Covid ICYMI

A treatment used to treat acute COVID-19 infection has also been found to be effective against long COVID, a new small study has found. The research, which assessed the benefits of monoclonal antibodies, suggests relief may finally be ahead for millions of Americans with long COVID for whom treatment has remained elusive.

The study, published in the American Journal of Emergency Medicine, found three Florida patients with long COVID made complete — and sudden — recoveries after they were given the monoclonal antibody cocktail casirivimab/imdevimab (Regeneron).

“We were struck by how rapid and complete the remissions were,” said study coauthor Paul Pepe, MD, MPH, a professor of management, policy, and community health at the School of Public Health at the University of Texas Health Sciences Center. “We found that no matter how long the patients were sick for — whether it was 5, 8, or 18 months — within 5 days, they appeared to be completely cured.”

All three patients had been initially infected with COVID-19 early in the pandemic, in 2020 or the first half of 2021. They were given Regeneron either after a reinfection or exposure to COVID-19, as a preventative, at state-run COVID clinics in Florida.

“In each case, the infusions were given to help prevent their long COVID from worsening,” said Dr. Pepe.

The researchers collected medical histories for all three patients, asking about symptoms such as physical fatigue, exercise intolerance, chest pain, heart palpitations, shortness of breath, cognitive fatigue, and memory problems. They asked patients to rate symptoms pre-COVID (baseline), during the long COVID phase, post-vaccine, and finally a week after their monoclonal antibody treatment. They also interviewed family members.

They found that across the board, symptoms improved significantly and often completely vanished. Their loved ones corroborated these reports as well.

One of the patients, a 63-year-old Floridian woman, came down with a mild case of COVID-19 at the start of the pandemic in March 2020 that lasted about 2 weeks. But several weeks later, she developed extreme, debilitating fatigue, along with chest pain and shortness of breath.

“I was chasing my 6-pound Yorkie one day after she got loose, and I was struck with such intense chest pain I fell down,” the woman, asking not to be identified, said in an interview.

Her symptoms progressed to the point where she no longer felt safe babysitting her grandchildren or driving to the grocery store.

“My short-term memory was completely gone. I couldn’t even read more than a paragraph at a time,” she said.

When she was exposed to COVID-19 in October 2021, her doctor suggested Regeneron as a preventative. She agreed to it.

“I was terrified that a second round would leave me permanently disabled and stuck in bed for the rest of my life,” she said.

About 4 days after her monoclonal antibody treatment, she noticed that some of the brain fog that had persisted after COVID was lifting.

“By day 5, it felt almost like a heavy-weighted blanket had been lifted off of me,” she recalled. “I was able to take my dog for a walk and go to the grocery store. It felt like I had gone from 0 to 100. As quickly as I went downhill, I quickly went back up.”

Reasons for Recovery

Researchers have come up with a few theories about why monoclonal antibodies may help treat long COVID, said study coauthor Aileen Marty, MD, professor of translational medicine at the Herbert Wertheim College of Medicine at Florida International University. Among them:

• It stimulates the body to fight off any residual virus. “We suspect that many of these patients simply have levels of virus that are so low they can’t be picked up by conventional testing,” said Dr. Marty. “The virus lingers in their body and causes long COVID symptoms. The monoclonal antibodies can zero in on them and knock them out.” This may also help explain why some patients with long COVID reported a temporary improvement of symptoms after their COVID-19 vaccination.
• It combats dysfunctional antibodies. Another theory is that people with long COVID have symptoms “not because of residual virus but because of junky antibodies,” said Dr. Marty. These antibodies go into overdrive and attack your own cells, which is what causes long COVID symptoms. “This may be why monoclonal antibodies work because they displace the dysfunctional antibodies that are attached to a patient’s cells,” she explained.
• Reactivation of other viruses. Long COVID is very similar to chronic fatigue syndrome, which is often thought to be triggered by reactivation of viruses like the Epstein-Barr virus, noted coauthor Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University in Fort Lauderdale. “It may not explain all of the cases of long COVID, but it could make up a subgroup,” she said. It’s thought that the monoclonal antibodies may perhaps neutralize this reactivation.

