected to put emergency rules into place in late December to protect workers. Did this study play a role in focusing attention on the problem?

A: This article, along with a commentary and podcast that we put out, really helped with advocacy to improve health and safety for workers at stone-cutting and fabrication shops.

Q: You were impressed by another study about airborne dangers, this one linking air pollution to dementia. What did researchers discover?

A: [This analysis] of more than 27,000 people in the Health and Retirement Study, a respected and rich database, found that exposure to air pollution was associated with greater rates of dementia — an increase of about 8% a year. Exposure to agricultural emissions and wildfire smoke were most robustly associated with a greater risk of dementia.

Q: How are these findings important, especially in light of the unhealthy air spawned by recent wildfires in the United States and Canada?

A: Studies like this will make it even more compelling that we are better prepared for air quality issues.

I grew up in Los Angeles, where smog and pollution were very big issues. I was constantly hearing about various mitigation strategies that were going into place. But after I moved to the East Coast, I almost never heard about prevention.

Now, I’m hoping we can keep this topic in the national conversation.
 

Q: You also highlighted a systematic review of the use of restraints in the emergency department. Why did you choose this research?

A: At JAMA Internal Medicine, we’re really focused on ways we can address health disparities and raise awareness of potential unconscious bias.

This review looked at 10 studies that included more than 2.5 million patient encounters, including 24,000 incidents of physical restraint use. They found that the overall rate of use of restraints was low at below 1%.

But when they are used, Black patients were 1.3 times more likely to be restrained than White patients.
 

Q: What’s the message here?

A: This is an important start to recognizing these differences and then changing our behavior. Perhaps restraints don’t need to be used as often in light of evidence, for example, of increased rates of misdiagnosis of psychosis in the Black population.

Q: How should physicians change their approach to restraints?

A: Restraints are not to be used to control disruption — wild behavior or verbal outbursts. They’re for when someone is a danger to themselves or others.

Dr. Inouye has no conflicts of interest.

Harvard Medical School’s Sharon K. Inouye, MD, MPH, is editor in chief of JAMA Internal Medicine and a leading voice in American gerontology. We asked her to choose five of the influential journal’s most impactful studies from 2023 and highlight important take-home messages for internists and their colleagues.
 

Q: One of the studies you chose suggests that the antiviral nirmatrelvir (Paxlovid) can ward off long COVID. Could you recap the findings?

A: Researchers followed a group of more than 280,000 Department of Veterans Affairs patients who were seen in 2022, had a positive COVID test, and had at least one risk factor for severe COVID. They focused on those who survived to 30 days after their COVID infection and compared those who received the drug within the first 5 days of a positive test with an equivalent control group.

They found that 13 long COVID symptoms were all significantly less common (relative risk = 0.74) in those who received nirmatrelvir. This was true no matter whether they’d ever had a COVID vaccination.
 

Q: How should this research affect clinical practice?

A: You can’t generalize from this to everyone because, of course, not everyone was included in this study. But it is highly suggestive that this drug is very effective for preventing long COVID.

Nirmatrelvir was touted as being able to shorten duration of illness and prevent hospitalization. But if you were low risk or you were already well into your COVID course, it wasn’t like rush, rush, rush to the doctor to get it.

This changes that equation because we know long COVID is such a huge issue. The vast majority of doctors who work with COVID patients and know this are now being more aggressive about prescribing it.
 

Q: What about patients whom the CDC considers to be at less risk — people with up-to-date vaccinations who are under 50 with mild-to-moderate COVID and no higher-risk medical conditions? Should they take nirmatrelvir?

A: The evidence is not 100% in yet. A study like this one needs to be repeated and include younger people without any risk factors to see if we see the same thing. So it’s a personal choice, and a personal calculus needs to be done. A lot of people are making that choice [to take the drug], and it can be a rational decision.

Q: You also chose a study that links high thyroid hormone levels to higher rates of dementia. What did it reveal?

A: This study looks at patients who had thyrotoxicosis — a thyroid level that’s too high — from hormone produced endogenously, and exogenously. Researchers tracked almost 66,000 patients aged 65 and older and found that thyrotoxicosis from all causes, whether it was endogenous or exogenous, was linked to an increased risk of dementia in a dose-response relationship (adjusted hazard ratio = 1.39).

Q: Is there a clinical take-home message here?

A: When we start patients on thyroid medication, they don’t always get reassessed on a regular basis. Given this finding, a TSH [thyroid-stimulating hormone] level is indicated during the annual wellness check that patients on Medicare can get every year.

Q: Is TSH measured as part of routine blood tests?

A: No it’s not. It has to be ordered. I think that’s why we’re seeing this problem to begin with — because it’s not something we all have awareness about. I wasn’t aware myself that mildly high levels of thyroid could increase the risk of cognitive impairment. Certainly, I’m going to be much more aware in my practice.

Q: You also picked a study about silicosis in workers who are exposed to dust when they make engineered stone countertops, also known as quartz countertops. What were the findings?

A: Silicosis is a very serious lung condition that develops from exposure to crystalline silica. Essentially, sand gets inhaled into the lungs. Workers can be exposed when they’re making engineered stone countertops, the most popular countertops now in the United States.

This study is based on statewide surveys from 2019 to 2022 that the California Department of Public Health does routinely. They gathered cases of silicosis and found 52 — all men with an average age of 45. All but one were Latino immigrants, and most either had no insurance or very poor insurance.
 

Q: The study found that “diagnosis was delayed in 58%, with 38% presenting with advanced disease (progressive massive fibrosis), and 19% died.” What does that tell you?

A: It’s a very serious condition. Once it gets to the advanced stage, it will just continue to progress, and the person will die. That’s why it’s so important to know that it’s absolutely preventable.

Q: Is there a message here for internists?

A: If you treat a lot of immigrants or work in an area where there are a lot of industrial workers, you’re going to want to have a very high suspicion about it. If you see an atypical pattern on the chest x-ray or via diffusion scoring, have a low threshold for getting a pulmonary function test.

Doctors need to be aware and diagnose this very quickly. When patients present, you can pull them out of that work environment or put mitigation systems into place.
 

Q: California regulators were expected to put emergency rules into place in late December to protect workers. Did this study play a role in focusing attention on the problem?

A: This article, along with a commentary and podcast that we put out, really helped with advocacy to improve health and safety for workers at stone-cutting and fabrication shops.

Q: You were impressed by another study about airborne dangers, this one linking air pollution to dementia. What did researchers discover?

A: [This analysis] of more than 27,000 people in the Health and Retirement Study, a respected and rich database, found that exposure to air pollution was associated with greater rates of dementia — an increase of about 8% a year. Exposure to agricultural emissions and wildfire smoke were most robustly associated with a greater risk of dementia.

Q: How are these findings important, especially in light of the unhealthy air spawned by recent wildfires in the United States and Canada?

A: Studies like this will make it even more compelling that we are better prepared for air quality issues.

I grew up in Los Angeles, where smog and pollution were very big issues. I was constantly hearing about various mitigation strategies that were going into place. But after I moved to the East Coast, I almost never heard about prevention.

Now, I’m hoping we can keep this topic in the national conversation.
 

Q: You also highlighted a systematic review of the use of restraints in the emergency department. Why did you choose this research?

A: At JAMA Internal Medicine, we’re really focused on ways we can address health disparities and raise awareness of potential unconscious bias.

This review looked at 10 studies that included more than 2.5 million patient encounters, including 24,000 incidents of physical restraint use. They found that the overall rate of use of restraints was low at below 1%.

But when they are used, Black patients were 1.3 times more likely to be restrained than White patients.
 

Q: What’s the message here?

A: This is an important start to recognizing these differences and then changing our behavior. Perhaps restraints don’t need to be used as often in light of evidence, for example, of increased rates of misdiagnosis of psychosis in the Black population.

