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Nonmenstruating women were more likely to experience unexpected vaginal bleeding after receiving COVID-19 vaccinations, according to a new study.

The researchers suggested it could have been connected to the SARS-CoV-2 spike protein in the vaccines. The study was published in Science Advances.

After vaccinations became widely available, many women reported heavier menstrual bleeding than normal. Researchers at the Norwegian Institute of Public Health in Oslo examined the data, particularly among women who do not have periods, such as those who have been through menopause or are taking contraceptives.

The researchers used an ongoing population health survey called the Norwegian Mother, Father, and Child Cohort Study, Nature reported. They examined more than 21,000 responses from postmenopausal, perimenopausal, and nonmenstruating premenopausal women. Some were on long-term hormonal contraceptives.

They learned that 252 postmenopausal women, 1,008 perimenopausal women, and 924 premenopausal women reported having unexpected vaginal bleeding.

About half said the bleeding occurred within 4 weeks of the first or second shot or both. The risk of bleeding was up three to five times for premenopausal and perimenopausal women, and two to three times for postmenopausal women, the researchers found.

Postmenopausal bleeding is usually serious and can be a sign of cancer. “Knowing a patient’s vaccination status could put their bleeding incidence into context,” said Kate Clancy, a biological anthropologist at the University of Illinois at Urbana-Champaign.

The study received funding through the Norwegian Institute of Public Health and Research Council of Norway. The researchers reported no conflicts of interest.

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

Nonmenstruating women were more likely to experience unexpected vaginal bleeding after receiving COVID-19 vaccinations, according to a new study.

The researchers suggested it could have been connected to the SARS-CoV-2 spike protein in the vaccines. The study was published in Science Advances.

After vaccinations became widely available, many women reported heavier menstrual bleeding than normal. Researchers at the Norwegian Institute of Public Health in Oslo examined the data, particularly among women who do not have periods, such as those who have been through menopause or are taking contraceptives.

The researchers used an ongoing population health survey called the Norwegian Mother, Father, and Child Cohort Study, Nature reported. They examined more than 21,000 responses from postmenopausal, perimenopausal, and nonmenstruating premenopausal women. Some were on long-term hormonal contraceptives.

They learned that 252 postmenopausal women, 1,008 perimenopausal women, and 924 premenopausal women reported having unexpected vaginal bleeding.

About half said the bleeding occurred within 4 weeks of the first or second shot or both. The risk of bleeding was up three to five times for premenopausal and perimenopausal women, and two to three times for postmenopausal women, the researchers found.

Postmenopausal bleeding is usually serious and can be a sign of cancer. “Knowing a patient’s vaccination status could put their bleeding incidence into context,” said Kate Clancy, a biological anthropologist at the University of Illinois at Urbana-Champaign.

The study received funding through the Norwegian Institute of Public Health and Research Council of Norway. The researchers reported no conflicts of interest.

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

Nonmenstruating women were more likely to experience unexpected vaginal bleeding after receiving COVID-19 vaccinations, according to a new study.

The researchers suggested it could have been connected to the SARS-CoV-2 spike protein in the vaccines. The study was published in Science Advances.

After vaccinations became widely available, many women reported heavier menstrual bleeding than normal. Researchers at the Norwegian Institute of Public Health in Oslo examined the data, particularly among women who do not have periods, such as those who have been through menopause or are taking contraceptives.

The researchers used an ongoing population health survey called the Norwegian Mother, Father, and Child Cohort Study, Nature reported. They examined more than 21,000 responses from postmenopausal, perimenopausal, and nonmenstruating premenopausal women. Some were on long-term hormonal contraceptives.

They learned that 252 postmenopausal women, 1,008 perimenopausal women, and 924 premenopausal women reported having unexpected vaginal bleeding.

About half said the bleeding occurred within 4 weeks of the first or second shot or both. The risk of bleeding was up three to five times for premenopausal and perimenopausal women, and two to three times for postmenopausal women, the researchers found.

Postmenopausal bleeding is usually serious and can be a sign of cancer. “Knowing a patient’s vaccination status could put their bleeding incidence into context,” said Kate Clancy, a biological anthropologist at the University of Illinois at Urbana-Champaign.

The study received funding through the Norwegian Institute of Public Health and Research Council of Norway. The researchers reported no conflicts of interest.

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

People with long COVID have specific biomarkers in their blood, according to results of a study published in Nature. 

The findings may be a step toward creating blood tests to positively identify people with long COVID so specialized treatments can be employed, researchers said.

 “This is a decisive step forward in the development of valid and reliable blood testing protocols for long COVID,” said David Putrino, PhD., lead author and professor of rehabilitation and human performance and director of the Abilities Research Center at Icahn Mount Sinai Health System, New York.

Researchers from the Icahn School of Medicine at Mount Sinai and Yale School of Medicine looked at blood samples from about 270 people between January 2021 and June 2022. The people had never been infected with COVID, had fully recovered from an infection, or still showed symptoms at least four months after infection.

Using machine learning, the research teams were able to differentiate between people with and without long COVID with 96% accuracy based on distinctive features in the blood samples, according to a news release from Mount Sinai.

People with long COVID had abnormal T-cell activity and low levels of the hormone cortisol. Cortisol helps people feel alert and awake, which would explain why people with long COVID often report fatigue, NBC News said in a report on the study.

“It was one of the findings that most definitively separated the folks with long Covid from the people without long Covid,” Dr. Putrino told NBC News.

The study also found that long COVID appears to reactivate latent viruses including Epstein-Barr and mononucleosis, the study said.

The blood tests could allow doctors to come up with specialized treatments in people who report a wide variety of long COVID symptoms, Dr. Putrino said. 

“There is no ‘silver bullet’ for treating long COVID, because it is an illness that infiltrates complex systems such as the immune and hormonal regulation,” he said.

The Centers for Disease Control and Prevention says about one in five Americans who had COVID still have long COVID. Symptoms include fatigue, brain fog, dizziness, digestive problems, and loss of smell and taste.

A version of this article appeared on WebMD.com.

People with long COVID have specific biomarkers in their blood, according to results of a study published in Nature. 

The findings may be a step toward creating blood tests to positively identify people with long COVID so specialized treatments can be employed, researchers said.

 “This is a decisive step forward in the development of valid and reliable blood testing protocols for long COVID,” said David Putrino, PhD., lead author and professor of rehabilitation and human performance and director of the Abilities Research Center at Icahn Mount Sinai Health System, New York.

Researchers from the Icahn School of Medicine at Mount Sinai and Yale School of Medicine looked at blood samples from about 270 people between January 2021 and June 2022. The people had never been infected with COVID, had fully recovered from an infection, or still showed symptoms at least four months after infection.

Using machine learning, the research teams were able to differentiate between people with and without long COVID with 96% accuracy based on distinctive features in the blood samples, according to a news release from Mount Sinai.

People with long COVID had abnormal T-cell activity and low levels of the hormone cortisol. Cortisol helps people feel alert and awake, which would explain why people with long COVID often report fatigue, NBC News said in a report on the study.

“It was one of the findings that most definitively separated the folks with long Covid from the people without long Covid,” Dr. Putrino told NBC News.

The study also found that long COVID appears to reactivate latent viruses including Epstein-Barr and mononucleosis, the study said.

The blood tests could allow doctors to come up with specialized treatments in people who report a wide variety of long COVID symptoms, Dr. Putrino said. 

“There is no ‘silver bullet’ for treating long COVID, because it is an illness that infiltrates complex systems such as the immune and hormonal regulation,” he said.

The Centers for Disease Control and Prevention says about one in five Americans who had COVID still have long COVID. Symptoms include fatigue, brain fog, dizziness, digestive problems, and loss of smell and taste.

A version of this article appeared on WebMD.com.

People with long COVID have specific biomarkers in their blood, according to results of a study published in Nature. 

The findings may be a step toward creating blood tests to positively identify people with long COVID so specialized treatments can be employed, researchers said.

 “This is a decisive step forward in the development of valid and reliable blood testing protocols for long COVID,” said David Putrino, PhD., lead author and professor of rehabilitation and human performance and director of the Abilities Research Center at Icahn Mount Sinai Health System, New York.

Researchers from the Icahn School of Medicine at Mount Sinai and Yale School of Medicine looked at blood samples from about 270 people between January 2021 and June 2022. The people had never been infected with COVID, had fully recovered from an infection, or still showed symptoms at least four months after infection.

Using machine learning, the research teams were able to differentiate between people with and without long COVID with 96% accuracy based on distinctive features in the blood samples, according to a news release from Mount Sinai.

People with long COVID had abnormal T-cell activity and low levels of the hormone cortisol. Cortisol helps people feel alert and awake, which would explain why people with long COVID often report fatigue, NBC News said in a report on the study.

“It was one of the findings that most definitively separated the folks with long Covid from the people without long Covid,” Dr. Putrino told NBC News.

The study also found that long COVID appears to reactivate latent viruses including Epstein-Barr and mononucleosis, the study said.

The blood tests could allow doctors to come up with specialized treatments in people who report a wide variety of long COVID symptoms, Dr. Putrino said. 

“There is no ‘silver bullet’ for treating long COVID, because it is an illness that infiltrates complex systems such as the immune and hormonal regulation,” he said.

The Centers for Disease Control and Prevention says about one in five Americans who had COVID still have long COVID. Symptoms include fatigue, brain fog, dizziness, digestive problems, and loss of smell and taste.

A version of this article appeared on WebMD.com.

The antiviral COVID medication made by Merck can cause mutations in the coronavirus that occasionally spread to other people, according to a study published in the online journal Nature.

There’s no evidence that molnupiravir, sold under the brand name Lagevrio, has caused the creation of more transmissible or severe variants of COVID, the study says, but researchers called for more scrutiny of the drug.

Researchers looked at 15 million COVID genomes and discovered that hallmark mutations linked to molnupiravir increased in 2022, especially in places where the drug was widely used, such as the United States and the United Kingdom. Levels of the mutations were also found in populations where the drug was heavily prescribed, such as seniors.

Molnupiravir is an antiviral given to people after they show signs of having COVID-19. It interferes with the COVID-19 virus’s ability to make copies of itself, thus stopping the spread of the virus throughout the body and keeping the virus level low.

The study found the virus can sometimes survive molnupiravir, resulting in mutations that have spread to other people.

Theo Sanderson, PhD, the lead author on the study and a postdoctoral researcher at the Francis Crick Institute in London, told The Guardian that the implications of the mutations were unclear.

“The signature is very clear, but there aren’t any widely circulating variants that have the signature. At the moment there’s nothing that’s transmitted very widely that’s due to molnupiravir,” he said.

The study doesn’t say people should not use molnupiravir but calls for public health officials to scrutinize it.

“The observation that molnupiravir treatment has left a visible trace in global sequencing databases, including onwards transmission of molnupiravir-derived sequences, will be an important consideration for assessing the effects and evolutionary safety of this drug,” the researchers concluded.

When reached for comment, Merck questioned the evidence.

“The authors assume these mutations were associated with viral spread from molnupiravir-treated patients without documented evidence of that transmission. Instead, the authors rely on circumstantial associations between the region from which the sequence was identified and time frame of sequence collection in countries where molnupiravir is available to draw their conclusions,” the company said.

The Food and Drug Administration authorized the use of molnupiravir for the treatment of mild to moderate COVID-19 in adults in December 2021. The FDA has also authorized the use of nirmatrelvir/ritonavir (Paxlovid), an antiviral made by Pfizer.

A version of this article appeared on WebMD.com.

The antiviral COVID medication made by Merck can cause mutations in the coronavirus that occasionally spread to other people, according to a study published in the online journal Nature.