Where Research Is Headed

While Regeneron worked well in all three patients, it may be because they developed long COVID from either the initial virus or from early variants like Alpha, Beta, and Delta, said Dr. Pepe. As a result, it’s unclear whether this treatment would work for patients who developed long COVID from newer strains like Omicron.

“What concerns me is I believe there may be many people walking around with mild long COVID from these strains who don’t realize it,” he said. “They may assume that if they have difficulty walking upstairs, or forget why they went into another room, that it’s age related.”

The next step, the researchers said, is to create a registry of volunteer patients with severe long COVID. Dr. Klimas plans to enroll 20 volunteers who were infected before September 2022 to see how they respond to another monoclonal antibody initially used to treat COVID-19, bebtelovimab. (Like Regeneron, bebtelovimab is no longer approved for use against COVID-19 by the US Food and Drug Administration because it is no longer effective against variants of the virus circulating today.)

As for patients who developed long COVID after September 2022, research is ongoing to see if they respond to other monoclonal antibodies that are in development. One such study is currently enrolling participants at the University of California San Francisco. The center is recruiting 30 patients with long COVID to try a monoclonal antibody developed by Aerium Therapeutics.

“They created an investigational monoclonal antibody to treat acute COVID, but it proved less effective against variants that emerged in late 2022,” said lead investigator Michael Peluso, MD, an assistant professor of medicine in the Division of HIV, Infectious Diseases, and Global Medicine at the University of California San Francisco. The hope is it may still work to fight long COVID among patients infected with those variants.

In the meantime, the three patients with long COVID who responded to Regeneron have resumed life as they knew it pre-COVID. Although two subsequently became infected with COVID again, they recovered quickly and did not see symptoms return, something which, for them, seems nothing short of miraculous.

“I had prepared myself to be disabled for life,” said one of the patients, a 46-year-old Floridian woman who developed long COVID after an infection in January 2021. “I had crippling fatigue and dizziness so intense I felt like I was walking on a trampoline. My brain fog was so pronounced I had to write everything down constantly. Otherwise, I’d forget.”

When she became infected with COVID again in September 2021, “I thought I was going to die because I had no idea how I could possibly get worse,” she recalled. Her doctors recommended Regeneron infusion treatment. Forty-eight hours later, her symptoms improved significantly.

“I was able to go out to a cocktail party and dinner for the first time in months,” she said. “I would not have been able to do either of those things a week before.”

It’s also profoundly affected her husband, who had had to take over running the household and raising their five children, aged 11-22 years, for months.

“I can’t tell you how many school events and sports games I missed because I physically didn’t have the strength to get to them,” she noted. “To this day, my husband gets upset whenever we talk about that time. Long COVID literally took over all of our lives. It was devastating to me, but it’s just as devastating for loved ones, too. My family is just grateful to have me back.”

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

A treatment used to treat acute COVID-19 infection has also been found to be effective against long COVID, a new small study has found. The research, which assessed the benefits of monoclonal antibodies, suggests relief may finally be ahead for millions of Americans with long COVID for whom treatment has remained elusive.

The study, published in the American Journal of Emergency Medicine, found three Florida patients with long COVID made complete — and sudden — recoveries after they were given the monoclonal antibody cocktail casirivimab/imdevimab (Regeneron).

“We were struck by how rapid and complete the remissions were,” said study coauthor Paul Pepe, MD, MPH, a professor of management, policy, and community health at the School of Public Health at the University of Texas Health Sciences Center. “We found that no matter how long the patients were sick for — whether it was 5, 8, or 18 months — within 5 days, they appeared to be completely cured.”