Q: How should physicians change their approach to restraints?

A: Restraints are not to be used to control disruption — wild behavior or verbal outbursts. They’re for when someone is a danger to themselves or others.

Dr. Inouye has no conflicts of interest.

BETHESDA, MD — New research into the mechanisms underlying myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and long COVID is aimed at identifying potential approaches to treatment of the two overlapping illnesses.

According to a new data brief from the National Center for Health Statistics, in 2021-2022, 1.3% of US adults had ME/CFS, a complex, multisystem illness characterized by activity-limiting fatigue, worsening of symptoms after exertion, unrefreshing sleep, and other symptoms.

A 2-day conference, Advancing ME/CFS Research: Identifying Targets for Potential Intervention and Learning from Long COVID, was held in December 12-13 on the main campus of the US National Institutes of Health (NIH) and was livestreamed. The last such meeting, also featuring results from NIH-funded research, was held in April 2019.

“Things have changed since 2019 ... The idea of this meeting is to try and identify pathways that will be treatable and druggable and really make an impact for patients based on the things that we’ve learned over the last number of years and including, fortunately or unfortunately, the huge number of people who are suffering from long COVID, where the symptoms overlap so much with those who have been suffering for a long time with ME/CFS,” said Conference Chair Joe Breen, PhD, of the National Institute of Allergy and Infectious Diseases.

As in 2019, the meeting was preceded by a day of research presentations from young investigators, some of whom also presented their findings at the main meeting. New this year were four “lived experience” speakers who described their physical, emotional, and financial struggles with ME/CFS or long COVID. Two of them presented virtually because they were too ill to travel.

Social worker and patient advocate Terri Wilder of Minneapolis, Minnesota, reported some feedback she received on social media after she asked people with ME/CFS about their priorities for the research and clinical communities.

Among the top responses were the need to recognize and study the phenomenon of “post-exertional malaise” and to stop recommending exercise for people with these illnesses, to accelerate research to find effective treatments, and to put an end to stigma around the condition. “People don’t believe us when we tell them we’re sick, people make fun of us, misperceptions persist,” Wilder said.

One person commented, “[Clinicians] shouldn’t be afraid to try off-label meds with us if needed. There may be some secondary effects, but they are better options than us taking our own lives because we can’t stand the suffering.”

Research areas covered at the conference included immunology, virology, metabolism, gene regulation, and neurology of both ME/CFS and long COVID, as well as the latest findings regarding the overlap between the two conditions.
 

Oxidative Stress in Both ME/CFS and Long COVID: A Role for Metformin?

Mark M. Davis, PhD, professor and director of the Institute for Immunity, Transplantation, and Infection at Stanford University, Palo Alto, California, summarized published data suggesting that oxidative stress is a shared characteristic of both ME/CFS and long COVID. Most cellular reactive oxygen species (ROS) are produced in the cell’s mitochondria, and T-cell activation is ROS-dependent.

Women in particular with ME/CFS show high ROS levels with consistent T-cell hyperproliferation, “which can be suppressed with specific drugs such as metformin. This raises the prospect of optimizing drug treatment and drug discovery with a simple in vitro assay of the effects on a patient’s lymphocytes,” Dr. Davis said. He also cited a study suggesting that metformin may help prevent long COVID.

Asked to comment on that, longtime ME/CFS researcher Anthony L. Komaroff, MD, of Harvard University, Cambridge, Massachusetts, cautioned that although metformin is used safely by millions of people with type 2 diabetes worldwide, it’s possible that some people with ME/CFS may be more likely to experience its known adverse effects such as lactic acidosis.

To repurpose metformin or any other already-marketed drugs for ME/CFS and/or long COVID, Dr. Komaroff said, “We should entertain treatment trials.” However, as he and many others lamented at the conference, funding for off-patent drugs often isn’t forthcoming.
 

Addressing the Microbiome, Innate Immunity

W. Ian Lipkin, MD, of Columbia University, New York, NY, was one of two speakers who discussed the role of disruptions in the microbiome and innate immunity in ME/CFS. He presented data suggesting that “dysregulation of the gut microbiome in ME/CFS may interfere with butyrate production, resulting in inflammation and porosity to bacteria and bacterial products that trigger innate immunity.”

Dr. Lipkin highlighted a “really intriguing” paper in which exogenous administration of interleukin 37 (IL-37), a naturally occurring inhibitor of inflammation, reversed the decrease in exercise performance observed during inflammation-induced fatigue and increased exercise performance, both in mice.

“Although we do not fully understand the pathophysiology of ME/CFS, it is not premature to consider randomized clinical trials of pro- and pre-biotics that address dysbiosis as well as drugs that modify innate immune responses such as poly (I:C) and IL-37,” Dr. Lipkin said.
 

Alleviating Endoplasmic Reticulum (ER) Stress: A Strategy to Increase Energy?

Paul M. Hwang, MD, PhD, from the Cardiovascular Branch of the National Heart, Lung, and Blood Institute, Bethesda, Maryland, described work that he and his colleagues recently published around a case of a 38-year-old woman with Li-Fraumeni syndrome, a genetic early-onset cancer, who also had extensive fatigue, exercise intolerance, and post-exertional malaise that began after she contracted mononucleosis as a teenager.

Testing revealed that her cells had increased expression of Wiskott-Aldrich Syndrome Protein Family Member 3 (WASF3), a “top candidate” gene found to be associated with ME/CFS in a bioinformatics study published more than a decade ago. Moreover, immunoblotting of deidentified skeletal muscle biopsy samples obtained from patients with postinfectious ME/CFS also revealed significantly increased WASF3 levels.

Hwang and colleagues showed in mice that ER stress–induced WASF3 protein localizes to mitochondria and disrupts respiratory supercomplex assembly, leading to decreased oxygen consumption and exercise endurance.

However, use of the investigational protein phosphatase 1 inhibitor salubrinal in the female patient’s cells inhibited the ER stress, which in turn decreased WASF3 expression and improved mitochondrial supercomplex formation and respiration, “suggesting a treatment strategy in ME/CFS,” Dr. Hwang said.
 

Neurovascular Dysregulation During Exercise: A Role for Pyridostigmine?

David M. Systrom, MD, a pulmonary and critical care medicine specialist at the Brigham and Women’s Hospital, Boston, Massachusetts, gave an update of his work investigating neurovascular dysregulation during exercise in both ME/CFS and long COVID using invasive cardiopulmonary testing.

In a 2021 publication, Dr. Systrom and his colleagues identified the mechanism of “preload failure,” or lower filling pressures of blood in the heart chambers because of insufficient vein constriction and reduced return of blood to the right side of the heart in people with ME/CFS, compared with healthy controls.

Subsequently, in a randomized trial of 45 patients with ME/CFS, Systrom and his colleagues published in November 2022, use of the cholinesterase inhibitor pyridostigmine, currently approved for treating myasthenia gravis and related conditions, improved peak Vo2 by increasing cardiac output and filling pressures.

Now, Dr. Systrom’s team is conducting a randomized trial comparing 60 mg pyridostigmine with or without low-dose naltrexone (LDN) vs placebo in 160 patients with ME/CFS for 3 months. Metabolomic, transcriptomic, proteomic, and other assessments will be conducted on urine and blood samples. Participants will also wear devices that measure steps, sleep, heart rate, and other metrics.

Komaroff cautioned that pyridostigmine, too, has potential adverse effects. “I’m not sure pyridostigmine is ready for prime time ... It’s a drug developed for a very different purpose ... Now will it hold up in a larger trial, and will there be any side effects that turn up in larger studies? It’s not unreasonable to study.”
 