There’s no evidence that molnupiravir, sold under the brand name Lagevrio, has caused the creation of more transmissible or severe variants of COVID, the study says, but researchers called for more scrutiny of the drug.

Researchers looked at 15 million COVID genomes and discovered that hallmark mutations linked to molnupiravir increased in 2022, especially in places where the drug was widely used, such as the United States and the United Kingdom. Levels of the mutations were also found in populations where the drug was heavily prescribed, such as seniors.

Molnupiravir is an antiviral given to people after they show signs of having COVID-19. It interferes with the COVID-19 virus’s ability to make copies of itself, thus stopping the spread of the virus throughout the body and keeping the virus level low.

The study found the virus can sometimes survive molnupiravir, resulting in mutations that have spread to other people.

Theo Sanderson, PhD, the lead author on the study and a postdoctoral researcher at the Francis Crick Institute in London, told The Guardian that the implications of the mutations were unclear.

“The signature is very clear, but there aren’t any widely circulating variants that have the signature. At the moment there’s nothing that’s transmitted very widely that’s due to molnupiravir,” he said.

The study doesn’t say people should not use molnupiravir but calls for public health officials to scrutinize it.

“The observation that molnupiravir treatment has left a visible trace in global sequencing databases, including onwards transmission of molnupiravir-derived sequences, will be an important consideration for assessing the effects and evolutionary safety of this drug,” the researchers concluded.

When reached for comment, Merck questioned the evidence.

“The authors assume these mutations were associated with viral spread from molnupiravir-treated patients without documented evidence of that transmission. Instead, the authors rely on circumstantial associations between the region from which the sequence was identified and time frame of sequence collection in countries where molnupiravir is available to draw their conclusions,” the company said.

The Food and Drug Administration authorized the use of molnupiravir for the treatment of mild to moderate COVID-19 in adults in December 2021. The FDA has also authorized the use of nirmatrelvir/ritonavir (Paxlovid), an antiviral made by Pfizer.

A version of this article appeared on WebMD.com.

The antiviral COVID medication made by Merck can cause mutations in the coronavirus that occasionally spread to other people, according to a study published in the online journal Nature.

There’s no evidence that molnupiravir, sold under the brand name Lagevrio, has caused the creation of more transmissible or severe variants of COVID, the study says, but researchers called for more scrutiny of the drug.

Researchers looked at 15 million COVID genomes and discovered that hallmark mutations linked to molnupiravir increased in 2022, especially in places where the drug was widely used, such as the United States and the United Kingdom. Levels of the mutations were also found in populations where the drug was heavily prescribed, such as seniors.

Molnupiravir is an antiviral given to people after they show signs of having COVID-19. It interferes with the COVID-19 virus’s ability to make copies of itself, thus stopping the spread of the virus throughout the body and keeping the virus level low.

The study found the virus can sometimes survive molnupiravir, resulting in mutations that have spread to other people.

Theo Sanderson, PhD, the lead author on the study and a postdoctoral researcher at the Francis Crick Institute in London, told The Guardian that the implications of the mutations were unclear.

“The signature is very clear, but there aren’t any widely circulating variants that have the signature. At the moment there’s nothing that’s transmitted very widely that’s due to molnupiravir,” he said.

The study doesn’t say people should not use molnupiravir but calls for public health officials to scrutinize it.

“The observation that molnupiravir treatment has left a visible trace in global sequencing databases, including onwards transmission of molnupiravir-derived sequences, will be an important consideration for assessing the effects and evolutionary safety of this drug,” the researchers concluded.

When reached for comment, Merck questioned the evidence.

“The authors assume these mutations were associated with viral spread from molnupiravir-treated patients without documented evidence of that transmission. Instead, the authors rely on circumstantial associations between the region from which the sequence was identified and time frame of sequence collection in countries where molnupiravir is available to draw their conclusions,” the company said.

The Food and Drug Administration authorized the use of molnupiravir for the treatment of mild to moderate COVID-19 in adults in December 2021. The FDA has also authorized the use of nirmatrelvir/ritonavir (Paxlovid), an antiviral made by Pfizer.

A version of this article appeared on WebMD.com.

A real-world study published in  JAMA Open Network found that Pfizer’s COVID-19 antiviral Paxlovid is now less effective at preventing hospitalization or death in high-risk patients, compared with earlier studies. But when looking at death alone, the antiviral was still highly effective. 

Paxlovid was about 37% effective at preventing death or hospitalization in high-risk patients, compared with no treatment. The study also looked at the antiviral Lagevrio, made by Merck, and found it was about 41% effective. In preventing death alone, Paxlovid was about 84% effective, compared with no treatment, and Lagevrio was about 77% effective.

The investigators, of the University of North Carolina at Chapel Hill and the Cleveland Clinic, examined electronic health records of 68,867 patients at hospitals in Cleveland and Florida who were diagnosed with COVID from April 1, 2022, to Feb. 20, 2023.

For Paxlovid, the effectiveness against death and hospitalization was lower than the effectiveness rate of about 86% found in clinical trials in 2021, according to Bloomberg. 

The difference in effectiveness in the real-world and clinical studies may have occurred because the early studies were conducted with unvaccinated people. Also, the virus has evolved since those first studies, Bloomberg reported. 

The researchers said Paxlovid and Lagevrio are recommended for use because they reduce hospitalization and death among high-risk patients who get COVID, even taking recent Omicron subvariants into account.

“These findings suggest that the use of either nirmatrelvir (Paxlovid) or molnupiravir (Lagevrio) is associated with reductions in mortality and hospitalization in patients infected with Omicron, regardless of age, race and ethnicity, virus strain, vaccination status, previous infection status, or coexisting conditions,” the researchers wrote. “Both drugs can, therefore, be used to treat nonhospitalized patients who are at high risk of progressing to severe COVID-19.”

Both drugs should be taken within 5 days of the onset of COVID symptoms.

The study was supported by the National Institutes of Health. Three coauthors reported conflicts of interest with various companies and organizations.

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

A real-world study published in  JAMA Open Network found that Pfizer’s COVID-19 antiviral Paxlovid is now less effective at preventing hospitalization or death in high-risk patients, compared with earlier studies. But when looking at death alone, the antiviral was still highly effective. 

Paxlovid was about 37% effective at preventing death or hospitalization in high-risk patients, compared with no treatment. The study also looked at the antiviral Lagevrio, made by Merck, and found it was about 41% effective. In preventing death alone, Paxlovid was about 84% effective, compared with no treatment, and Lagevrio was about 77% effective.

The investigators, of the University of North Carolina at Chapel Hill and the Cleveland Clinic, examined electronic health records of 68,867 patients at hospitals in Cleveland and Florida who were diagnosed with COVID from April 1, 2022, to Feb. 20, 2023.

For Paxlovid, the effectiveness against death and hospitalization was lower than the effectiveness rate of about 86% found in clinical trials in 2021, according to Bloomberg. 

The difference in effectiveness in the real-world and clinical studies may have occurred because the early studies were conducted with unvaccinated people. Also, the virus has evolved since those first studies, Bloomberg reported. 

The researchers said Paxlovid and Lagevrio are recommended for use because they reduce hospitalization and death among high-risk patients who get COVID, even taking recent Omicron subvariants into account.

“These findings suggest that the use of either nirmatrelvir (Paxlovid) or molnupiravir (Lagevrio) is associated with reductions in mortality and hospitalization in patients infected with Omicron, regardless of age, race and ethnicity, virus strain, vaccination status, previous infection status, or coexisting conditions,” the researchers wrote. “Both drugs can, therefore, be used to treat nonhospitalized patients who are at high risk of progressing to severe COVID-19.”

Both drugs should be taken within 5 days of the onset of COVID symptoms.

The study was supported by the National Institutes of Health. Three coauthors reported conflicts of interest with various companies and organizations.

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

A real-world study published in  JAMA Open Network found that Pfizer’s COVID-19 antiviral Paxlovid is now less effective at preventing hospitalization or death in high-risk patients, compared with earlier studies. But when looking at death alone, the antiviral was still highly effective. 

Paxlovid was about 37% effective at preventing death or hospitalization in high-risk patients, compared with no treatment. The study also looked at the antiviral Lagevrio, made by Merck, and found it was about 41% effective. In preventing death alone, Paxlovid was about 84% effective, compared with no treatment, and Lagevrio was about 77% effective.

The investigators, of the University of North Carolina at Chapel Hill and the Cleveland Clinic, examined electronic health records of 68,867 patients at hospitals in Cleveland and Florida who were diagnosed with COVID from April 1, 2022, to Feb. 20, 2023.

For Paxlovid, the effectiveness against death and hospitalization was lower than the effectiveness rate of about 86% found in clinical trials in 2021, according to Bloomberg. 

The difference in effectiveness in the real-world and clinical studies may have occurred because the early studies were conducted with unvaccinated people. Also, the virus has evolved since those first studies, Bloomberg reported. 

The researchers said Paxlovid and Lagevrio are recommended for use because they reduce hospitalization and death among high-risk patients who get COVID, even taking recent Omicron subvariants into account.

“These findings suggest that the use of either nirmatrelvir (Paxlovid) or molnupiravir (Lagevrio) is associated with reductions in mortality and hospitalization in patients infected with Omicron, regardless of age, race and ethnicity, virus strain, vaccination status, previous infection status, or coexisting conditions,” the researchers wrote. “Both drugs can, therefore, be used to treat nonhospitalized patients who are at high risk of progressing to severe COVID-19.”

Both drugs should be taken within 5 days of the onset of COVID symptoms.

The study was supported by the National Institutes of Health. Three coauthors reported conflicts of interest with various companies and organizations.

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

TOPLINE:

The COVID-19 booster vaccine typically causes transient, clinically insignificant elevations in glucose levels in people with type 1 diabetes, but some individuals may develop more pronounced hyperglycemia.

METHODOLOGY:

• In a single-center prospective cohort study of 21 adults with type 1 diabetes, patients were given a blinded Dexcom G6 Pro continuous glucose monitor (CGM) at the first research clinic visit.
• After 3-4 days, participants received a COVID-19 booster vaccine.
• They returned to the clinic 10 days after the initial visit (5-6 days after booster vaccination) to have the CGM removed and glycemia assessed.

TAKEAWAY:

• Compared with baseline, the mean daily glucose level was significantly increased at day 2 (162.9 mg/dL vs. 172.8 mg/dL; P = .04) and day 3 (173.1 mg/dL; P = .02) post vaccination.
• Glucose excursions at day 0 (173.2 mg/dL; P = .058) and day 1 (173.1 mg/dL; P = .078) didn’t quite reach statistical significance.
• One participant experienced increases in glucose of 36%, 69%, 35%, 26%, 22%, and 19% on days 0-5, respectively, compared with baseline.
• Glucose excursions of at least 25% above baseline occurred in four participants on day 0 and day 1 and in three participants on days 2 and 5.
• Insulin resistance, as measured by Total Daily Insulin Resistance (a metric that integrates daily mean glucose concentration with total daily insulin dose), was also significantly increased from baseline to day 2 post vaccination (7,171 mg/dL vs. 8,070 mg/dL units; P = .03).
• No other measures of glycemia differed significantly, compared with baseline.
• Outcomes didn’t differ significantly by sex, age, or vaccine manufacturer.

IN PRACTICE:

• “To our knowledge this is the first study investigating the effect of the COVID-19 booster vaccine on glycemia specifically in people with type 1 diabetes,” say the authors.
• “Clinicians, pharmacists, and other health care providers may need to counsel people with T1D to be more vigilant with glucose testing and insulin dosing for the first 5 days after vaccination. Most importantly, insulin, required to control glycemia, may need to be transiently increased.”
• “Further studies are warranted to investigate whether other vaccines have similar glycemic effects, and which individuals are at highest risk for profound glucose perturbations post vaccination.”