All three patients had been initially infected with COVID-19 early in the pandemic, in 2020 or the first half of 2021. They were given Regeneron either after a reinfection or exposure to COVID-19, as a preventative, at state-run COVID clinics in Florida.

“In each case, the infusions were given to help prevent their long COVID from worsening,” said Dr. Pepe.

The researchers collected medical histories for all three patients, asking about symptoms such as physical fatigue, exercise intolerance, chest pain, heart palpitations, shortness of breath, cognitive fatigue, and memory problems. They asked patients to rate symptoms pre-COVID (baseline), during the long COVID phase, post-vaccine, and finally a week after their monoclonal antibody treatment. They also interviewed family members.

They found that across the board, symptoms improved significantly and often completely vanished. Their loved ones corroborated these reports as well.

One of the patients, a 63-year-old Floridian woman, came down with a mild case of COVID-19 at the start of the pandemic in March 2020 that lasted about 2 weeks. But several weeks later, she developed extreme, debilitating fatigue, along with chest pain and shortness of breath.

“I was chasing my 6-pound Yorkie one day after she got loose, and I was struck with such intense chest pain I fell down,” the woman, asking not to be identified, said in an interview.

Her symptoms progressed to the point where she no longer felt safe babysitting her grandchildren or driving to the grocery store.

“My short-term memory was completely gone. I couldn’t even read more than a paragraph at a time,” she said.

When she was exposed to COVID-19 in October 2021, her doctor suggested Regeneron as a preventative. She agreed to it.

“I was terrified that a second round would leave me permanently disabled and stuck in bed for the rest of my life,” she said.

About 4 days after her monoclonal antibody treatment, she noticed that some of the brain fog that had persisted after COVID was lifting.

“By day 5, it felt almost like a heavy-weighted blanket had been lifted off of me,” she recalled. “I was able to take my dog for a walk and go to the grocery store. It felt like I had gone from 0 to 100. As quickly as I went downhill, I quickly went back up.”

Reasons for Recovery

Researchers have come up with a few theories about why monoclonal antibodies may help treat long COVID, said study coauthor Aileen Marty, MD, professor of translational medicine at the Herbert Wertheim College of Medicine at Florida International University. Among them:

• It stimulates the body to fight off any residual virus. “We suspect that many of these patients simply have levels of virus that are so low they can’t be picked up by conventional testing,” said Dr. Marty. “The virus lingers in their body and causes long COVID symptoms. The monoclonal antibodies can zero in on them and knock them out.” This may also help explain why some patients with long COVID reported a temporary improvement of symptoms after their COVID-19 vaccination.
• It combats dysfunctional antibodies. Another theory is that people with long COVID have symptoms “not because of residual virus but because of junky antibodies,” said Dr. Marty. These antibodies go into overdrive and attack your own cells, which is what causes long COVID symptoms. “This may be why monoclonal antibodies work because they displace the dysfunctional antibodies that are attached to a patient’s cells,” she explained.
• Reactivation of other viruses. Long COVID is very similar to chronic fatigue syndrome, which is often thought to be triggered by reactivation of viruses like the Epstein-Barr virus, noted coauthor Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University in Fort Lauderdale. “It may not explain all of the cases of long COVID, but it could make up a subgroup,” she said. It’s thought that the monoclonal antibodies may perhaps neutralize this reactivation.

Where Research Is Headed

While Regeneron worked well in all three patients, it may be because they developed long COVID from either the initial virus or from early variants like Alpha, Beta, and Delta, said Dr. Pepe. As a result, it’s unclear whether this treatment would work for patients who developed long COVID from newer strains like Omicron.

“What concerns me is I believe there may be many people walking around with mild long COVID from these strains who don’t realize it,” he said. “They may assume that if they have difficulty walking upstairs, or forget why they went into another room, that it’s age related.”