Brain Inflammation: Measuring and Treating It

Hannah F. Bues, clinical research coordinator at Massachusetts General Hospital, Boston, presented data now in preprint (ie, not yet peer-reviewed) in which researchers used [11C]PBR28 PET neuroimaging, a marker of neuroinflammation, to compare 12 individuals with long COVID vs 43 healthy controls. They found significantly increased neuroinflammation in several different brain regions in the long COVID group compared with controls.

Samples of peripheral blood plasma also showed significant correlations between neuroinflammation and circulating analytes related to vascular dysfunction. This work is ongoing in both long COVID and pre-COVID ME/CFS populations, Bues said.

Jarred Younger, PhD, of the Neuroinflammation, Pain, and Fatigue Laboratory at the University of Alabama, Birmingham, also gave an update of his ongoing work demonstrating significant brain inflammation seen in neuroimaging of people with ME/CFS compared with healthy controls.

Dr. Younger has been investigating the use of LDN for pain in fibromyalgia. Anecdotally, there have been reports of fatigue reduction with LDN in ME/CFS.

Dr. Younger conducted a post hoc analysis of his previous trial of LDN for 12 weeks in 30 patients with fibromyalgia. Of those, 16 met older CFS criteria. There was a significant reduction in their fatigue severity, with P <.0001 from baseline and P < .009 compared with placebo. The P values were high because the data included daily symptom reports. The average fatigue reduction was 25%.

“It wasn’t a study designed for ME/CFS, but I think it’s compelling evidence and enough with the other types of data we have to say we need to do a proper clinical trial of low-dose naltrexone in ME/CFS now,” Dr. Younger said.
 

‘We Need to Do Something’ About the Underfunding

Another NIH-funded ME/CFS researcher, Maureen Hanson, PhD, of Cornell University, Ithaca, NY, noted that the NIH currently funds ME/CFS research at about $13 million compared with $1.15 billion for the Researching COVID to Enhance Recovery Initiative granted to NIH by Congress for “post-acute sequelae of SARS-CoV-2 (PASC)” in 2021 “because of the urgency of studying this. Most of us here are well aware of the underfunding of ME/CFS relative to the burden of illness,” she said.

Current 2024 funding for AIDS research is $3294 million. “There are 1.2 million individuals living with HIV in the United States, and there are over 3 million who are barely living with ME/CFS in the United States. We need to do something about this ... It’s certainly possible that future funding for PASC is now going to disappear,” Dr. Hanson cautioned.

Wilder, the patient advocate, reminded the audience that “There is a cohort of people with ME who got sick in the 1980s and 1990s in the prime of their life ... They have dreamed of a day when there would be a major announcement that a treatment has been discovered to take away the suffering of this disease ... They keep waiting and waiting, year after year, missing more and more of their lives with each passing day ... We’re all depending on you.”

Dr. Systrom has received funding from the Solve ME/CFS Initiative, Department of Defense, and Open Medicine Foundation. Dr. Younger’s work is funded by the NIH, Department of Defense, SolveME, the American Fibromyalgia Association, and ME Research UK. Dr. Lipkin and Dr. Hanson receive NIH funding. Dr. Komaroff has no disclosures.
 

A version of this article appeared on Medscape.com.

BETHESDA, MD — New research into the mechanisms underlying myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and long COVID is aimed at identifying potential approaches to treatment of the two overlapping illnesses.

According to a new data brief from the National Center for Health Statistics, in 2021-2022, 1.3% of US adults had ME/CFS, a complex, multisystem illness characterized by activity-limiting fatigue, worsening of symptoms after exertion, unrefreshing sleep, and other symptoms.

A 2-day conference, Advancing ME/CFS Research: Identifying Targets for Potential Intervention and Learning from Long COVID, was held in December 12-13 on the main campus of the US National Institutes of Health (NIH) and was livestreamed. The last such meeting, also featuring results from NIH-funded research, was held in April 2019.

“Things have changed since 2019 ... The idea of this meeting is to try and identify pathways that will be treatable and druggable and really make an impact for patients based on the things that we’ve learned over the last number of years and including, fortunately or unfortunately, the huge number of people who are suffering from long COVID, where the symptoms overlap so much with those who have been suffering for a long time with ME/CFS,” said Conference Chair Joe Breen, PhD, of the National Institute of Allergy and Infectious Diseases.

As in 2019, the meeting was preceded by a day of research presentations from young investigators, some of whom also presented their findings at the main meeting. New this year were four “lived experience” speakers who described their physical, emotional, and financial struggles with ME/CFS or long COVID. Two of them presented virtually because they were too ill to travel.

Social worker and patient advocate Terri Wilder of Minneapolis, Minnesota, reported some feedback she received on social media after she asked people with ME/CFS about their priorities for the research and clinical communities.

Among the top responses were the need to recognize and study the phenomenon of “post-exertional malaise” and to stop recommending exercise for people with these illnesses, to accelerate research to find effective treatments, and to put an end to stigma around the condition. “People don’t believe us when we tell them we’re sick, people make fun of us, misperceptions persist,” Wilder said.

One person commented, “[Clinicians] shouldn’t be afraid to try off-label meds with us if needed. There may be some secondary effects, but they are better options than us taking our own lives because we can’t stand the suffering.”

Research areas covered at the conference included immunology, virology, metabolism, gene regulation, and neurology of both ME/CFS and long COVID, as well as the latest findings regarding the overlap between the two conditions.
 

Oxidative Stress in Both ME/CFS and Long COVID: A Role for Metformin?

Mark M. Davis, PhD, professor and director of the Institute for Immunity, Transplantation, and Infection at Stanford University, Palo Alto, California, summarized published data suggesting that oxidative stress is a shared characteristic of both ME/CFS and long COVID. Most cellular reactive oxygen species (ROS) are produced in the cell’s mitochondria, and T-cell activation is ROS-dependent.

Women in particular with ME/CFS show high ROS levels with consistent T-cell hyperproliferation, “which can be suppressed with specific drugs such as metformin. This raises the prospect of optimizing drug treatment and drug discovery with a simple in vitro assay of the effects on a patient’s lymphocytes,” Dr. Davis said. He also cited a study suggesting that metformin may help prevent long COVID.

Asked to comment on that, longtime ME/CFS researcher Anthony L. Komaroff, MD, of Harvard University, Cambridge, Massachusetts, cautioned that although metformin is used safely by millions of people with type 2 diabetes worldwide, it’s possible that some people with ME/CFS may be more likely to experience its known adverse effects such as lactic acidosis.

To repurpose metformin or any other already-marketed drugs for ME/CFS and/or long COVID, Dr. Komaroff said, “We should entertain treatment trials.” However, as he and many others lamented at the conference, funding for off-patent drugs often isn’t forthcoming.
 

Addressing the Microbiome, Innate Immunity

W. Ian Lipkin, MD, of Columbia University, New York, NY, was one of two speakers who discussed the role of disruptions in the microbiome and innate immunity in ME/CFS. He presented data suggesting that “dysregulation of the gut microbiome in ME/CFS may interfere with butyrate production, resulting in inflammation and porosity to bacteria and bacterial products that trigger innate immunity.”

Dr. Lipkin highlighted a “really intriguing” paper in which exogenous administration of interleukin 37 (IL-37), a naturally occurring inhibitor of inflammation, reversed the decrease in exercise performance observed during inflammation-induced fatigue and increased exercise performance, both in mice.

“Although we do not fully understand the pathophysiology of ME/CFS, it is not premature to consider randomized clinical trials of pro- and pre-biotics that address dysbiosis as well as drugs that modify innate immune responses such as poly (I:C) and IL-37,” Dr. Lipkin said.
 

Alleviating Endoplasmic Reticulum (ER) Stress: A Strategy to Increase Energy?