SOURCE:

The study was conducted by Mihail Zilbermint, MD, of the division of hospital medicine, Johns Hopkins Medicine, Bethesda, Md., and colleagues. It was published in Diabetes Research and Clinical Practice.

LIMITATIONS:

• The sample size was small.
• There were no measurements of inflammatory markers, dietary intake, physical activity, or survey patient symptomatology to adjust for variables that may have influenced glycemic control.
• In the study cohort, glycemia was moderately well controlled at baseline.

DISCLOSURES:

The study was supported by an investigator-initiated study grant from DexCom Inc. Dr. Zilbermint has consulted for EMD Serono.

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

TOPLINE:

The COVID-19 booster vaccine typically causes transient, clinically insignificant elevations in glucose levels in people with type 1 diabetes, but some individuals may develop more pronounced hyperglycemia.

METHODOLOGY:

• In a single-center prospective cohort study of 21 adults with type 1 diabetes, patients were given a blinded Dexcom G6 Pro continuous glucose monitor (CGM) at the first research clinic visit.
• After 3-4 days, participants received a COVID-19 booster vaccine.
• They returned to the clinic 10 days after the initial visit (5-6 days after booster vaccination) to have the CGM removed and glycemia assessed.

TAKEAWAY:

• Compared with baseline, the mean daily glucose level was significantly increased at day 2 (162.9 mg/dL vs. 172.8 mg/dL; P = .04) and day 3 (173.1 mg/dL; P = .02) post vaccination.
• Glucose excursions at day 0 (173.2 mg/dL; P = .058) and day 1 (173.1 mg/dL; P = .078) didn’t quite reach statistical significance.
• One participant experienced increases in glucose of 36%, 69%, 35%, 26%, 22%, and 19% on days 0-5, respectively, compared with baseline.
• Glucose excursions of at least 25% above baseline occurred in four participants on day 0 and day 1 and in three participants on days 2 and 5.
• Insulin resistance, as measured by Total Daily Insulin Resistance (a metric that integrates daily mean glucose concentration with total daily insulin dose), was also significantly increased from baseline to day 2 post vaccination (7,171 mg/dL vs. 8,070 mg/dL units; P = .03).
• No other measures of glycemia differed significantly, compared with baseline.
• Outcomes didn’t differ significantly by sex, age, or vaccine manufacturer.

IN PRACTICE:

• “To our knowledge this is the first study investigating the effect of the COVID-19 booster vaccine on glycemia specifically in people with type 1 diabetes,” say the authors.
• “Clinicians, pharmacists, and other health care providers may need to counsel people with T1D to be more vigilant with glucose testing and insulin dosing for the first 5 days after vaccination. Most importantly, insulin, required to control glycemia, may need to be transiently increased.”
• “Further studies are warranted to investigate whether other vaccines have similar glycemic effects, and which individuals are at highest risk for profound glucose perturbations post vaccination.”

SOURCE:

The study was conducted by Mihail Zilbermint, MD, of the division of hospital medicine, Johns Hopkins Medicine, Bethesda, Md., and colleagues. It was published in Diabetes Research and Clinical Practice.

LIMITATIONS:

• The sample size was small.
• There were no measurements of inflammatory markers, dietary intake, physical activity, or survey patient symptomatology to adjust for variables that may have influenced glycemic control.
• In the study cohort, glycemia was moderately well controlled at baseline.

DISCLOSURES:

The study was supported by an investigator-initiated study grant from DexCom Inc. Dr. Zilbermint has consulted for EMD Serono.

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

TOPLINE:

The COVID-19 booster vaccine typically causes transient, clinically insignificant elevations in glucose levels in people with type 1 diabetes, but some individuals may develop more pronounced hyperglycemia.

METHODOLOGY:

• In a single-center prospective cohort study of 21 adults with type 1 diabetes, patients were given a blinded Dexcom G6 Pro continuous glucose monitor (CGM) at the first research clinic visit.
• After 3-4 days, participants received a COVID-19 booster vaccine.
• They returned to the clinic 10 days after the initial visit (5-6 days after booster vaccination) to have the CGM removed and glycemia assessed.

TAKEAWAY:

• Compared with baseline, the mean daily glucose level was significantly increased at day 2 (162.9 mg/dL vs. 172.8 mg/dL; P = .04) and day 3 (173.1 mg/dL; P = .02) post vaccination.
• Glucose excursions at day 0 (173.2 mg/dL; P = .058) and day 1 (173.1 mg/dL; P = .078) didn’t quite reach statistical significance.
• One participant experienced increases in glucose of 36%, 69%, 35%, 26%, 22%, and 19% on days 0-5, respectively, compared with baseline.
• Glucose excursions of at least 25% above baseline occurred in four participants on day 0 and day 1 and in three participants on days 2 and 5.
• Insulin resistance, as measured by Total Daily Insulin Resistance (a metric that integrates daily mean glucose concentration with total daily insulin dose), was also significantly increased from baseline to day 2 post vaccination (7,171 mg/dL vs. 8,070 mg/dL units; P = .03).
• No other measures of glycemia differed significantly, compared with baseline.
• Outcomes didn’t differ significantly by sex, age, or vaccine manufacturer.

IN PRACTICE:

• “To our knowledge this is the first study investigating the effect of the COVID-19 booster vaccine on glycemia specifically in people with type 1 diabetes,” say the authors.
• “Clinicians, pharmacists, and other health care providers may need to counsel people with T1D to be more vigilant with glucose testing and insulin dosing for the first 5 days after vaccination. Most importantly, insulin, required to control glycemia, may need to be transiently increased.”
• “Further studies are warranted to investigate whether other vaccines have similar glycemic effects, and which individuals are at highest risk for profound glucose perturbations post vaccination.”

SOURCE:

The study was conducted by Mihail Zilbermint, MD, of the division of hospital medicine, Johns Hopkins Medicine, Bethesda, Md., and colleagues. It was published in Diabetes Research and Clinical Practice.

LIMITATIONS:

• The sample size was small.
• There were no measurements of inflammatory markers, dietary intake, physical activity, or survey patient symptomatology to adjust for variables that may have influenced glycemic control.
• In the study cohort, glycemia was moderately well controlled at baseline.

DISCLOSURES:

The study was supported by an investigator-initiated study grant from DexCom Inc. Dr. Zilbermint has consulted for EMD Serono.

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

A new meta-analysis has shown that SGLT2 inhibitors do not lead to lower 28-day all-cause mortality, compared with usual care or placebo, in patients hospitalized with COVID-19.

However, no major safety issues were identified with the use of SGLT2 inhibitors in these acutely ill patients, the researchers report.

“While these findings do not support the use of SGLT2-inhibitors as standard of care for patients hospitalized with COVID-19, I think the most important take home message here is that the use of these medications appears to be safe even in really acutely ill hospitalized patients,” lead investigator of the meta-analysis, Mikhail Kosiborod, MD, Saint Luke’s Mid America Heart Institute, Kansas City, Mo., concluded.

He said this was important because the list of indications for SGLT2 inhibitors is rapidly growing.

“These medications are being used in more and more patients. And we know that when we discontinue medications in the hospital they frequently don’t get restarted, which can lead to real risks if SGLT2 inhibitors are stopped in patients with heart failure, chronic kidney disease, or diabetes. So, the bottom line is that there is no compelling reason to stop these medications in the hospital,” he added.

The new meta-analysis was presented at the recent annual congress of the European Society of Cardiology, held in Amsterdam.

Discussant of the presentation at the ESC Hotline session, Muthiah Vaduganathan, MD, MPH, Brigham and Women’s Hospital, Boston, agreed with Dr. Kosiborod’s interpretation.

“Until today we have had very limited information on the safety of SGLT2-inhibitors in acute illness, as the pivotal trials which established the use of these drugs in diabetes and chronic kidney disease largely excluded patients who were hospitalized,” Dr. Vaduganathan said.

“While the overall results of this meta-analysis are neutral and SGLT2 inhibitors will not be added as drugs to be used in the primary care of patients with COVID-19, it certainly sends a strong message of safety in acutely ill patients,” he added.

Dr. Vaduganathan explained that from the beginning of the COVID-19 pandemic, there was great interest in repurposing established therapies for alternative indications for their use in the management of COVID-19.

“Conditions that strongly predispose to adverse COVID outcomes strongly overlap with established indications for SGLT2-inhibitors. So many wondered whether these drugs may be an ideal treatment candidate for the management of COVID-19. However, there have been many safety concerns about the use of SGLT2-inhibitors in this acute setting, with worries that they may induce hemodynamic changes such an excessive lowering of blood pressure, or metabolic changes such as ketoacidosis in acutely ill patients,” he noted.

The initial DARE-19 study investigating SGLT2-inhibitors in COVID-19, with 1,250 participants, found a 20% reduction in the primary outcome of organ dysfunction or death, but this did not reach statistical significance, and no safety issues were seen. This “intriguing” result led to two further larger trials – the ACTIV-4a and RECOVERY trials, Dr. Vaduganathan reported.

“Those early signals of benefit seen in DARE-19 were largely not substantiated in the ACTIV-4A and RECOVERY trials, or in this new meta-analysis, and now we have this much larger body of evidence and more stable estimates about the efficacy of these drugs in acutely ill COVID-19 patients,” he said.

“But the story that we will all take forward is one of safety. This set of trials was arguably conducted in some of the sickest patients we’ve seen who have been exposed to SGLT2-inhibitors, and they strongly affirm that these agents can be safely continued in the setting of acute illness, with very low rates of ketoacidosis and kidney injury, and there was no prolongation of hospital stay,” he commented.

In his presentation, Dr. Kosiborod explained that treatments targeting COVID-19 pathobiology such as dysregulated immune responses, endothelial damage, microvascular thrombosis, and inflammation have been shown to improve the key outcomes in this patient group.

SGLT2 inhibitors, which modulate similar pathobiology, provide cardiovascular protection and prevent the progression of kidney disease in patients at risk for these events, including those with type 2 diabetes, heart failure, and kidney disease, and may also lead to organ protection in a setting of acute illness such as COVID-19, he noted. However, the role of SGLT2 inhibitors in patients hospitalized with COVID-19 remains uncertain.

To address the need for more definitive efficacy data, the World Health Organization Rapid Evidence Appraisal for COVID-19 Therapies (REACT) Working Group conducted a prospective meta-analysis using data from the three randomized controlled trials, DARE-19, RECOVERY, and ACTIV-4a, evaluating SGLT2 inhibitors in patients hospitalized with COVID-19.

Overall, these trials randomized 6,096 participants: 3,025 to SGLT2 inhibitors and 3,071 to usual care or placebo. The average age of participants ranged between 62 and 73 years across the trials, 39% were women, and 25% had type 2 diabetes.

By 28 days after randomization, all-cause mortality, the primary endpoint, had occurred in 11.6% of the SGLT2-inhibitor patients, compared with 12.4% of those randomized to usual care or placebo, giving an odds ratio of 0.93 (95% confidence interval, 0.79-1.08; P = .33) for SGLT2 inhibitors, with consistency across trials.

Data on in-hospital and 90-day all-cause mortality were only available for two out of three trials (DARE-19 and ACTIV-4a), but the results were similar to the primary endpoint showing nonsignificant trends toward a possible benefit in the SGLT2-inhibitor group.

The results were also similar for the secondary outcomes of progression to acute kidney injury or requirement for dialysis or death, and progression to invasive mechanical ventilation, extracorporeal membrane oxygenation, or death, both assessed at 28 days.

The primary safety outcome of ketoacidosis by 28 days was observed in seven and two patients allocated to SGLT2 inhibitors and usual care or placebo, respectively, and overall, the incidence of reported serious adverse events was balanced between treatment groups.