The next step, the researchers said, is to create a registry of volunteer patients with severe long COVID. Dr. Klimas plans to enroll 20 volunteers who were infected before September 2022 to see how they respond to another monoclonal antibody initially used to treat COVID-19, bebtelovimab. (Like Regeneron, bebtelovimab is no longer approved for use against COVID-19 by the US Food and Drug Administration because it is no longer effective against variants of the virus circulating today.)

As for patients who developed long COVID after September 2022, research is ongoing to see if they respond to other monoclonal antibodies that are in development. One such study is currently enrolling participants at the University of California San Francisco. The center is recruiting 30 patients with long COVID to try a monoclonal antibody developed by Aerium Therapeutics.

“They created an investigational monoclonal antibody to treat acute COVID, but it proved less effective against variants that emerged in late 2022,” said lead investigator Michael Peluso, MD, an assistant professor of medicine in the Division of HIV, Infectious Diseases, and Global Medicine at the University of California San Francisco. The hope is it may still work to fight long COVID among patients infected with those variants.

In the meantime, the three patients with long COVID who responded to Regeneron have resumed life as they knew it pre-COVID. Although two subsequently became infected with COVID again, they recovered quickly and did not see symptoms return, something which, for them, seems nothing short of miraculous.

“I had prepared myself to be disabled for life,” said one of the patients, a 46-year-old Floridian woman who developed long COVID after an infection in January 2021. “I had crippling fatigue and dizziness so intense I felt like I was walking on a trampoline. My brain fog was so pronounced I had to write everything down constantly. Otherwise, I’d forget.”

When she became infected with COVID again in September 2021, “I thought I was going to die because I had no idea how I could possibly get worse,” she recalled. Her doctors recommended Regeneron infusion treatment. Forty-eight hours later, her symptoms improved significantly.

“I was able to go out to a cocktail party and dinner for the first time in months,” she said. “I would not have been able to do either of those things a week before.”

It’s also profoundly affected her husband, who had had to take over running the household and raising their five children, aged 11-22 years, for months.

“I can’t tell you how many school events and sports games I missed because I physically didn’t have the strength to get to them,” she noted. “To this day, my husband gets upset whenever we talk about that time. Long COVID literally took over all of our lives. It was devastating to me, but it’s just as devastating for loved ones, too. My family is just grateful to have me back.”

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

A treatment used to treat acute COVID-19 infection has also been found to be effective against long COVID, a new small study has found. The research, which assessed the benefits of monoclonal antibodies, suggests relief may finally be ahead for millions of Americans with long COVID for whom treatment has remained elusive.

The study, published in the American Journal of Emergency Medicine, found three Florida patients with long COVID made complete — and sudden — recoveries after they were given the monoclonal antibody cocktail casirivimab/imdevimab (Regeneron).

“We were struck by how rapid and complete the remissions were,” said study coauthor Paul Pepe, MD, MPH, a professor of management, policy, and community health at the School of Public Health at the University of Texas Health Sciences Center. “We found that no matter how long the patients were sick for — whether it was 5, 8, or 18 months — within 5 days, they appeared to be completely cured.”

All three patients had been initially infected with COVID-19 early in the pandemic, in 2020 or the first half of 2021. They were given Regeneron either after a reinfection or exposure to COVID-19, as a preventative, at state-run COVID clinics in Florida.

“In each case, the infusions were given to help prevent their long COVID from worsening,” said Dr. Pepe.

The researchers collected medical histories for all three patients, asking about symptoms such as physical fatigue, exercise intolerance, chest pain, heart palpitations, shortness of breath, cognitive fatigue, and memory problems. They asked patients to rate symptoms pre-COVID (baseline), during the long COVID phase, post-vaccine, and finally a week after their monoclonal antibody treatment. They also interviewed family members.

They found that across the board, symptoms improved significantly and often completely vanished. Their loved ones corroborated these reports as well.