Paul M. Hwang, MD, PhD, from the Cardiovascular Branch of the National Heart, Lung, and Blood Institute, Bethesda, Maryland, described work that he and his colleagues recently published around a case of a 38-year-old woman with Li-Fraumeni syndrome, a genetic early-onset cancer, who also had extensive fatigue, exercise intolerance, and post-exertional malaise that began after she contracted mononucleosis as a teenager.

Testing revealed that her cells had increased expression of Wiskott-Aldrich Syndrome Protein Family Member 3 (WASF3), a “top candidate” gene found to be associated with ME/CFS in a bioinformatics study published more than a decade ago. Moreover, immunoblotting of deidentified skeletal muscle biopsy samples obtained from patients with postinfectious ME/CFS also revealed significantly increased WASF3 levels.

Hwang and colleagues showed in mice that ER stress–induced WASF3 protein localizes to mitochondria and disrupts respiratory supercomplex assembly, leading to decreased oxygen consumption and exercise endurance.

However, use of the investigational protein phosphatase 1 inhibitor salubrinal in the female patient’s cells inhibited the ER stress, which in turn decreased WASF3 expression and improved mitochondrial supercomplex formation and respiration, “suggesting a treatment strategy in ME/CFS,” Dr. Hwang said.
 

Neurovascular Dysregulation During Exercise: A Role for Pyridostigmine?

David M. Systrom, MD, a pulmonary and critical care medicine specialist at the Brigham and Women’s Hospital, Boston, Massachusetts, gave an update of his work investigating neurovascular dysregulation during exercise in both ME/CFS and long COVID using invasive cardiopulmonary testing.

In a 2021 publication, Dr. Systrom and his colleagues identified the mechanism of “preload failure,” or lower filling pressures of blood in the heart chambers because of insufficient vein constriction and reduced return of blood to the right side of the heart in people with ME/CFS, compared with healthy controls.

Subsequently, in a randomized trial of 45 patients with ME/CFS, Systrom and his colleagues published in November 2022, use of the cholinesterase inhibitor pyridostigmine, currently approved for treating myasthenia gravis and related conditions, improved peak Vo2 by increasing cardiac output and filling pressures.

Now, Dr. Systrom’s team is conducting a randomized trial comparing 60 mg pyridostigmine with or without low-dose naltrexone (LDN) vs placebo in 160 patients with ME/CFS for 3 months. Metabolomic, transcriptomic, proteomic, and other assessments will be conducted on urine and blood samples. Participants will also wear devices that measure steps, sleep, heart rate, and other metrics.

Komaroff cautioned that pyridostigmine, too, has potential adverse effects. “I’m not sure pyridostigmine is ready for prime time ... It’s a drug developed for a very different purpose ... Now will it hold up in a larger trial, and will there be any side effects that turn up in larger studies? It’s not unreasonable to study.”
 

Brain Inflammation: Measuring and Treating It

Hannah F. Bues, clinical research coordinator at Massachusetts General Hospital, Boston, presented data now in preprint (ie, not yet peer-reviewed) in which researchers used [11C]PBR28 PET neuroimaging, a marker of neuroinflammation, to compare 12 individuals with long COVID vs 43 healthy controls. They found significantly increased neuroinflammation in several different brain regions in the long COVID group compared with controls.

Samples of peripheral blood plasma also showed significant correlations between neuroinflammation and circulating analytes related to vascular dysfunction. This work is ongoing in both long COVID and pre-COVID ME/CFS populations, Bues said.

Jarred Younger, PhD, of the Neuroinflammation, Pain, and Fatigue Laboratory at the University of Alabama, Birmingham, also gave an update of his ongoing work demonstrating significant brain inflammation seen in neuroimaging of people with ME/CFS compared with healthy controls.

Dr. Younger has been investigating the use of LDN for pain in fibromyalgia. Anecdotally, there have been reports of fatigue reduction with LDN in ME/CFS.

Dr. Younger conducted a post hoc analysis of his previous trial of LDN for 12 weeks in 30 patients with fibromyalgia. Of those, 16 met older CFS criteria. There was a significant reduction in their fatigue severity, with P <.0001 from baseline and P < .009 compared with placebo. The P values were high because the data included daily symptom reports. The average fatigue reduction was 25%.

“It wasn’t a study designed for ME/CFS, but I think it’s compelling evidence and enough with the other types of data we have to say we need to do a proper clinical trial of low-dose naltrexone in ME/CFS now,” Dr. Younger said.
 

‘We Need to Do Something’ About the Underfunding

Another NIH-funded ME/CFS researcher, Maureen Hanson, PhD, of Cornell University, Ithaca, NY, noted that the NIH currently funds ME/CFS research at about $13 million compared with $1.15 billion for the Researching COVID to Enhance Recovery Initiative granted to NIH by Congress for “post-acute sequelae of SARS-CoV-2 (PASC)” in 2021 “because of the urgency of studying this. Most of us here are well aware of the underfunding of ME/CFS relative to the burden of illness,” she said.

Current 2024 funding for AIDS research is $3294 million. “There are 1.2 million individuals living with HIV in the United States, and there are over 3 million who are barely living with ME/CFS in the United States. We need to do something about this ... It’s certainly possible that future funding for PASC is now going to disappear,” Dr. Hanson cautioned.

Wilder, the patient advocate, reminded the audience that “There is a cohort of people with ME who got sick in the 1980s and 1990s in the prime of their life ... They have dreamed of a day when there would be a major announcement that a treatment has been discovered to take away the suffering of this disease ... They keep waiting and waiting, year after year, missing more and more of their lives with each passing day ... We’re all depending on you.”

Dr. Systrom has received funding from the Solve ME/CFS Initiative, Department of Defense, and Open Medicine Foundation. Dr. Younger’s work is funded by the NIH, Department of Defense, SolveME, the American Fibromyalgia Association, and ME Research UK. Dr. Lipkin and Dr. Hanson receive NIH funding. Dr. Komaroff has no disclosures.
 

A version of this article appeared on Medscape.com.

BETHESDA, MD — New research into the mechanisms underlying myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and long COVID is aimed at identifying potential approaches to treatment of the two overlapping illnesses.

According to a new data brief from the National Center for Health Statistics, in 2021-2022, 1.3% of US adults had ME/CFS, a complex, multisystem illness characterized by activity-limiting fatigue, worsening of symptoms after exertion, unrefreshing sleep, and other symptoms.

A 2-day conference, Advancing ME/CFS Research: Identifying Targets for Potential Intervention and Learning from Long COVID, was held in December 12-13 on the main campus of the US National Institutes of Health (NIH) and was livestreamed. The last such meeting, also featuring results from NIH-funded research, was held in April 2019.

“Things have changed since 2019 ... The idea of this meeting is to try and identify pathways that will be treatable and druggable and really make an impact for patients based on the things that we’ve learned over the last number of years and including, fortunately or unfortunately, the huge number of people who are suffering from long COVID, where the symptoms overlap so much with those who have been suffering for a long time with ME/CFS,” said Conference Chair Joe Breen, PhD, of the National Institute of Allergy and Infectious Diseases.

As in 2019, the meeting was preceded by a day of research presentations from young investigators, some of whom also presented their findings at the main meeting. New this year were four “lived experience” speakers who described their physical, emotional, and financial struggles with ME/CFS or long COVID. Two of them presented virtually because they were too ill to travel.

Social worker and patient advocate Terri Wilder of Minneapolis, Minnesota, reported some feedback she received on social media after she asked people with ME/CFS about their priorities for the research and clinical communities.

Among the top responses were the need to recognize and study the phenomenon of “post-exertional malaise” and to stop recommending exercise for people with these illnesses, to accelerate research to find effective treatments, and to put an end to stigma around the condition. “People don’t believe us when we tell them we’re sick, people make fun of us, misperceptions persist,” Wilder said.

One person commented, “[Clinicians] shouldn’t be afraid to try off-label meds with us if needed. There may be some secondary effects, but they are better options than us taking our own lives because we can’t stand the suffering.”