The RECOVERY trial was supported by grants to the University of Oxford from UK Research and Innovation, the National Institute for Health and Care Research, and Wellcome. The ACTIV-4a platform was sponsored by the National Heart, Lung, and Blood Institute. DARE-19 was an investigator-initiated collaborative trial supported by AstraZeneca. Dr. Kosiborod reported numerous conflicts of interest.

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

A new meta-analysis has shown that SGLT2 inhibitors do not lead to lower 28-day all-cause mortality, compared with usual care or placebo, in patients hospitalized with COVID-19.

However, no major safety issues were identified with the use of SGLT2 inhibitors in these acutely ill patients, the researchers report.

“While these findings do not support the use of SGLT2-inhibitors as standard of care for patients hospitalized with COVID-19, I think the most important take home message here is that the use of these medications appears to be safe even in really acutely ill hospitalized patients,” lead investigator of the meta-analysis, Mikhail Kosiborod, MD, Saint Luke’s Mid America Heart Institute, Kansas City, Mo., concluded.

He said this was important because the list of indications for SGLT2 inhibitors is rapidly growing.

“These medications are being used in more and more patients. And we know that when we discontinue medications in the hospital they frequently don’t get restarted, which can lead to real risks if SGLT2 inhibitors are stopped in patients with heart failure, chronic kidney disease, or diabetes. So, the bottom line is that there is no compelling reason to stop these medications in the hospital,” he added.

The new meta-analysis was presented at the recent annual congress of the European Society of Cardiology, held in Amsterdam.

Discussant of the presentation at the ESC Hotline session, Muthiah Vaduganathan, MD, MPH, Brigham and Women’s Hospital, Boston, agreed with Dr. Kosiborod’s interpretation.

“Until today we have had very limited information on the safety of SGLT2-inhibitors in acute illness, as the pivotal trials which established the use of these drugs in diabetes and chronic kidney disease largely excluded patients who were hospitalized,” Dr. Vaduganathan said.

“While the overall results of this meta-analysis are neutral and SGLT2 inhibitors will not be added as drugs to be used in the primary care of patients with COVID-19, it certainly sends a strong message of safety in acutely ill patients,” he added.

Dr. Vaduganathan explained that from the beginning of the COVID-19 pandemic, there was great interest in repurposing established therapies for alternative indications for their use in the management of COVID-19.

“Conditions that strongly predispose to adverse COVID outcomes strongly overlap with established indications for SGLT2-inhibitors. So many wondered whether these drugs may be an ideal treatment candidate for the management of COVID-19. However, there have been many safety concerns about the use of SGLT2-inhibitors in this acute setting, with worries that they may induce hemodynamic changes such an excessive lowering of blood pressure, or metabolic changes such as ketoacidosis in acutely ill patients,” he noted.

The initial DARE-19 study investigating SGLT2-inhibitors in COVID-19, with 1,250 participants, found a 20% reduction in the primary outcome of organ dysfunction or death, but this did not reach statistical significance, and no safety issues were seen. This “intriguing” result led to two further larger trials – the ACTIV-4a and RECOVERY trials, Dr. Vaduganathan reported.

“Those early signals of benefit seen in DARE-19 were largely not substantiated in the ACTIV-4A and RECOVERY trials, or in this new meta-analysis, and now we have this much larger body of evidence and more stable estimates about the efficacy of these drugs in acutely ill COVID-19 patients,” he said.

“But the story that we will all take forward is one of safety. This set of trials was arguably conducted in some of the sickest patients we’ve seen who have been exposed to SGLT2-inhibitors, and they strongly affirm that these agents can be safely continued in the setting of acute illness, with very low rates of ketoacidosis and kidney injury, and there was no prolongation of hospital stay,” he commented.

In his presentation, Dr. Kosiborod explained that treatments targeting COVID-19 pathobiology such as dysregulated immune responses, endothelial damage, microvascular thrombosis, and inflammation have been shown to improve the key outcomes in this patient group.

SGLT2 inhibitors, which modulate similar pathobiology, provide cardiovascular protection and prevent the progression of kidney disease in patients at risk for these events, including those with type 2 diabetes, heart failure, and kidney disease, and may also lead to organ protection in a setting of acute illness such as COVID-19, he noted. However, the role of SGLT2 inhibitors in patients hospitalized with COVID-19 remains uncertain.

To address the need for more definitive efficacy data, the World Health Organization Rapid Evidence Appraisal for COVID-19 Therapies (REACT) Working Group conducted a prospective meta-analysis using data from the three randomized controlled trials, DARE-19, RECOVERY, and ACTIV-4a, evaluating SGLT2 inhibitors in patients hospitalized with COVID-19.

Overall, these trials randomized 6,096 participants: 3,025 to SGLT2 inhibitors and 3,071 to usual care or placebo. The average age of participants ranged between 62 and 73 years across the trials, 39% were women, and 25% had type 2 diabetes.

By 28 days after randomization, all-cause mortality, the primary endpoint, had occurred in 11.6% of the SGLT2-inhibitor patients, compared with 12.4% of those randomized to usual care or placebo, giving an odds ratio of 0.93 (95% confidence interval, 0.79-1.08; P = .33) for SGLT2 inhibitors, with consistency across trials.

Data on in-hospital and 90-day all-cause mortality were only available for two out of three trials (DARE-19 and ACTIV-4a), but the results were similar to the primary endpoint showing nonsignificant trends toward a possible benefit in the SGLT2-inhibitor group.

The results were also similar for the secondary outcomes of progression to acute kidney injury or requirement for dialysis or death, and progression to invasive mechanical ventilation, extracorporeal membrane oxygenation, or death, both assessed at 28 days.

The primary safety outcome of ketoacidosis by 28 days was observed in seven and two patients allocated to SGLT2 inhibitors and usual care or placebo, respectively, and overall, the incidence of reported serious adverse events was balanced between treatment groups.

The RECOVERY trial was supported by grants to the University of Oxford from UK Research and Innovation, the National Institute for Health and Care Research, and Wellcome. The ACTIV-4a platform was sponsored by the National Heart, Lung, and Blood Institute. DARE-19 was an investigator-initiated collaborative trial supported by AstraZeneca. Dr. Kosiborod reported numerous conflicts of interest.

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

A new meta-analysis has shown that SGLT2 inhibitors do not lead to lower 28-day all-cause mortality, compared with usual care or placebo, in patients hospitalized with COVID-19.

However, no major safety issues were identified with the use of SGLT2 inhibitors in these acutely ill patients, the researchers report.

“While these findings do not support the use of SGLT2-inhibitors as standard of care for patients hospitalized with COVID-19, I think the most important take home message here is that the use of these medications appears to be safe even in really acutely ill hospitalized patients,” lead investigator of the meta-analysis, Mikhail Kosiborod, MD, Saint Luke’s Mid America Heart Institute, Kansas City, Mo., concluded.

He said this was important because the list of indications for SGLT2 inhibitors is rapidly growing.

“These medications are being used in more and more patients. And we know that when we discontinue medications in the hospital they frequently don’t get restarted, which can lead to real risks if SGLT2 inhibitors are stopped in patients with heart failure, chronic kidney disease, or diabetes. So, the bottom line is that there is no compelling reason to stop these medications in the hospital,” he added.

The new meta-analysis was presented at the recent annual congress of the European Society of Cardiology, held in Amsterdam.

Discussant of the presentation at the ESC Hotline session, Muthiah Vaduganathan, MD, MPH, Brigham and Women’s Hospital, Boston, agreed with Dr. Kosiborod’s interpretation.

“Until today we have had very limited information on the safety of SGLT2-inhibitors in acute illness, as the pivotal trials which established the use of these drugs in diabetes and chronic kidney disease largely excluded patients who were hospitalized,” Dr. Vaduganathan said.

“While the overall results of this meta-analysis are neutral and SGLT2 inhibitors will not be added as drugs to be used in the primary care of patients with COVID-19, it certainly sends a strong message of safety in acutely ill patients,” he added.

Dr. Vaduganathan explained that from the beginning of the COVID-19 pandemic, there was great interest in repurposing established therapies for alternative indications for their use in the management of COVID-19.

“Conditions that strongly predispose to adverse COVID outcomes strongly overlap with established indications for SGLT2-inhibitors. So many wondered whether these drugs may be an ideal treatment candidate for the management of COVID-19. However, there have been many safety concerns about the use of SGLT2-inhibitors in this acute setting, with worries that they may induce hemodynamic changes such an excessive lowering of blood pressure, or metabolic changes such as ketoacidosis in acutely ill patients,” he noted.

The initial DARE-19 study investigating SGLT2-inhibitors in COVID-19, with 1,250 participants, found a 20% reduction in the primary outcome of organ dysfunction or death, but this did not reach statistical significance, and no safety issues were seen. This “intriguing” result led to two further larger trials – the ACTIV-4a and RECOVERY trials, Dr. Vaduganathan reported.

“Those early signals of benefit seen in DARE-19 were largely not substantiated in the ACTIV-4A and RECOVERY trials, or in this new meta-analysis, and now we have this much larger body of evidence and more stable estimates about the efficacy of these drugs in acutely ill COVID-19 patients,” he said.

“But the story that we will all take forward is one of safety. This set of trials was arguably conducted in some of the sickest patients we’ve seen who have been exposed to SGLT2-inhibitors, and they strongly affirm that these agents can be safely continued in the setting of acute illness, with very low rates of ketoacidosis and kidney injury, and there was no prolongation of hospital stay,” he commented.

In his presentation, Dr. Kosiborod explained that treatments targeting COVID-19 pathobiology such as dysregulated immune responses, endothelial damage, microvascular thrombosis, and inflammation have been shown to improve the key outcomes in this patient group.

SGLT2 inhibitors, which modulate similar pathobiology, provide cardiovascular protection and prevent the progression of kidney disease in patients at risk for these events, including those with type 2 diabetes, heart failure, and kidney disease, and may also lead to organ protection in a setting of acute illness such as COVID-19, he noted. However, the role of SGLT2 inhibitors in patients hospitalized with COVID-19 remains uncertain.

To address the need for more definitive efficacy data, the World Health Organization Rapid Evidence Appraisal for COVID-19 Therapies (REACT) Working Group conducted a prospective meta-analysis using data from the three randomized controlled trials, DARE-19, RECOVERY, and ACTIV-4a, evaluating SGLT2 inhibitors in patients hospitalized with COVID-19.

Overall, these trials randomized 6,096 participants: 3,025 to SGLT2 inhibitors and 3,071 to usual care or placebo. The average age of participants ranged between 62 and 73 years across the trials, 39% were women, and 25% had type 2 diabetes.

By 28 days after randomization, all-cause mortality, the primary endpoint, had occurred in 11.6% of the SGLT2-inhibitor patients, compared with 12.4% of those randomized to usual care or placebo, giving an odds ratio of 0.93 (95% confidence interval, 0.79-1.08; P = .33) for SGLT2 inhibitors, with consistency across trials.

Data on in-hospital and 90-day all-cause mortality were only available for two out of three trials (DARE-19 and ACTIV-4a), but the results were similar to the primary endpoint showing nonsignificant trends toward a possible benefit in the SGLT2-inhibitor group.

The results were also similar for the secondary outcomes of progression to acute kidney injury or requirement for dialysis or death, and progression to invasive mechanical ventilation, extracorporeal membrane oxygenation, or death, both assessed at 28 days.

The primary safety outcome of ketoacidosis by 28 days was observed in seven and two patients allocated to SGLT2 inhibitors and usual care or placebo, respectively, and overall, the incidence of reported serious adverse events was balanced between treatment groups.