One of the patients, a 63-year-old Floridian woman, came down with a mild case of COVID-19 at the start of the pandemic in March 2020 that lasted about 2 weeks. But several weeks later, she developed extreme, debilitating fatigue, along with chest pain and shortness of breath.

“I was chasing my 6-pound Yorkie one day after she got loose, and I was struck with such intense chest pain I fell down,” the woman, asking not to be identified, said in an interview.

Her symptoms progressed to the point where she no longer felt safe babysitting her grandchildren or driving to the grocery store.

“My short-term memory was completely gone. I couldn’t even read more than a paragraph at a time,” she said.

When she was exposed to COVID-19 in October 2021, her doctor suggested Regeneron as a preventative. She agreed to it.

“I was terrified that a second round would leave me permanently disabled and stuck in bed for the rest of my life,” she said.

About 4 days after her monoclonal antibody treatment, she noticed that some of the brain fog that had persisted after COVID was lifting.

“By day 5, it felt almost like a heavy-weighted blanket had been lifted off of me,” she recalled. “I was able to take my dog for a walk and go to the grocery store. It felt like I had gone from 0 to 100. As quickly as I went downhill, I quickly went back up.”

Reasons for Recovery

Researchers have come up with a few theories about why monoclonal antibodies may help treat long COVID, said study coauthor Aileen Marty, MD, professor of translational medicine at the Herbert Wertheim College of Medicine at Florida International University. Among them:

• It stimulates the body to fight off any residual virus. “We suspect that many of these patients simply have levels of virus that are so low they can’t be picked up by conventional testing,” said Dr. Marty. “The virus lingers in their body and causes long COVID symptoms. The monoclonal antibodies can zero in on them and knock them out.” This may also help explain why some patients with long COVID reported a temporary improvement of symptoms after their COVID-19 vaccination.
• It combats dysfunctional antibodies. Another theory is that people with long COVID have symptoms “not because of residual virus but because of junky antibodies,” said Dr. Marty. These antibodies go into overdrive and attack your own cells, which is what causes long COVID symptoms. “This may be why monoclonal antibodies work because they displace the dysfunctional antibodies that are attached to a patient’s cells,” she explained.
• Reactivation of other viruses. Long COVID is very similar to chronic fatigue syndrome, which is often thought to be triggered by reactivation of viruses like the Epstein-Barr virus, noted coauthor Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University in Fort Lauderdale. “It may not explain all of the cases of long COVID, but it could make up a subgroup,” she said. It’s thought that the monoclonal antibodies may perhaps neutralize this reactivation.

Where Research Is Headed

While Regeneron worked well in all three patients, it may be because they developed long COVID from either the initial virus or from early variants like Alpha, Beta, and Delta, said Dr. Pepe. As a result, it’s unclear whether this treatment would work for patients who developed long COVID from newer strains like Omicron.

“What concerns me is I believe there may be many people walking around with mild long COVID from these strains who don’t realize it,” he said. “They may assume that if they have difficulty walking upstairs, or forget why they went into another room, that it’s age related.”

The next step, the researchers said, is to create a registry of volunteer patients with severe long COVID. Dr. Klimas plans to enroll 20 volunteers who were infected before September 2022 to see how they respond to another monoclonal antibody initially used to treat COVID-19, bebtelovimab. (Like Regeneron, bebtelovimab is no longer approved for use against COVID-19 by the US Food and Drug Administration because it is no longer effective against variants of the virus circulating today.)

As for patients who developed long COVID after September 2022, research is ongoing to see if they respond to other monoclonal antibodies that are in development. One such study is currently enrolling participants at the University of California San Francisco. The center is recruiting 30 patients with long COVID to try a monoclonal antibody developed by Aerium Therapeutics.

“They created an investigational monoclonal antibody to treat acute COVID, but it proved less effective against variants that emerged in late 2022,” said lead investigator Michael Peluso, MD, an assistant professor of medicine in the Division of HIV, Infectious Diseases, and Global Medicine at the University of California San Francisco. The hope is it may still work to fight long COVID among patients infected with those variants.