Research areas covered at the conference included immunology, virology, metabolism, gene regulation, and neurology of both ME/CFS and long COVID, as well as the latest findings regarding the overlap between the two conditions.
 

Oxidative Stress in Both ME/CFS and Long COVID: A Role for Metformin?

Mark M. Davis, PhD, professor and director of the Institute for Immunity, Transplantation, and Infection at Stanford University, Palo Alto, California, summarized published data suggesting that oxidative stress is a shared characteristic of both ME/CFS and long COVID. Most cellular reactive oxygen species (ROS) are produced in the cell’s mitochondria, and T-cell activation is ROS-dependent.

Women in particular with ME/CFS show high ROS levels with consistent T-cell hyperproliferation, “which can be suppressed with specific drugs such as metformin. This raises the prospect of optimizing drug treatment and drug discovery with a simple in vitro assay of the effects on a patient’s lymphocytes,” Dr. Davis said. He also cited a study suggesting that metformin may help prevent long COVID.

Asked to comment on that, longtime ME/CFS researcher Anthony L. Komaroff, MD, of Harvard University, Cambridge, Massachusetts, cautioned that although metformin is used safely by millions of people with type 2 diabetes worldwide, it’s possible that some people with ME/CFS may be more likely to experience its known adverse effects such as lactic acidosis.

To repurpose metformin or any other already-marketed drugs for ME/CFS and/or long COVID, Dr. Komaroff said, “We should entertain treatment trials.” However, as he and many others lamented at the conference, funding for off-patent drugs often isn’t forthcoming.
 

Addressing the Microbiome, Innate Immunity

W. Ian Lipkin, MD, of Columbia University, New York, NY, was one of two speakers who discussed the role of disruptions in the microbiome and innate immunity in ME/CFS. He presented data suggesting that “dysregulation of the gut microbiome in ME/CFS may interfere with butyrate production, resulting in inflammation and porosity to bacteria and bacterial products that trigger innate immunity.”

Dr. Lipkin highlighted a “really intriguing” paper in which exogenous administration of interleukin 37 (IL-37), a naturally occurring inhibitor of inflammation, reversed the decrease in exercise performance observed during inflammation-induced fatigue and increased exercise performance, both in mice.

“Although we do not fully understand the pathophysiology of ME/CFS, it is not premature to consider randomized clinical trials of pro- and pre-biotics that address dysbiosis as well as drugs that modify innate immune responses such as poly (I:C) and IL-37,” Dr. Lipkin said.
 

Alleviating Endoplasmic Reticulum (ER) Stress: A Strategy to Increase Energy?

Paul M. Hwang, MD, PhD, from the Cardiovascular Branch of the National Heart, Lung, and Blood Institute, Bethesda, Maryland, described work that he and his colleagues recently published around a case of a 38-year-old woman with Li-Fraumeni syndrome, a genetic early-onset cancer, who also had extensive fatigue, exercise intolerance, and post-exertional malaise that began after she contracted mononucleosis as a teenager.

Testing revealed that her cells had increased expression of Wiskott-Aldrich Syndrome Protein Family Member 3 (WASF3), a “top candidate” gene found to be associated with ME/CFS in a bioinformatics study published more than a decade ago. Moreover, immunoblotting of deidentified skeletal muscle biopsy samples obtained from patients with postinfectious ME/CFS also revealed significantly increased WASF3 levels.

Hwang and colleagues showed in mice that ER stress–induced WASF3 protein localizes to mitochondria and disrupts respiratory supercomplex assembly, leading to decreased oxygen consumption and exercise endurance.

However, use of the investigational protein phosphatase 1 inhibitor salubrinal in the female patient’s cells inhibited the ER stress, which in turn decreased WASF3 expression and improved mitochondrial supercomplex formation and respiration, “suggesting a treatment strategy in ME/CFS,” Dr. Hwang said.
 

Neurovascular Dysregulation During Exercise: A Role for Pyridostigmine?

David M. Systrom, MD, a pulmonary and critical care medicine specialist at the Brigham and Women’s Hospital, Boston, Massachusetts, gave an update of his work investigating neurovascular dysregulation during exercise in both ME/CFS and long COVID using invasive cardiopulmonary testing.

In a 2021 publication, Dr. Systrom and his colleagues identified the mechanism of “preload failure,” or lower filling pressures of blood in the heart chambers because of insufficient vein constriction and reduced return of blood to the right side of the heart in people with ME/CFS, compared with healthy controls.

Subsequently, in a randomized trial of 45 patients with ME/CFS, Systrom and his colleagues published in November 2022, use of the cholinesterase inhibitor pyridostigmine, currently approved for treating myasthenia gravis and related conditions, improved peak Vo2 by increasing cardiac output and filling pressures.

Now, Dr. Systrom’s team is conducting a randomized trial comparing 60 mg pyridostigmine with or without low-dose naltrexone (LDN) vs placebo in 160 patients with ME/CFS for 3 months. Metabolomic, transcriptomic, proteomic, and other assessments will be conducted on urine and blood samples. Participants will also wear devices that measure steps, sleep, heart rate, and other metrics.

Komaroff cautioned that pyridostigmine, too, has potential adverse effects. “I’m not sure pyridostigmine is ready for prime time ... It’s a drug developed for a very different purpose ... Now will it hold up in a larger trial, and will there be any side effects that turn up in larger studies? It’s not unreasonable to study.”
 

Brain Inflammation: Measuring and Treating It

Hannah F. Bues, clinical research coordinator at Massachusetts General Hospital, Boston, presented data now in preprint (ie, not yet peer-reviewed) in which researchers used [11C]PBR28 PET neuroimaging, a marker of neuroinflammation, to compare 12 individuals with long COVID vs 43 healthy controls. They found significantly increased neuroinflammation in several different brain regions in the long COVID group compared with controls.

Samples of peripheral blood plasma also showed significant correlations between neuroinflammation and circulating analytes related to vascular dysfunction. This work is ongoing in both long COVID and pre-COVID ME/CFS populations, Bues said.

Jarred Younger, PhD, of the Neuroinflammation, Pain, and Fatigue Laboratory at the University of Alabama, Birmingham, also gave an update of his ongoing work demonstrating significant brain inflammation seen in neuroimaging of people with ME/CFS compared with healthy controls.

Dr. Younger has been investigating the use of LDN for pain in fibromyalgia. Anecdotally, there have been reports of fatigue reduction with LDN in ME/CFS.

Dr. Younger conducted a post hoc analysis of his previous trial of LDN for 12 weeks in 30 patients with fibromyalgia. Of those, 16 met older CFS criteria. There was a significant reduction in their fatigue severity, with P <.0001 from baseline and P < .009 compared with placebo. The P values were high because the data included daily symptom reports. The average fatigue reduction was 25%.

“It wasn’t a study designed for ME/CFS, but I think it’s compelling evidence and enough with the other types of data we have to say we need to do a proper clinical trial of low-dose naltrexone in ME/CFS now,” Dr. Younger said.
 

‘We Need to Do Something’ About the Underfunding

Another NIH-funded ME/CFS researcher, Maureen Hanson, PhD, of Cornell University, Ithaca, NY, noted that the NIH currently funds ME/CFS research at about $13 million compared with $1.15 billion for the Researching COVID to Enhance Recovery Initiative granted to NIH by Congress for “post-acute sequelae of SARS-CoV-2 (PASC)” in 2021 “because of the urgency of studying this. Most of us here are well aware of the underfunding of ME/CFS relative to the burden of illness,” she said.

Current 2024 funding for AIDS research is $3294 million. “There are 1.2 million individuals living with HIV in the United States, and there are over 3 million who are barely living with ME/CFS in the United States. We need to do something about this ... It’s certainly possible that future funding for PASC is now going to disappear,” Dr. Hanson cautioned.