The RECOVERY trial was supported by grants to the University of Oxford from UK Research and Innovation, the National Institute for Health and Care Research, and Wellcome. The ACTIV-4a platform was sponsored by the National Heart, Lung, and Blood Institute. DARE-19 was an investigator-initiated collaborative trial supported by AstraZeneca. Dr. Kosiborod reported numerous conflicts of interest.

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

COVID vaccines will have a new formulation in 2023, according to a decision announced by the U.S. Food and Drug Administration, that will focus efforts on circulating variants. The move pushes last year’s bivalent vaccines out of circulation because they will no longer be authorized for use in the United States.

The updated mRNA vaccines for 2023-2024 are being revised to include a single component that corresponds to the Omicron variant XBB.1.5. Like the bivalents offered before, the new monovalents are being manufactured by Moderna and Pfizer.

The new vaccines are authorized for use in individuals age 6 months and older.  And the new options are being developed using a similar process as previous formulations, according to the FDA.
 

Targeting circulating variants

In recent studies, regulators point out the extent of neutralization observed by the updated vaccines against currently circulating viral variants causing COVID-19, including EG.5, BA.2.86, appears to be of a similar magnitude to the extent of neutralization observed with previous versions of the vaccines against corresponding prior variants.

“This suggests that the vaccines are a good match for protecting against the currently circulating COVID-19 variants,” according to the report.

Hundreds of millions of people in the United States have already received previously approved mRNA COVID vaccines, according to regulators who say the benefit-to-risk profile is well understood as they move forward with new formulations.

“Vaccination remains critical to public health and continued protection against serious consequences of COVID-19, including hospitalization and death,” Peter Marks, MD, PhD, director of the FDA’s Center for Biologics Evaluation and Research, said in a statement. “The public can be assured that these updated vaccines have met the agency’s rigorous scientific standards for safety, effectiveness, and manufacturing quality. We very much encourage those who are eligible to consider getting vaccinated.”
 

Timing the effort

On Sept. 12 the U.S. Centers for Disease Control and Prevention recommended that everyone 6 months and older get an updated COVID-19 vaccine. Updated vaccines from Pfizer-BioNTech and Moderna will be available later this week, according to the agency.

This article was updated 9/14/23.

A version of this article appeared on Medscape.com.

COVID vaccines will have a new formulation in 2023, according to a decision announced by the U.S. Food and Drug Administration, that will focus efforts on circulating variants. The move pushes last year’s bivalent vaccines out of circulation because they will no longer be authorized for use in the United States.

The updated mRNA vaccines for 2023-2024 are being revised to include a single component that corresponds to the Omicron variant XBB.1.5. Like the bivalents offered before, the new monovalents are being manufactured by Moderna and Pfizer.

The new vaccines are authorized for use in individuals age 6 months and older.  And the new options are being developed using a similar process as previous formulations, according to the FDA.
 

Targeting circulating variants

In recent studies, regulators point out the extent of neutralization observed by the updated vaccines against currently circulating viral variants causing COVID-19, including EG.5, BA.2.86, appears to be of a similar magnitude to the extent of neutralization observed with previous versions of the vaccines against corresponding prior variants.

“This suggests that the vaccines are a good match for protecting against the currently circulating COVID-19 variants,” according to the report.

Hundreds of millions of people in the United States have already received previously approved mRNA COVID vaccines, according to regulators who say the benefit-to-risk profile is well understood as they move forward with new formulations.

“Vaccination remains critical to public health and continued protection against serious consequences of COVID-19, including hospitalization and death,” Peter Marks, MD, PhD, director of the FDA’s Center for Biologics Evaluation and Research, said in a statement. “The public can be assured that these updated vaccines have met the agency’s rigorous scientific standards for safety, effectiveness, and manufacturing quality. We very much encourage those who are eligible to consider getting vaccinated.”
 

Timing the effort

On Sept. 12 the U.S. Centers for Disease Control and Prevention recommended that everyone 6 months and older get an updated COVID-19 vaccine. Updated vaccines from Pfizer-BioNTech and Moderna will be available later this week, according to the agency.

This article was updated 9/14/23.

A version of this article appeared on Medscape.com.

COVID vaccines will have a new formulation in 2023, according to a decision announced by the U.S. Food and Drug Administration, that will focus efforts on circulating variants. The move pushes last year’s bivalent vaccines out of circulation because they will no longer be authorized for use in the United States.

The updated mRNA vaccines for 2023-2024 are being revised to include a single component that corresponds to the Omicron variant XBB.1.5. Like the bivalents offered before, the new monovalents are being manufactured by Moderna and Pfizer.

The new vaccines are authorized for use in individuals age 6 months and older.  And the new options are being developed using a similar process as previous formulations, according to the FDA.
 

Targeting circulating variants

In recent studies, regulators point out the extent of neutralization observed by the updated vaccines against currently circulating viral variants causing COVID-19, including EG.5, BA.2.86, appears to be of a similar magnitude to the extent of neutralization observed with previous versions of the vaccines against corresponding prior variants.

“This suggests that the vaccines are a good match for protecting against the currently circulating COVID-19 variants,” according to the report.

Hundreds of millions of people in the United States have already received previously approved mRNA COVID vaccines, according to regulators who say the benefit-to-risk profile is well understood as they move forward with new formulations.

“Vaccination remains critical to public health and continued protection against serious consequences of COVID-19, including hospitalization and death,” Peter Marks, MD, PhD, director of the FDA’s Center for Biologics Evaluation and Research, said in a statement. “The public can be assured that these updated vaccines have met the agency’s rigorous scientific standards for safety, effectiveness, and manufacturing quality. We very much encourage those who are eligible to consider getting vaccinated.”
 

Timing the effort

On Sept. 12 the U.S. Centers for Disease Control and Prevention recommended that everyone 6 months and older get an updated COVID-19 vaccine. Updated vaccines from Pfizer-BioNTech and Moderna will be available later this week, according to the agency.

This article was updated 9/14/23.

A version of this article appeared on Medscape.com.

Crippling symptoms, lost careers, and eroded incomes: This is the harsh reality for doctors suffering with long COVID, according to the first major survey of physicians with the condition.

The survey, conducted by the British Medical Association and the Long COVID Doctors for Action support group, sheds light on the lingering effects of long COVID on more than 600 chronically ill and disabled doctors with the condition. It also spotlights what they describe as a lack of medical and financial support from their government and employers at the National Health Service.

“We feel betrayed and abandoned,” said Kelly Fearnley, MBChB, chair and cofounder of Long COVID Doctors for Action. “At a time of national crisis, when health care workers were asked to step up, we did. When the nation needed us, we stepped up. We put our lives on the line. We put our families’ lives on the line. And now that we are injured after knowingly being unprotected and deliberately and repeatedly exposed to a level 3 biohazard, we now find ourselves in this position.”

Dr. Fearnley fell ill while working in a hospital’s COVID ward in November 2020. She is one of an estimated 2 million people in the United Kingdom – including thousands of NHS employees – with long COVID. She hasn’t been able to return to work in nearly 3 years.

Long COVID affects more than 65 million people worldwide. It is estimated that 1 in 10 people infected with the virus develop long-term symptoms. In the United Kingdom, health care and social care workers are seven times more likely to have had severe COVID-19 than other types of employees.

Doctors responding to the BMA survey reported a wide range of long COVID symptoms, including fatigue, headaches, muscular pain, nerve damage, joint pain, and respiratory problems.

Among the survey’s key findings, 60% of doctors said long COVID has affected their ability to carry out day-to-day tasks on a regular basis. Almost one in five (18%) said they were no longer able to work, while fewer than one in three (31%) were working full time. This compares with more than half (57%) of respondents working full time before the onset of their COVID illness – a decline of 46%.

Nearly half (48%) of respondents said they have experienced some form of loss of earnings as a result of long COVID, and almost half of the doctors were never referred to an NHS long COVID clinic. The survey included the following first-person accounts from doctors living with the condition.

• One doctor said: “I nearly lost my life, my home, my partner and my career. I have received little support to help keep these. The impact on my mental health nearly cost [me] my life again.”
• A senior consulting physician commented: “Life is absolutely miserable. Every day is a struggle. I wake up exhausted, the insomnia and night terrors are horrendous as I live through my worst fears every night. Any activity such as eating meals, washing, etc., will mean I have to go to bed for a few hours. I am unable to look after myself or my child, exercise or maintain social relationships. I have no financial security. Long COVID has totally destroyed my life.”
• A salaried general practitioner said: “I can no longer work, finances are ruined. I didn’t have employment protection so am now unemployed and penniless.”

Calls for action from the BMA include the following:

• Financial support for doctors and health care staff with long COVID.
• The recognition of long COVID as an occupational disease among health care workers, along with a definition of the condition that covers all of the debilitating disease’s symptoms.
• Improved access to physical and mental health services to help comprehensive assessment, investigations, and treatment.
• Greater workplace protection for health care staff who risk their lives for others.
• Better support for long COVID sufferers to return to work safely if they can, including a flexible approach to the use of workplace adjustments.

“One would think, given the circumstances under which we fell ill and current workforce shortages, NHS employers would be eager to do everything to facilitate the return to work of people with long COVID,” said Dr. Fearnley. “However, NHS employers are legally required to implement only ‘reasonable adjustments,’ and so things such as extended phased return or adjustments to shift patterns are not always being facilitated. Instead, an increasing number of employers are choosing to terminate contracts.”

Raymond Agius, the BMA’s occupational medicine committee cochair, also put the blame on inadequate safety measures for doctors. Those inadequate measures persist to this day, inasmuch as U.K. hospitals have dropped masking requirements.

“During the COVID-19 pandemic, doctors were left exposed and unprotected at work,” he said in a BMA press release. “They often did not have access to the right PPE. ... Too many risk assessments of workplaces and especially of vulnerable doctors were not undertaken.”

A small minority of doctors who were surveyed said they had access to respiratory protective equipment about the time they contracted COVID-19. Only 11% had access to an FFP2 respirator (the equivalent of an N95 mask); 16% had an FFP3 respirator (the equivalent of an N99 mask).

To date, the British government hasn’t issued much of a response to the survey, saying only that it has invested more than ₤50 million to better understand long COVID.

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

Crippling symptoms, lost careers, and eroded incomes: This is the harsh reality for doctors suffering with long COVID, according to the first major survey of physicians with the condition.

The survey, conducted by the British Medical Association and the Long COVID Doctors for Action support group, sheds light on the lingering effects of long COVID on more than 600 chronically ill and disabled doctors with the condition. It also spotlights what they describe as a lack of medical and financial support from their government and employers at the National Health Service.

“We feel betrayed and abandoned,” said Kelly Fearnley, MBChB, chair and cofounder of Long COVID Doctors for Action. “At a time of national crisis, when health care workers were asked to step up, we did. When the nation needed us, we stepped up. We put our lives on the line. We put our families’ lives on the line. And now that we are injured after knowingly being unprotected and deliberately and repeatedly exposed to a level 3 biohazard, we now find ourselves in this position.”

Dr. Fearnley fell ill while working in a hospital’s COVID ward in November 2020. She is one of an estimated 2 million people in the United Kingdom – including thousands of NHS employees – with long COVID. She hasn’t been able to return to work in nearly 3 years.

Long COVID affects more than 65 million people worldwide. It is estimated that 1 in 10 people infected with the virus develop long-term symptoms. In the United Kingdom, health care and social care workers are seven times more likely to have had severe COVID-19 than other types of employees.

Doctors responding to the BMA survey reported a wide range of long COVID symptoms, including fatigue, headaches, muscular pain, nerve damage, joint pain, and respiratory problems.

Among the survey’s key findings, 60% of doctors said long COVID has affected their ability to carry out day-to-day tasks on a regular basis. Almost one in five (18%) said they were no longer able to work, while fewer than one in three (31%) were working full time. This compares with more than half (57%) of respondents working full time before the onset of their COVID illness – a decline of 46%.