In the meantime, the three patients with long COVID who responded to Regeneron have resumed life as they knew it pre-COVID. Although two subsequently became infected with COVID again, they recovered quickly and did not see symptoms return, something which, for them, seems nothing short of miraculous.

“I had prepared myself to be disabled for life,” said one of the patients, a 46-year-old Floridian woman who developed long COVID after an infection in January 2021. “I had crippling fatigue and dizziness so intense I felt like I was walking on a trampoline. My brain fog was so pronounced I had to write everything down constantly. Otherwise, I’d forget.”

When she became infected with COVID again in September 2021, “I thought I was going to die because I had no idea how I could possibly get worse,” she recalled. Her doctors recommended Regeneron infusion treatment. Forty-eight hours later, her symptoms improved significantly.

“I was able to go out to a cocktail party and dinner for the first time in months,” she said. “I would not have been able to do either of those things a week before.”

It’s also profoundly affected her husband, who had had to take over running the household and raising their five children, aged 11-22 years, for months.

“I can’t tell you how many school events and sports games I missed because I physically didn’t have the strength to get to them,” she noted. “To this day, my husband gets upset whenever we talk about that time. Long COVID literally took over all of our lives. It was devastating to me, but it’s just as devastating for loved ones, too. My family is just grateful to have me back.”

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

The World Health Organization called the COVID-19 variant JN.1 a standalone “variant of interest” and said JN.1 will drive an increase in cases of the virus, the global health agency has announced.

JN.1 was previously grouped with its relative, BA.2.86, but has increased so much in the past 4 weeks that the WHO moved it to standalone status, according to a summary published by the agency. The prevalence of JN.1 worldwide jumped from 3% for the week ending November 5 to 27% for the week ending December 3. During that same period, JN.1 rose from 1% to 66% of cases in the Western Pacific, which stretches across 37 countries, from China and Mongolia to Australia and New Zealand.

In the United States, JN.1 has been increasing rapidly. The variant accounted for an estimated 21% of cases for the 2-week period ending December 9, up from 8% during the 2 weeks prior.

SARS-CoV-2 is the virus that causes COVID, and like other viruses, it evolves over time, sometimes changing how the virus affects people or how well existing treatments and vaccines work against it.

The WHO and CDC have said the current COVID vaccine appears to protect people against severe symptoms due to JN.1, and the WHO called the rising variant’s public health risk “low.”

“As we observe the rise of the JN.1 variant, it’s important to note that while it may be spreading more widely, there is currently no significant evidence suggesting it is more severe or that it poses a substantial public health risk,” John Brownstein, PhD, chief innovation officer at Boston Children’s Hospital, told ABC News.

In its recent risk analysis, the WHO did acknowledge that it’s not certain whether JN.1 has a higher risk of evading immunity or causing more severe symptoms than other strains. The WHO advised countries to further study how much JN.1 can evade existing antibodies and whether the variant results in more severe disease.

The latest CDC data show that 11% of COVID tests reported to the agency are positive, and 23,432 people were hospitalized with severe symptoms within a 7-day period. The CDC urgently asked people to get vaccinated against respiratory illnesses like the flu and COVID-19 ahead of the holidays as cases rise nationwide.

“Getting vaccinated now can help prevent hospitalizations and save lives,” the agency advised.


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

The World Health Organization called the COVID-19 variant JN.1 a standalone “variant of interest” and said JN.1 will drive an increase in cases of the virus, the global health agency has announced.

JN.1 was previously grouped with its relative, BA.2.86, but has increased so much in the past 4 weeks that the WHO moved it to standalone status, according to a summary published by the agency. The prevalence of JN.1 worldwide jumped from 3% for the week ending November 5 to 27% for the week ending December 3. During that same period, JN.1 rose from 1% to 66% of cases in the Western Pacific, which stretches across 37 countries, from China and Mongolia to Australia and New Zealand.