Wilder, the patient advocate, reminded the audience that “There is a cohort of people with ME who got sick in the 1980s and 1990s in the prime of their life ... They have dreamed of a day when there would be a major announcement that a treatment has been discovered to take away the suffering of this disease ... They keep waiting and waiting, year after year, missing more and more of their lives with each passing day ... We’re all depending on you.”

Dr. Systrom has received funding from the Solve ME/CFS Initiative, Department of Defense, and Open Medicine Foundation. Dr. Younger’s work is funded by the NIH, Department of Defense, SolveME, the American Fibromyalgia Association, and ME Research UK. Dr. Lipkin and Dr. Hanson receive NIH funding. Dr. Komaroff has no disclosures.
 

A version of this article appeared on Medscape.com.

The COVID-19 pandemic may no longer be a global public health emergency, but millions continue to struggle with the aftermath: Long COVID. New research and clinical anecdotes suggest that certain individuals are more likely to be afflicted by the condition, nearly 4 years after the virus emerged. 

People with a history of allergies, anxiety or depression, arthritis, and autoimmune diseases and women are among those who appear more vulnerable to developing long COVID, said doctors who specialize in treating the condition.

Many patients with long COVID struggle with debilitating fatigue, brain fog, and cognitive impairment. The condition is also characterized by a catalog of other symptoms that may be difficult to recognize as long COVID, experts said. That’s especially true when patients may not mention seemingly unrelated information, such as underlying health conditions that might make them more vulnerable. This makes screening for certain conditions and investigating every symptom especially important. 

The severity of a patient’s initial infection is not the only determining factor for developing long COVID, experts said.

“Don’t judge the person based on how sick they were initially,” said Mark Bayley, MD, medical director of the Toronto Rehabilitation Institute at University Health Network and a professor with the Temerty Faculty of Medicine at the University of Toronto. “You have to evaluate every symptom as best you can to make sure you’re not missing anything else.” 

Someone who only had a bad cough or felt really unwell for just a few days and recovered but started feeling rotten again later — “that’s the person that we are seeing for long COVID,” said Dr. Bayley. 

While patients who become severely sick and require hospitalization have a higher risk of developing long COVID, this group size is small compared with the much larger number of people infected overall. As a result, despite the lower risk, those who only become mild to moderately sick make up the vast majority of patients in long COVID clinics. 

A small Northwestern Medicine study found that 41% of patients with long COVID never tested positive for COVID-19 but were found to have antibodies that indicated exposure to the virus. 

Doctors treating patients with long COVID should consider several risk factors, specialists said. They include:

• A history of asthma, eczema, or allergies
• Signs of autonomic nervous system dysfunction
• Preexisting immune system issues
• Chronic infections
• Diabetes
• Being slightly overweight
• A preexisting history of anxiety or depression
• Joint hypermobility ( being “double-jointed” with pain and other symptoms)

Screening for Allergies

Alba Azola, MD, assistant professor of Physical Medicine and Rehabilitation at Johns Hopkins Medicine, said a history of asthma, allergies, and eczema and an onset of new food allergies may be an important factor in long COVID that doctors should consider when evaluating at-risk patients.

It is important to identify this subgroup of patients because they respond to antihistamines and mast cell stabilizers, which not only relieve their allergy symptoms but may also help improve overall fatigue and their tolerance for basic activities like standing, Dr. Azola said.

A recently published systemic review of prospective cohort studies on long COVID also found that patients with preexisting allergic conditions like asthma or rhinitis may be linked to a higher risk of developing long COVID. The authors cautioned, however, that the evidence for the link is uncertain and more rigorous research is needed.

“It stands to reason that if your immune system tends to be a bit hyperactive that triggering it with a virus will make it worse,” said Dr. Bayley.


 

Signs of Dysautonomia, Joint Hypermobility

Patients should also be screened for signs and symptoms of dysautonomia, or autonomic nervous system disorder, such as postural orthostatic tachycardia syndrome (POTS) or another type of autonomic dysfunction, doctors said.

“There’s a whole list because the autonomic nervous system involves every part of your body, every system,” Dr. Azola said.

Issues with standing, vision, digestion, urination, and bowel movement, for example, appear to be multisystemic problems but may all be linked to autonomic dysfunction, she explained.

Patients who have POTS usually experience a worsening of symptoms after COVID infection, Dr. Azola said, adding that some patients may have even assumed their pre-COVID symptoms of POTS were normal. 

She also screens for joint hypermobility or hypermobile Ehlers-Danlos syndrome, which affects connective tissue. Research has long shown a relationship between autonomic dysfunction, mast cell activation syndrome (repeated severe allergy symptoms that affect multiple systems), and the presence of hypermobility, Dr. Azola said. She added that gentle physical therapy can be helpful for patients with hypermobility issues.

Previous studies before and during the pandemic have also found that a substantial subset of patients with myalgic encephalomyelitis/chronic fatigue syndrome, which shares many similarities with long COVID, also have connective tissue/hypermobility disorders.
 

Depression, Anxiety, and Female Patients

People with a preexisting history of anxiety or depression also appear to be at a higher risk for long COVID, Dr. Bayley said, noting that patients with these conditions appear more vulnerable to brain fog and other difficulties brought on by COVID infection. Earlier research found biochemical evidence of brain inflammation that correlates with symptoms of anxiety in patients with long COVID.

“We know that depression is related to neurotransmitters like adrenaline and serotonin,” Dr. Bayley said. “The chronic inflammation that’s associated with COVID — this will make people feel more depressed because they’re not getting the neurotransmitters in their brain releasing at the right times.”

It may also put patients at a risk for anxiety due to fears of post-exertional malaise (PEM), where symptoms worsen after even very minor physical or mental exertion and can last days or weeks.

“You can see how that leads to a bit of a vicious cycle,” said Dr. Bayley, explaining that the cycle of fear and avoidance makes patients less active and deconditioned. But he added that learning to manage their activity can actually help mitigate PEM due to the anti-inflammatory effects of exercise, its positive impact on mood, and benefits to the immune and cardiovascular systems. 

Meanwhile, a number of epidemiologic studies have found a higher prevalence of long COVID among women. Perimenopausal and menopausal women in particular appeared more prone, and at least one study reported that women under 50 years were five times more likely to develop post-COVID symptoms than men.

A recent small UK study that focused on COVID-19 hospitalizations found that women who had lower levels of inflammatory biomarkers at admission were more likely to experience certain long-term symptoms like muscle ache, low mood and anxiety, adding to earlier research linking female patients, long COVID, and neuropsychiatric symptoms. 


 

History of Immune Dysfunction, Diabetes, Elevated Body Mass Index (BMI)

Immune dysfunction, a history of recurrent infections, or chronic sinus infections are also common among patients under Dr. Azola and her team’s care. Those who have arthritis or other autoimmune diseases such as lupus also appear more vulnerable, Dr. Bayley said, along with patients who have diabetes or a little overweight.

Recent research out of the University of Queensland found that being overweight can negatively affect the body’s immune response to the SARS-CoV-2 virus. Blood samples collected 13 months after infection, for example, found that individuals with a higher BMI had lower antibody activity and a reduced percentage of relevant B cells that help build antibodies to fight the virus. Being overweight did not affect the antibody response to the COVID-19 vaccines, however, giving further support for vaccination over infection-induced immunity as an important protective factor, researchers said.
 

Narrowing the Information Gap

The latest Centers for Centers for Disease Control and Prevention’s Household Pulse Survey estimates that 14% of all American adults have had long COVID at some point, with more than 5% of the entire adult population currently experiencing long COVID. With millions of Americans affected, experts and advocates highlight the importance of bridging the knowledge gap with primary care doctors. 