Nearly half (48%) of respondents said they have experienced some form of loss of earnings as a result of long COVID, and almost half of the doctors were never referred to an NHS long COVID clinic. The survey included the following first-person accounts from doctors living with the condition.

• One doctor said: “I nearly lost my life, my home, my partner and my career. I have received little support to help keep these. The impact on my mental health nearly cost [me] my life again.”
• A senior consulting physician commented: “Life is absolutely miserable. Every day is a struggle. I wake up exhausted, the insomnia and night terrors are horrendous as I live through my worst fears every night. Any activity such as eating meals, washing, etc., will mean I have to go to bed for a few hours. I am unable to look after myself or my child, exercise or maintain social relationships. I have no financial security. Long COVID has totally destroyed my life.”
• A salaried general practitioner said: “I can no longer work, finances are ruined. I didn’t have employment protection so am now unemployed and penniless.”

Calls for action from the BMA include the following:

• Financial support for doctors and health care staff with long COVID.
• The recognition of long COVID as an occupational disease among health care workers, along with a definition of the condition that covers all of the debilitating disease’s symptoms.
• Improved access to physical and mental health services to help comprehensive assessment, investigations, and treatment.
• Greater workplace protection for health care staff who risk their lives for others.
• Better support for long COVID sufferers to return to work safely if they can, including a flexible approach to the use of workplace adjustments.

“One would think, given the circumstances under which we fell ill and current workforce shortages, NHS employers would be eager to do everything to facilitate the return to work of people with long COVID,” said Dr. Fearnley. “However, NHS employers are legally required to implement only ‘reasonable adjustments,’ and so things such as extended phased return or adjustments to shift patterns are not always being facilitated. Instead, an increasing number of employers are choosing to terminate contracts.”

Raymond Agius, the BMA’s occupational medicine committee cochair, also put the blame on inadequate safety measures for doctors. Those inadequate measures persist to this day, inasmuch as U.K. hospitals have dropped masking requirements.

“During the COVID-19 pandemic, doctors were left exposed and unprotected at work,” he said in a BMA press release. “They often did not have access to the right PPE. ... Too many risk assessments of workplaces and especially of vulnerable doctors were not undertaken.”

A small minority of doctors who were surveyed said they had access to respiratory protective equipment about the time they contracted COVID-19. Only 11% had access to an FFP2 respirator (the equivalent of an N95 mask); 16% had an FFP3 respirator (the equivalent of an N99 mask).

To date, the British government hasn’t issued much of a response to the survey, saying only that it has invested more than ₤50 million to better understand long COVID.

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

Crippling symptoms, lost careers, and eroded incomes: This is the harsh reality for doctors suffering with long COVID, according to the first major survey of physicians with the condition.

The survey, conducted by the British Medical Association and the Long COVID Doctors for Action support group, sheds light on the lingering effects of long COVID on more than 600 chronically ill and disabled doctors with the condition. It also spotlights what they describe as a lack of medical and financial support from their government and employers at the National Health Service.

“We feel betrayed and abandoned,” said Kelly Fearnley, MBChB, chair and cofounder of Long COVID Doctors for Action. “At a time of national crisis, when health care workers were asked to step up, we did. When the nation needed us, we stepped up. We put our lives on the line. We put our families’ lives on the line. And now that we are injured after knowingly being unprotected and deliberately and repeatedly exposed to a level 3 biohazard, we now find ourselves in this position.”

Dr. Fearnley fell ill while working in a hospital’s COVID ward in November 2020. She is one of an estimated 2 million people in the United Kingdom – including thousands of NHS employees – with long COVID. She hasn’t been able to return to work in nearly 3 years.

Long COVID affects more than 65 million people worldwide. It is estimated that 1 in 10 people infected with the virus develop long-term symptoms. In the United Kingdom, health care and social care workers are seven times more likely to have had severe COVID-19 than other types of employees.

Doctors responding to the BMA survey reported a wide range of long COVID symptoms, including fatigue, headaches, muscular pain, nerve damage, joint pain, and respiratory problems.

Among the survey’s key findings, 60% of doctors said long COVID has affected their ability to carry out day-to-day tasks on a regular basis. Almost one in five (18%) said they were no longer able to work, while fewer than one in three (31%) were working full time. This compares with more than half (57%) of respondents working full time before the onset of their COVID illness – a decline of 46%.

Nearly half (48%) of respondents said they have experienced some form of loss of earnings as a result of long COVID, and almost half of the doctors were never referred to an NHS long COVID clinic. The survey included the following first-person accounts from doctors living with the condition.

• One doctor said: “I nearly lost my life, my home, my partner and my career. I have received little support to help keep these. The impact on my mental health nearly cost [me] my life again.”
• A senior consulting physician commented: “Life is absolutely miserable. Every day is a struggle. I wake up exhausted, the insomnia and night terrors are horrendous as I live through my worst fears every night. Any activity such as eating meals, washing, etc., will mean I have to go to bed for a few hours. I am unable to look after myself or my child, exercise or maintain social relationships. I have no financial security. Long COVID has totally destroyed my life.”
• A salaried general practitioner said: “I can no longer work, finances are ruined. I didn’t have employment protection so am now unemployed and penniless.”

Calls for action from the BMA include the following:

• Financial support for doctors and health care staff with long COVID.
• The recognition of long COVID as an occupational disease among health care workers, along with a definition of the condition that covers all of the debilitating disease’s symptoms.
• Improved access to physical and mental health services to help comprehensive assessment, investigations, and treatment.
• Greater workplace protection for health care staff who risk their lives for others.
• Better support for long COVID sufferers to return to work safely if they can, including a flexible approach to the use of workplace adjustments.

“One would think, given the circumstances under which we fell ill and current workforce shortages, NHS employers would be eager to do everything to facilitate the return to work of people with long COVID,” said Dr. Fearnley. “However, NHS employers are legally required to implement only ‘reasonable adjustments,’ and so things such as extended phased return or adjustments to shift patterns are not always being facilitated. Instead, an increasing number of employers are choosing to terminate contracts.”

Raymond Agius, the BMA’s occupational medicine committee cochair, also put the blame on inadequate safety measures for doctors. Those inadequate measures persist to this day, inasmuch as U.K. hospitals have dropped masking requirements.

“During the COVID-19 pandemic, doctors were left exposed and unprotected at work,” he said in a BMA press release. “They often did not have access to the right PPE. ... Too many risk assessments of workplaces and especially of vulnerable doctors were not undertaken.”

A small minority of doctors who were surveyed said they had access to respiratory protective equipment about the time they contracted COVID-19. Only 11% had access to an FFP2 respirator (the equivalent of an N95 mask); 16% had an FFP3 respirator (the equivalent of an N99 mask).

To date, the British government hasn’t issued much of a response to the survey, saying only that it has invested more than ₤50 million to better understand long COVID.

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

The Centers for Disease Control and Prevention and the World Health Organization have dubbed the BA 2.86 variant of COVID-19 as a variant to watch. 

So far, only 26 cases of “Pirola,” as the new variant is being called, have been identified: 10 in Denmark, four each in Sweden and the United States, three in South Africa, two in Portugal, and one each the United Kingdom, Israel, and Canada. BA 2.86 is a subvariant of Omicron, but according to reports from the CDC, the strain has many more mutations than the ones that came before it. 

With so many facts still unknown about this new variant, this news organization asked experts what people need to be aware of as it continues to spread.
 

What is unique about the BA 2.86 variant? 

“It is unique in that it has more than three mutations on the spike protein,” said Purvi S. Parikh, MD, an infectious disease expert at New York University’s Langone Health. The virus uses the spike proteins to enter our cells. 

This “may mean it will be more transmissible, cause more severe disease, and/or our vaccines and treatments may not work as well, as compared to other variants,” she said.
 

What do we need to watch with BA 2.86 going forward? 

“We don’t know if this variant will be associated with a change in the disease severity. We currently see increased numbers of cases in general, even though we don’t yet see the BA.2.86 in our system,” said Heba Mostafa, PhD, director of the molecular virology laboratory at Johns Hopkins Hospital in Baltimore. 

“It is important to monitor BA.2.86 (and other variants) and understand how its evolution impacts the number of cases and disease outcomes,” she said. “We should all be aware of the current increase in cases, though, and try to get tested and be treated as soon as possible, as antivirals should be effective against the circulating variants.” 
 

What should doctors know?

Dr. Parikh said doctors should generally expect more COVID cases in their clinics and make sure to screen patients even if their symptoms are mild.

“We have tools that can be used – antivirals like Paxlovid are still efficacious with current dominant strains such as EG.5,” she said. “And encourage your patients to get their boosters, mask, wash hands, and social distance.”
 

How well can our vaccines fight BA 2.86?

“Vaccine coverage for the BA.2.86 is an area of uncertainty right now,” said Dr. Mostafa. 

In its report, the CDC said scientists are still figuring out how well the updated COVID vaccine works. It’s expected to be available in the fall, and for now, they believe the new shot will still make infections less severe, new variants and all. 

Prior vaccinations and infections have created antibodies in many people, and that will likely provide some protection, Dr. Mostafa said. “When we experienced the Omicron wave in December 2021, even though the variant was distant from what circulated before its emergence and was associated with a very large increase in the number of cases, vaccinations were still protective against severe disease.” 
 

What is the most important thing to keep track of when it comes to this variant?

According to Dr. Parikh, “it’s most important to monitor how transmissible [BA 2.86] is, how severe it is, and if our current treatments and vaccines work.” 

Dr. Mostafa said how well the new variants escape existing antibody protection should also be studied and watched closely. 
 

What does this stage of the virus mutation tell us about where we are in the pandemic?

The history of the coronavirus over the past few years shows that variants with many changes evolve and can spread very quickly, Dr. Mostafa said. “Now that the virus is endemic, it is essential to monitor, update vaccinations if necessary, diagnose, treat, and implement infection control measures when necessary.”

With the limited data we have so far, experts seem to agree that while the variant’s makeup raises some red flags, it is too soon to jump to any conclusions about how easy it is to catch it and the ways it may change how the virus impacts those who contract it.
 

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

The Centers for Disease Control and Prevention and the World Health Organization have dubbed the BA 2.86 variant of COVID-19 as a variant to watch. 

So far, only 26 cases of “Pirola,” as the new variant is being called, have been identified: 10 in Denmark, four each in Sweden and the United States, three in South Africa, two in Portugal, and one each the United Kingdom, Israel, and Canada. BA 2.86 is a subvariant of Omicron, but according to reports from the CDC, the strain has many more mutations than the ones that came before it. 

With so many facts still unknown about this new variant, this news organization asked experts what people need to be aware of as it continues to spread.
 

What is unique about the BA 2.86 variant? 

“It is unique in that it has more than three mutations on the spike protein,” said Purvi S. Parikh, MD, an infectious disease expert at New York University’s Langone Health. The virus uses the spike proteins to enter our cells. 

This “may mean it will be more transmissible, cause more severe disease, and/or our vaccines and treatments may not work as well, as compared to other variants,” she said.
 

What do we need to watch with BA 2.86 going forward? 

“We don’t know if this variant will be associated with a change in the disease severity. We currently see increased numbers of cases in general, even though we don’t yet see the BA.2.86 in our system,” said Heba Mostafa, PhD, director of the molecular virology laboratory at Johns Hopkins Hospital in Baltimore. 

“It is important to monitor BA.2.86 (and other variants) and understand how its evolution impacts the number of cases and disease outcomes,” she said. “We should all be aware of the current increase in cases, though, and try to get tested and be treated as soon as possible, as antivirals should be effective against the circulating variants.” 
 

What should doctors know?

Dr. Parikh said doctors should generally expect more COVID cases in their clinics and make sure to screen patients even if their symptoms are mild.