Long COVID specialists said understanding these connections helps guide treatment plans and manage symptoms, such as finding the right medications, improving tolerance, optimizing sleep, applying cognitive strategies for brain fog, dietary changes, respiratory exercises to help with shortness of breath, and finding the fine line between what causes PEM and what doesn’t. 

“Whenever you see a disease like this one, you always have to ask yourself, is there an alternative way of looking at this that might explain what we’re seeing?” said Dr. Bayley. “It remains to be said that all bets are still open and that we need to continue to be very broad thinking about this.”

A version of this article appeared on Medscape.com.

The COVID-19 pandemic may no longer be a global public health emergency, but millions continue to struggle with the aftermath: Long COVID. New research and clinical anecdotes suggest that certain individuals are more likely to be afflicted by the condition, nearly 4 years after the virus emerged. 

People with a history of allergies, anxiety or depression, arthritis, and autoimmune diseases and women are among those who appear more vulnerable to developing long COVID, said doctors who specialize in treating the condition.

Many patients with long COVID struggle with debilitating fatigue, brain fog, and cognitive impairment. The condition is also characterized by a catalog of other symptoms that may be difficult to recognize as long COVID, experts said. That’s especially true when patients may not mention seemingly unrelated information, such as underlying health conditions that might make them more vulnerable. This makes screening for certain conditions and investigating every symptom especially important. 

The severity of a patient’s initial infection is not the only determining factor for developing long COVID, experts said.

“Don’t judge the person based on how sick they were initially,” said Mark Bayley, MD, medical director of the Toronto Rehabilitation Institute at University Health Network and a professor with the Temerty Faculty of Medicine at the University of Toronto. “You have to evaluate every symptom as best you can to make sure you’re not missing anything else.” 

Someone who only had a bad cough or felt really unwell for just a few days and recovered but started feeling rotten again later — “that’s the person that we are seeing for long COVID,” said Dr. Bayley. 

While patients who become severely sick and require hospitalization have a higher risk of developing long COVID, this group size is small compared with the much larger number of people infected overall. As a result, despite the lower risk, those who only become mild to moderately sick make up the vast majority of patients in long COVID clinics. 

A small Northwestern Medicine study found that 41% of patients with long COVID never tested positive for COVID-19 but were found to have antibodies that indicated exposure to the virus. 

Doctors treating patients with long COVID should consider several risk factors, specialists said. They include:

• A history of asthma, eczema, or allergies
• Signs of autonomic nervous system dysfunction
• Preexisting immune system issues
• Chronic infections
• Diabetes
• Being slightly overweight
• A preexisting history of anxiety or depression
• Joint hypermobility ( being “double-jointed” with pain and other symptoms)

Screening for Allergies

Alba Azola, MD, assistant professor of Physical Medicine and Rehabilitation at Johns Hopkins Medicine, said a history of asthma, allergies, and eczema and an onset of new food allergies may be an important factor in long COVID that doctors should consider when evaluating at-risk patients.

It is important to identify this subgroup of patients because they respond to antihistamines and mast cell stabilizers, which not only relieve their allergy symptoms but may also help improve overall fatigue and their tolerance for basic activities like standing, Dr. Azola said.

A recently published systemic review of prospective cohort studies on long COVID also found that patients with preexisting allergic conditions like asthma or rhinitis may be linked to a higher risk of developing long COVID. The authors cautioned, however, that the evidence for the link is uncertain and more rigorous research is needed.

“It stands to reason that if your immune system tends to be a bit hyperactive that triggering it with a virus will make it worse,” said Dr. Bayley.


 

Signs of Dysautonomia, Joint Hypermobility

Patients should also be screened for signs and symptoms of dysautonomia, or autonomic nervous system disorder, such as postural orthostatic tachycardia syndrome (POTS) or another type of autonomic dysfunction, doctors said.

“There’s a whole list because the autonomic nervous system involves every part of your body, every system,” Dr. Azola said.

Issues with standing, vision, digestion, urination, and bowel movement, for example, appear to be multisystemic problems but may all be linked to autonomic dysfunction, she explained.

Patients who have POTS usually experience a worsening of symptoms after COVID infection, Dr. Azola said, adding that some patients may have even assumed their pre-COVID symptoms of POTS were normal. 

She also screens for joint hypermobility or hypermobile Ehlers-Danlos syndrome, which affects connective tissue. Research has long shown a relationship between autonomic dysfunction, mast cell activation syndrome (repeated severe allergy symptoms that affect multiple systems), and the presence of hypermobility, Dr. Azola said. She added that gentle physical therapy can be helpful for patients with hypermobility issues.

Previous studies before and during the pandemic have also found that a substantial subset of patients with myalgic encephalomyelitis/chronic fatigue syndrome, which shares many similarities with long COVID, also have connective tissue/hypermobility disorders.
 

Depression, Anxiety, and Female Patients

People with a preexisting history of anxiety or depression also appear to be at a higher risk for long COVID, Dr. Bayley said, noting that patients with these conditions appear more vulnerable to brain fog and other difficulties brought on by COVID infection. Earlier research found biochemical evidence of brain inflammation that correlates with symptoms of anxiety in patients with long COVID.

“We know that depression is related to neurotransmitters like adrenaline and serotonin,” Dr. Bayley said. “The chronic inflammation that’s associated with COVID — this will make people feel more depressed because they’re not getting the neurotransmitters in their brain releasing at the right times.”

It may also put patients at a risk for anxiety due to fears of post-exertional malaise (PEM), where symptoms worsen after even very minor physical or mental exertion and can last days or weeks.

“You can see how that leads to a bit of a vicious cycle,” said Dr. Bayley, explaining that the cycle of fear and avoidance makes patients less active and deconditioned. But he added that learning to manage their activity can actually help mitigate PEM due to the anti-inflammatory effects of exercise, its positive impact on mood, and benefits to the immune and cardiovascular systems. 

Meanwhile, a number of epidemiologic studies have found a higher prevalence of long COVID among women. Perimenopausal and menopausal women in particular appeared more prone, and at least one study reported that women under 50 years were five times more likely to develop post-COVID symptoms than men.

A recent small UK study that focused on COVID-19 hospitalizations found that women who had lower levels of inflammatory biomarkers at admission were more likely to experience certain long-term symptoms like muscle ache, low mood and anxiety, adding to earlier research linking female patients, long COVID, and neuropsychiatric symptoms. 


 

History of Immune Dysfunction, Diabetes, Elevated Body Mass Index (BMI)

Immune dysfunction, a history of recurrent infections, or chronic sinus infections are also common among patients under Dr. Azola and her team’s care. Those who have arthritis or other autoimmune diseases such as lupus also appear more vulnerable, Dr. Bayley said, along with patients who have diabetes or a little overweight.

Recent research out of the University of Queensland found that being overweight can negatively affect the body’s immune response to the SARS-CoV-2 virus. Blood samples collected 13 months after infection, for example, found that individuals with a higher BMI had lower antibody activity and a reduced percentage of relevant B cells that help build antibodies to fight the virus. Being overweight did not affect the antibody response to the COVID-19 vaccines, however, giving further support for vaccination over infection-induced immunity as an important protective factor, researchers said.
 

Narrowing the Information Gap

The latest Centers for Centers for Disease Control and Prevention’s Household Pulse Survey estimates that 14% of all American adults have had long COVID at some point, with more than 5% of the entire adult population currently experiencing long COVID. With millions of Americans affected, experts and advocates highlight the importance of bridging the knowledge gap with primary care doctors. 

Long COVID specialists said understanding these connections helps guide treatment plans and manage symptoms, such as finding the right medications, improving tolerance, optimizing sleep, applying cognitive strategies for brain fog, dietary changes, respiratory exercises to help with shortness of breath, and finding the fine line between what causes PEM and what doesn’t. 