“We have tools that can be used – antivirals like Paxlovid are still efficacious with current dominant strains such as EG.5,” she said. “And encourage your patients to get their boosters, mask, wash hands, and social distance.”
 

How well can our vaccines fight BA 2.86?

“Vaccine coverage for the BA.2.86 is an area of uncertainty right now,” said Dr. Mostafa. 

In its report, the CDC said scientists are still figuring out how well the updated COVID vaccine works. It’s expected to be available in the fall, and for now, they believe the new shot will still make infections less severe, new variants and all. 

Prior vaccinations and infections have created antibodies in many people, and that will likely provide some protection, Dr. Mostafa said. “When we experienced the Omicron wave in December 2021, even though the variant was distant from what circulated before its emergence and was associated with a very large increase in the number of cases, vaccinations were still protective against severe disease.” 
 

What is the most important thing to keep track of when it comes to this variant?

According to Dr. Parikh, “it’s most important to monitor how transmissible [BA 2.86] is, how severe it is, and if our current treatments and vaccines work.” 

Dr. Mostafa said how well the new variants escape existing antibody protection should also be studied and watched closely. 
 

What does this stage of the virus mutation tell us about where we are in the pandemic?

The history of the coronavirus over the past few years shows that variants with many changes evolve and can spread very quickly, Dr. Mostafa said. “Now that the virus is endemic, it is essential to monitor, update vaccinations if necessary, diagnose, treat, and implement infection control measures when necessary.”

With the limited data we have so far, experts seem to agree that while the variant’s makeup raises some red flags, it is too soon to jump to any conclusions about how easy it is to catch it and the ways it may change how the virus impacts those who contract it.
 

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

The Centers for Disease Control and Prevention and the World Health Organization have dubbed the BA 2.86 variant of COVID-19 as a variant to watch. 

So far, only 26 cases of “Pirola,” as the new variant is being called, have been identified: 10 in Denmark, four each in Sweden and the United States, three in South Africa, two in Portugal, and one each the United Kingdom, Israel, and Canada. BA 2.86 is a subvariant of Omicron, but according to reports from the CDC, the strain has many more mutations than the ones that came before it. 

With so many facts still unknown about this new variant, this news organization asked experts what people need to be aware of as it continues to spread.
 

What is unique about the BA 2.86 variant? 

“It is unique in that it has more than three mutations on the spike protein,” said Purvi S. Parikh, MD, an infectious disease expert at New York University’s Langone Health. The virus uses the spike proteins to enter our cells. 

This “may mean it will be more transmissible, cause more severe disease, and/or our vaccines and treatments may not work as well, as compared to other variants,” she said.
 

What do we need to watch with BA 2.86 going forward? 

“We don’t know if this variant will be associated with a change in the disease severity. We currently see increased numbers of cases in general, even though we don’t yet see the BA.2.86 in our system,” said Heba Mostafa, PhD, director of the molecular virology laboratory at Johns Hopkins Hospital in Baltimore. 

“It is important to monitor BA.2.86 (and other variants) and understand how its evolution impacts the number of cases and disease outcomes,” she said. “We should all be aware of the current increase in cases, though, and try to get tested and be treated as soon as possible, as antivirals should be effective against the circulating variants.” 
 

What should doctors know?

Dr. Parikh said doctors should generally expect more COVID cases in their clinics and make sure to screen patients even if their symptoms are mild.

“We have tools that can be used – antivirals like Paxlovid are still efficacious with current dominant strains such as EG.5,” she said. “And encourage your patients to get their boosters, mask, wash hands, and social distance.”
 

How well can our vaccines fight BA 2.86?

“Vaccine coverage for the BA.2.86 is an area of uncertainty right now,” said Dr. Mostafa. 

In its report, the CDC said scientists are still figuring out how well the updated COVID vaccine works. It’s expected to be available in the fall, and for now, they believe the new shot will still make infections less severe, new variants and all. 

Prior vaccinations and infections have created antibodies in many people, and that will likely provide some protection, Dr. Mostafa said. “When we experienced the Omicron wave in December 2021, even though the variant was distant from what circulated before its emergence and was associated with a very large increase in the number of cases, vaccinations were still protective against severe disease.” 
 

What is the most important thing to keep track of when it comes to this variant?

According to Dr. Parikh, “it’s most important to monitor how transmissible [BA 2.86] is, how severe it is, and if our current treatments and vaccines work.” 

Dr. Mostafa said how well the new variants escape existing antibody protection should also be studied and watched closely. 
 

What does this stage of the virus mutation tell us about where we are in the pandemic?

The history of the coronavirus over the past few years shows that variants with many changes evolve and can spread very quickly, Dr. Mostafa said. “Now that the virus is endemic, it is essential to monitor, update vaccinations if necessary, diagnose, treat, and implement infection control measures when necessary.”

With the limited data we have so far, experts seem to agree that while the variant’s makeup raises some red flags, it is too soon to jump to any conclusions about how easy it is to catch it and the ways it may change how the virus impacts those who contract it.
 

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

COVID-19 hospitalizations have been on the rise for weeks as summer nears its end, but how concerned should you be? SARS-CoV-2, the virus behind COVID, continues to evolve and surprise us. So COVID transmission, hospitalization, and death rates can be difficult to predict. 

This news organization turned to the experts for their take on the current circulating virus, asking them to predict if we’ll be masking up again anytime soon, and what this fall and winter might look like, especially now that testing and vaccinations are no longer free of charge.
 

Question 1: Are you expecting an end-of-summer COVID wave to be substantial?

Eric Topol, MD: “This wave won’t likely be substantial and could be more of a ‘wavelet.’ I’m not thinking that physicians are too concerned,” said Dr. Topol, founder and director of Scripps Research Translational Institute in La Jolla, Calif. 

Thomas Gut, DO: “It’s always impossible to predict the severity of COVID waves. Although the virus has generally mutated in ways that favor easier transmission and milder illness, there have been a handful of surprising mutations that were more dangerous and deadly than the preceding strain,” said Dr. Gut, associate chair of medicine at Staten Island University Hospital/Northwell Health in New York.

Robert Atmar, MD: “I’ll start with the caveat that prognosticating for SARS-CoV-2 is a bit hazardous as we remain in unknown territory for some aspects of its epidemiology and evolution,” said Dr. Atmar, a professor of infectious diseases at Baylor College of Medicine in Houston. “It depends on your definition of substantial. We, at least in Houston, are already in the midst of a substantial surge in the burden of infection, at least as monitored through wastewater surveillance. The amount of virus in the wastewater already exceeds the peak level we saw last winter. That said, the increased infection burden has not translated into large increases in hospitalizations for COVID-19. Most persons hospitalized in our hospital are admitted with infection, not for the consequences of infection.”

Stuart Campbell Ray, MD: “It looks like there is a rise in infections, but the proportional rise in hospitalizations from severe cases is lower than in the past, suggesting that folks are protected by the immunity we’ve gained over the past few years through vaccination and prior infections. Of course, we should be thinking about how that applies to each of us – how recently we had a vaccine or COVID-19, and whether we might see more severe infections as immunity wanes,” said Dr. Ray, who is a professor of medicine in the division of infectious diseases at Johns Hopkins University in Baltimore. 

Question 2: Is a return to masks or mask mandates coming this fall or winter?

Dr. Topol: “Mandating masks doesn’t work very well, but we may see wide use again if a descendant of [variant] BA.2.86 takes off.”

Dr. Gut: “It’s difficult to predict if there are any mask mandates returning at any point. Ever since the Omicron strains emerged, COVID has been relatively mild, compared to previous strains, so there probably won’t be any plan to start masking in public unless a more deadly strain appears.”

Dr. Atmar: “I do not think we will see a return to mask mandates this fall or winter for a variety of reasons. The primary one is that I don’t think the public will accept mask mandates. However, I think masking can continue to be an adjunctive measure to enhance protection from infection, along with booster vaccination.”

Dr. Ray: “Some people will choose to wear masks during a surge, particularly in situations like commuting where they don’t interfere with what they’re doing. They will wear masks particularly if they want to avoid infection due to concerns about others they care about, disruption of work or travel plans, or concerns about long-term consequences of repeated COVID-19.”

Question 3: Now that COVID testing and vaccinations are no longer free of charge, how might that affect their use?

Dr. Topol: “It was already low, and this will undoubtedly further compromise their uptake.”

Dr. Gut: “I do expect that testing will become less common now that tests are no longer free. I’m sure there will be a lower amount of detection in patients with milder or asymptomatic disease compared to what we had previously.”

Dr. Atmar: “If there are out-of-pocket costs for the SARS-CoV-2 vaccine, or if the administrative paperwork attached to getting a vaccine is increased, the uptake of SARS-CoV-2 vaccines will likely decrease. It will be important to communicate to the populations targeted for vaccination the potential benefits of such vaccination.”

Dr. Ray: “A challenge with COVID-19, all along, has been disparities in access to care, and this will be worse without public support for prevention and testing. This applies to everyone but is especially burdensome for those who are often marginalized in our health care system and society in general. I hope that we’ll find ways to ensure that people who need tests and vaccinations are able to access them, as good health is in everyone’s interest.”

Question 4: Will the new vaccines against COVID work for the currently circulating variants?

Dr. Topol: “The XBB.1.5 boosters will be out Sept. 14. They should help versus EG.5.1 and FL.1.5.1. The FL.1.5.1 variant is gaining now.”

Dr. Gut: “In the next several weeks, we expect the newer monovalent XBB-based vaccines to be offered that offer good protection against current circulating COVID variants along with the new Eris variant.”

Dr. Atmar: “The vaccines are expected to induce immune responses to the currently circulating variants, most of which are strains that evolved from the vaccine strain. The vaccine is expected to be most effective in preventing severe illness and will likely be less effective in preventing infection and mild illness.”

Dr. Ray: “Yes, the updated vaccine design has a spike antigen (XBB.1.5) nearly identical to the current dominant variant (EG.5). Even as variants change, the boosters stimulate B cells and T cells to help protect in a way that is safer than getting COVID-19 infection.”

Question 5: Is there anything we should watch out for regarding the BA.2.86 variant in particular?

Dr. Topol: “The scenario could change if there are new functional mutations added to it.”

Dr. Gut: “BA.2.86 is still fairly uncommon and does not have much data to directly make any informed guesses. However, in general, people that have been exposed to more recent mutations of the COVID virus have been shown to have more protection from newer upcoming mutations. It’s fair to guess that people that have not had recent infection from COVID, or have not had a recent booster, are at higher risk for being infected by any XBB- or BA.2-based strains.”

Dr. Atmar: BA.2.86 has been designated as a variant under monitoring. We will want to see whether it becomes more common and if there are any unexpected characteristics associated with infection by this variant.”

Dr. Ray: “It’s still rare, but it’s been seen in geographically dispersed places, so it’s got legs. The question is how effectively it will bypass some of the immunity we’ve gained. T cells are likely to remain protective, because they target so many parts of the virus that change more slowly, but antibodies from B cells to spike protein may have more trouble recognizing BA.2.86, whether those antibodies were made to a vaccine or a prior variant.”

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

COVID-19 hospitalizations have been on the rise for weeks as summer nears its end, but how concerned should you be? SARS-CoV-2, the virus behind COVID, continues to evolve and surprise us. So COVID transmission, hospitalization, and death rates can be difficult to predict. 

This news organization turned to the experts for their take on the current circulating virus, asking them to predict if we’ll be masking up again anytime soon, and what this fall and winter might look like, especially now that testing and vaccinations are no longer free of charge.
 

Question 1: Are you expecting an end-of-summer COVID wave to be substantial?