“Whenever you see a disease like this one, you always have to ask yourself, is there an alternative way of looking at this that might explain what we’re seeing?” said Dr. Bayley. “It remains to be said that all bets are still open and that we need to continue to be very broad thinking about this.”

A version of this article appeared on Medscape.com.

The COVID-19 pandemic may no longer be a global public health emergency, but millions continue to struggle with the aftermath: Long COVID. New research and clinical anecdotes suggest that certain individuals are more likely to be afflicted by the condition, nearly 4 years after the virus emerged. 

People with a history of allergies, anxiety or depression, arthritis, and autoimmune diseases and women are among those who appear more vulnerable to developing long COVID, said doctors who specialize in treating the condition.

Many patients with long COVID struggle with debilitating fatigue, brain fog, and cognitive impairment. The condition is also characterized by a catalog of other symptoms that may be difficult to recognize as long COVID, experts said. That’s especially true when patients may not mention seemingly unrelated information, such as underlying health conditions that might make them more vulnerable. This makes screening for certain conditions and investigating every symptom especially important. 

The severity of a patient’s initial infection is not the only determining factor for developing long COVID, experts said.

“Don’t judge the person based on how sick they were initially,” said Mark Bayley, MD, medical director of the Toronto Rehabilitation Institute at University Health Network and a professor with the Temerty Faculty of Medicine at the University of Toronto. “You have to evaluate every symptom as best you can to make sure you’re not missing anything else.” 

Someone who only had a bad cough or felt really unwell for just a few days and recovered but started feeling rotten again later — “that’s the person that we are seeing for long COVID,” said Dr. Bayley. 

While patients who become severely sick and require hospitalization have a higher risk of developing long COVID, this group size is small compared with the much larger number of people infected overall. As a result, despite the lower risk, those who only become mild to moderately sick make up the vast majority of patients in long COVID clinics. 

A small Northwestern Medicine study found that 41% of patients with long COVID never tested positive for COVID-19 but were found to have antibodies that indicated exposure to the virus. 

Doctors treating patients with long COVID should consider several risk factors, specialists said. They include:

• A history of asthma, eczema, or allergies
• Signs of autonomic nervous system dysfunction
• Preexisting immune system issues
• Chronic infections
• Diabetes
• Being slightly overweight
• A preexisting history of anxiety or depression
• Joint hypermobility ( being “double-jointed” with pain and other symptoms)

Screening for Allergies

Alba Azola, MD, assistant professor of Physical Medicine and Rehabilitation at Johns Hopkins Medicine, said a history of asthma, allergies, and eczema and an onset of new food allergies may be an important factor in long COVID that doctors should consider when evaluating at-risk patients.

It is important to identify this subgroup of patients because they respond to antihistamines and mast cell stabilizers, which not only relieve their allergy symptoms but may also help improve overall fatigue and their tolerance for basic activities like standing, Dr. Azola said.

A recently published systemic review of prospective cohort studies on long COVID also found that patients with preexisting allergic conditions like asthma or rhinitis may be linked to a higher risk of developing long COVID. The authors cautioned, however, that the evidence for the link is uncertain and more rigorous research is needed.

“It stands to reason that if your immune system tends to be a bit hyperactive that triggering it with a virus will make it worse,” said Dr. Bayley.


 

Signs of Dysautonomia, Joint Hypermobility

Patients should also be screened for signs and symptoms of dysautonomia, or autonomic nervous system disorder, such as postural orthostatic tachycardia syndrome (POTS) or another type of autonomic dysfunction, doctors said.

“There’s a whole list because the autonomic nervous system involves every part of your body, every system,” Dr. Azola said.

Issues with standing, vision, digestion, urination, and bowel movement, for example, appear to be multisystemic problems but may all be linked to autonomic dysfunction, she explained.

Patients who have POTS usually experience a worsening of symptoms after COVID infection, Dr. Azola said, adding that some patients may have even assumed their pre-COVID symptoms of POTS were normal. 

She also screens for joint hypermobility or hypermobile Ehlers-Danlos syndrome, which affects connective tissue. Research has long shown a relationship between autonomic dysfunction, mast cell activation syndrome (repeated severe allergy symptoms that affect multiple systems), and the presence of hypermobility, Dr. Azola said. She added that gentle physical therapy can be helpful for patients with hypermobility issues.

Previous studies before and during the pandemic have also found that a substantial subset of patients with myalgic encephalomyelitis/chronic fatigue syndrome, which shares many similarities with long COVID, also have connective tissue/hypermobility disorders.
 

Depression, Anxiety, and Female Patients

People with a preexisting history of anxiety or depression also appear to be at a higher risk for long COVID, Dr. Bayley said, noting that patients with these conditions appear more vulnerable to brain fog and other difficulties brought on by COVID infection. Earlier research found biochemical evidence of brain inflammation that correlates with symptoms of anxiety in patients with long COVID.

“We know that depression is related to neurotransmitters like adrenaline and serotonin,” Dr. Bayley said. “The chronic inflammation that’s associated with COVID — this will make people feel more depressed because they’re not getting the neurotransmitters in their brain releasing at the right times.”

It may also put patients at a risk for anxiety due to fears of post-exertional malaise (PEM), where symptoms worsen after even very minor physical or mental exertion and can last days or weeks.

“You can see how that leads to a bit of a vicious cycle,” said Dr. Bayley, explaining that the cycle of fear and avoidance makes patients less active and deconditioned. But he added that learning to manage their activity can actually help mitigate PEM due to the anti-inflammatory effects of exercise, its positive impact on mood, and benefits to the immune and cardiovascular systems. 

Meanwhile, a number of epidemiologic studies have found a higher prevalence of long COVID among women. Perimenopausal and menopausal women in particular appeared more prone, and at least one study reported that women under 50 years were five times more likely to develop post-COVID symptoms than men.

A recent small UK study that focused on COVID-19 hospitalizations found that women who had lower levels of inflammatory biomarkers at admission were more likely to experience certain long-term symptoms like muscle ache, low mood and anxiety, adding to earlier research linking female patients, long COVID, and neuropsychiatric symptoms. 


 

History of Immune Dysfunction, Diabetes, Elevated Body Mass Index (BMI)

Immune dysfunction, a history of recurrent infections, or chronic sinus infections are also common among patients under Dr. Azola and her team’s care. Those who have arthritis or other autoimmune diseases such as lupus also appear more vulnerable, Dr. Bayley said, along with patients who have diabetes or a little overweight.

Recent research out of the University of Queensland found that being overweight can negatively affect the body’s immune response to the SARS-CoV-2 virus. Blood samples collected 13 months after infection, for example, found that individuals with a higher BMI had lower antibody activity and a reduced percentage of relevant B cells that help build antibodies to fight the virus. Being overweight did not affect the antibody response to the COVID-19 vaccines, however, giving further support for vaccination over infection-induced immunity as an important protective factor, researchers said.
 

Narrowing the Information Gap

The latest Centers for Centers for Disease Control and Prevention’s Household Pulse Survey estimates that 14% of all American adults have had long COVID at some point, with more than 5% of the entire adult population currently experiencing long COVID. With millions of Americans affected, experts and advocates highlight the importance of bridging the knowledge gap with primary care doctors. 

Long COVID specialists said understanding these connections helps guide treatment plans and manage symptoms, such as finding the right medications, improving tolerance, optimizing sleep, applying cognitive strategies for brain fog, dietary changes, respiratory exercises to help with shortness of breath, and finding the fine line between what causes PEM and what doesn’t. 

“Whenever you see a disease like this one, you always have to ask yourself, is there an alternative way of looking at this that might explain what we’re seeing?” said Dr. Bayley. “It remains to be said that all bets are still open and that we need to continue to be very broad thinking about this.”

A version of this article appeared on Medscape.com.