Eric Topol, MD: “This wave won’t likely be substantial and could be more of a ‘wavelet.’ I’m not thinking that physicians are too concerned,” said Dr. Topol, founder and director of Scripps Research Translational Institute in La Jolla, Calif. 

Thomas Gut, DO: “It’s always impossible to predict the severity of COVID waves. Although the virus has generally mutated in ways that favor easier transmission and milder illness, there have been a handful of surprising mutations that were more dangerous and deadly than the preceding strain,” said Dr. Gut, associate chair of medicine at Staten Island University Hospital/Northwell Health in New York.

Robert Atmar, MD: “I’ll start with the caveat that prognosticating for SARS-CoV-2 is a bit hazardous as we remain in unknown territory for some aspects of its epidemiology and evolution,” said Dr. Atmar, a professor of infectious diseases at Baylor College of Medicine in Houston. “It depends on your definition of substantial. We, at least in Houston, are already in the midst of a substantial surge in the burden of infection, at least as monitored through wastewater surveillance. The amount of virus in the wastewater already exceeds the peak level we saw last winter. That said, the increased infection burden has not translated into large increases in hospitalizations for COVID-19. Most persons hospitalized in our hospital are admitted with infection, not for the consequences of infection.”

Stuart Campbell Ray, MD: “It looks like there is a rise in infections, but the proportional rise in hospitalizations from severe cases is lower than in the past, suggesting that folks are protected by the immunity we’ve gained over the past few years through vaccination and prior infections. Of course, we should be thinking about how that applies to each of us – how recently we had a vaccine or COVID-19, and whether we might see more severe infections as immunity wanes,” said Dr. Ray, who is a professor of medicine in the division of infectious diseases at Johns Hopkins University in Baltimore. 

Question 2: Is a return to masks or mask mandates coming this fall or winter?

Dr. Topol: “Mandating masks doesn’t work very well, but we may see wide use again if a descendant of [variant] BA.2.86 takes off.”

Dr. Gut: “It’s difficult to predict if there are any mask mandates returning at any point. Ever since the Omicron strains emerged, COVID has been relatively mild, compared to previous strains, so there probably won’t be any plan to start masking in public unless a more deadly strain appears.”

Dr. Atmar: “I do not think we will see a return to mask mandates this fall or winter for a variety of reasons. The primary one is that I don’t think the public will accept mask mandates. However, I think masking can continue to be an adjunctive measure to enhance protection from infection, along with booster vaccination.”

Dr. Ray: “Some people will choose to wear masks during a surge, particularly in situations like commuting where they don’t interfere with what they’re doing. They will wear masks particularly if they want to avoid infection due to concerns about others they care about, disruption of work or travel plans, or concerns about long-term consequences of repeated COVID-19.”

Question 3: Now that COVID testing and vaccinations are no longer free of charge, how might that affect their use?

Dr. Topol: “It was already low, and this will undoubtedly further compromise their uptake.”

Dr. Gut: “I do expect that testing will become less common now that tests are no longer free. I’m sure there will be a lower amount of detection in patients with milder or asymptomatic disease compared to what we had previously.”

Dr. Atmar: “If there are out-of-pocket costs for the SARS-CoV-2 vaccine, or if the administrative paperwork attached to getting a vaccine is increased, the uptake of SARS-CoV-2 vaccines will likely decrease. It will be important to communicate to the populations targeted for vaccination the potential benefits of such vaccination.”

Dr. Ray: “A challenge with COVID-19, all along, has been disparities in access to care, and this will be worse without public support for prevention and testing. This applies to everyone but is especially burdensome for those who are often marginalized in our health care system and society in general. I hope that we’ll find ways to ensure that people who need tests and vaccinations are able to access them, as good health is in everyone’s interest.”

Question 4: Will the new vaccines against COVID work for the currently circulating variants?

Dr. Topol: “The XBB.1.5 boosters will be out Sept. 14. They should help versus EG.5.1 and FL.1.5.1. The FL.1.5.1 variant is gaining now.”

Dr. Gut: “In the next several weeks, we expect the newer monovalent XBB-based vaccines to be offered that offer good protection against current circulating COVID variants along with the new Eris variant.”

Dr. Atmar: “The vaccines are expected to induce immune responses to the currently circulating variants, most of which are strains that evolved from the vaccine strain. The vaccine is expected to be most effective in preventing severe illness and will likely be less effective in preventing infection and mild illness.”

Dr. Ray: “Yes, the updated vaccine design has a spike antigen (XBB.1.5) nearly identical to the current dominant variant (EG.5). Even as variants change, the boosters stimulate B cells and T cells to help protect in a way that is safer than getting COVID-19 infection.”

Question 5: Is there anything we should watch out for regarding the BA.2.86 variant in particular?

Dr. Topol: “The scenario could change if there are new functional mutations added to it.”

Dr. Gut: “BA.2.86 is still fairly uncommon and does not have much data to directly make any informed guesses. However, in general, people that have been exposed to more recent mutations of the COVID virus have been shown to have more protection from newer upcoming mutations. It’s fair to guess that people that have not had recent infection from COVID, or have not had a recent booster, are at higher risk for being infected by any XBB- or BA.2-based strains.”

Dr. Atmar: BA.2.86 has been designated as a variant under monitoring. We will want to see whether it becomes more common and if there are any unexpected characteristics associated with infection by this variant.”

Dr. Ray: “It’s still rare, but it’s been seen in geographically dispersed places, so it’s got legs. The question is how effectively it will bypass some of the immunity we’ve gained. T cells are likely to remain protective, because they target so many parts of the virus that change more slowly, but antibodies from B cells to spike protein may have more trouble recognizing BA.2.86, whether those antibodies were made to a vaccine or a prior variant.”

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

COVID-19 hospitalizations have been on the rise for weeks as summer nears its end, but how concerned should you be? SARS-CoV-2, the virus behind COVID, continues to evolve and surprise us. So COVID transmission, hospitalization, and death rates can be difficult to predict. 

This news organization turned to the experts for their take on the current circulating virus, asking them to predict if we’ll be masking up again anytime soon, and what this fall and winter might look like, especially now that testing and vaccinations are no longer free of charge.
 

Question 1: Are you expecting an end-of-summer COVID wave to be substantial?

Eric Topol, MD: “This wave won’t likely be substantial and could be more of a ‘wavelet.’ I’m not thinking that physicians are too concerned,” said Dr. Topol, founder and director of Scripps Research Translational Institute in La Jolla, Calif. 

Thomas Gut, DO: “It’s always impossible to predict the severity of COVID waves. Although the virus has generally mutated in ways that favor easier transmission and milder illness, there have been a handful of surprising mutations that were more dangerous and deadly than the preceding strain,” said Dr. Gut, associate chair of medicine at Staten Island University Hospital/Northwell Health in New York.

Robert Atmar, MD: “I’ll start with the caveat that prognosticating for SARS-CoV-2 is a bit hazardous as we remain in unknown territory for some aspects of its epidemiology and evolution,” said Dr. Atmar, a professor of infectious diseases at Baylor College of Medicine in Houston. “It depends on your definition of substantial. We, at least in Houston, are already in the midst of a substantial surge in the burden of infection, at least as monitored through wastewater surveillance. The amount of virus in the wastewater already exceeds the peak level we saw last winter. That said, the increased infection burden has not translated into large increases in hospitalizations for COVID-19. Most persons hospitalized in our hospital are admitted with infection, not for the consequences of infection.”

Stuart Campbell Ray, MD: “It looks like there is a rise in infections, but the proportional rise in hospitalizations from severe cases is lower than in the past, suggesting that folks are protected by the immunity we’ve gained over the past few years through vaccination and prior infections. Of course, we should be thinking about how that applies to each of us – how recently we had a vaccine or COVID-19, and whether we might see more severe infections as immunity wanes,” said Dr. Ray, who is a professor of medicine in the division of infectious diseases at Johns Hopkins University in Baltimore. 

Question 2: Is a return to masks or mask mandates coming this fall or winter?

Dr. Topol: “Mandating masks doesn’t work very well, but we may see wide use again if a descendant of [variant] BA.2.86 takes off.”

Dr. Gut: “It’s difficult to predict if there are any mask mandates returning at any point. Ever since the Omicron strains emerged, COVID has been relatively mild, compared to previous strains, so there probably won’t be any plan to start masking in public unless a more deadly strain appears.”

Dr. Atmar: “I do not think we will see a return to mask mandates this fall or winter for a variety of reasons. The primary one is that I don’t think the public will accept mask mandates. However, I think masking can continue to be an adjunctive measure to enhance protection from infection, along with booster vaccination.”

Dr. Ray: “Some people will choose to wear masks during a surge, particularly in situations like commuting where they don’t interfere with what they’re doing. They will wear masks particularly if they want to avoid infection due to concerns about others they care about, disruption of work or travel plans, or concerns about long-term consequences of repeated COVID-19.”

Question 3: Now that COVID testing and vaccinations are no longer free of charge, how might that affect their use?

Dr. Topol: “It was already low, and this will undoubtedly further compromise their uptake.”

Dr. Gut: “I do expect that testing will become less common now that tests are no longer free. I’m sure there will be a lower amount of detection in patients with milder or asymptomatic disease compared to what we had previously.”

Dr. Atmar: “If there are out-of-pocket costs for the SARS-CoV-2 vaccine, or if the administrative paperwork attached to getting a vaccine is increased, the uptake of SARS-CoV-2 vaccines will likely decrease. It will be important to communicate to the populations targeted for vaccination the potential benefits of such vaccination.”

Dr. Ray: “A challenge with COVID-19, all along, has been disparities in access to care, and this will be worse without public support for prevention and testing. This applies to everyone but is especially burdensome for those who are often marginalized in our health care system and society in general. I hope that we’ll find ways to ensure that people who need tests and vaccinations are able to access them, as good health is in everyone’s interest.”

Question 4: Will the new vaccines against COVID work for the currently circulating variants?

Dr. Topol: “The XBB.1.5 boosters will be out Sept. 14. They should help versus EG.5.1 and FL.1.5.1. The FL.1.5.1 variant is gaining now.”

Dr. Gut: “In the next several weeks, we expect the newer monovalent XBB-based vaccines to be offered that offer good protection against current circulating COVID variants along with the new Eris variant.”

Dr. Atmar: “The vaccines are expected to induce immune responses to the currently circulating variants, most of which are strains that evolved from the vaccine strain. The vaccine is expected to be most effective in preventing severe illness and will likely be less effective in preventing infection and mild illness.”

Dr. Ray: “Yes, the updated vaccine design has a spike antigen (XBB.1.5) nearly identical to the current dominant variant (EG.5). Even as variants change, the boosters stimulate B cells and T cells to help protect in a way that is safer than getting COVID-19 infection.”

Question 5: Is there anything we should watch out for regarding the BA.2.86 variant in particular?

Dr. Topol: “The scenario could change if there are new functional mutations added to it.”

Dr. Gut: “BA.2.86 is still fairly uncommon and does not have much data to directly make any informed guesses. However, in general, people that have been exposed to more recent mutations of the COVID virus have been shown to have more protection from newer upcoming mutations. It’s fair to guess that people that have not had recent infection from COVID, or have not had a recent booster, are at higher risk for being infected by any XBB- or BA.2-based strains.”

Dr. Atmar: BA.2.86 has been designated as a variant under monitoring. We will want to see whether it becomes more common and if there are any unexpected characteristics associated with infection by this variant.”

Dr. Ray: “It’s still rare, but it’s been seen in geographically dispersed places, so it’s got legs. The question is how effectively it will bypass some of the immunity we’ve gained. T cells are likely to remain protective, because they target so many parts of the virus that change more slowly, but antibodies from B cells to spike protein may have more trouble recognizing BA.2.86, whether those antibodies were made to a vaccine or a prior variant.”

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