In the United States, JN.1 has been increasing rapidly. The variant accounted for an estimated 21% of cases for the 2-week period ending December 9, up from 8% during the 2 weeks prior.

SARS-CoV-2 is the virus that causes COVID, and like other viruses, it evolves over time, sometimes changing how the virus affects people or how well existing treatments and vaccines work against it.

The WHO and CDC have said the current COVID vaccine appears to protect people against severe symptoms due to JN.1, and the WHO called the rising variant’s public health risk “low.”

“As we observe the rise of the JN.1 variant, it’s important to note that while it may be spreading more widely, there is currently no significant evidence suggesting it is more severe or that it poses a substantial public health risk,” John Brownstein, PhD, chief innovation officer at Boston Children’s Hospital, told ABC News.

In its recent risk analysis, the WHO did acknowledge that it’s not certain whether JN.1 has a higher risk of evading immunity or causing more severe symptoms than other strains. The WHO advised countries to further study how much JN.1 can evade existing antibodies and whether the variant results in more severe disease.

The latest CDC data show that 11% of COVID tests reported to the agency are positive, and 23,432 people were hospitalized with severe symptoms within a 7-day period. The CDC urgently asked people to get vaccinated against respiratory illnesses like the flu and COVID-19 ahead of the holidays as cases rise nationwide.

“Getting vaccinated now can help prevent hospitalizations and save lives,” the agency advised.


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

The World Health Organization called the COVID-19 variant JN.1 a standalone “variant of interest” and said JN.1 will drive an increase in cases of the virus, the global health agency has announced.

JN.1 was previously grouped with its relative, BA.2.86, but has increased so much in the past 4 weeks that the WHO moved it to standalone status, according to a summary published by the agency. The prevalence of JN.1 worldwide jumped from 3% for the week ending November 5 to 27% for the week ending December 3. During that same period, JN.1 rose from 1% to 66% of cases in the Western Pacific, which stretches across 37 countries, from China and Mongolia to Australia and New Zealand.

In the United States, JN.1 has been increasing rapidly. The variant accounted for an estimated 21% of cases for the 2-week period ending December 9, up from 8% during the 2 weeks prior.

SARS-CoV-2 is the virus that causes COVID, and like other viruses, it evolves over time, sometimes changing how the virus affects people or how well existing treatments and vaccines work against it.

The WHO and CDC have said the current COVID vaccine appears to protect people against severe symptoms due to JN.1, and the WHO called the rising variant’s public health risk “low.”

“As we observe the rise of the JN.1 variant, it’s important to note that while it may be spreading more widely, there is currently no significant evidence suggesting it is more severe or that it poses a substantial public health risk,” John Brownstein, PhD, chief innovation officer at Boston Children’s Hospital, told ABC News.

In its recent risk analysis, the WHO did acknowledge that it’s not certain whether JN.1 has a higher risk of evading immunity or causing more severe symptoms than other strains. The WHO advised countries to further study how much JN.1 can evade existing antibodies and whether the variant results in more severe disease.

The latest CDC data show that 11% of COVID tests reported to the agency are positive, and 23,432 people were hospitalized with severe symptoms within a 7-day period. The CDC urgently asked people to get vaccinated against respiratory illnesses like the flu and COVID-19 ahead of the holidays as cases rise nationwide.

“Getting vaccinated now can help prevent hospitalizations and save lives,” the agency advised.


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

The U.S. government has expanded a program offering free COVID-19 and flu tests and treatment.

The Home Test to Treat program is virtual and offers at-home rapid tests, telehealth sessions, and at-home treatments to people nationwide. The program is a collaboration among the National Institutes of Health, the Administration for Strategic Preparedness and Response, and the CDC. It began as a pilot program in some locations this year.

“With its expansion, the Home Test to Treat program will now offer free testing, telehealth and treatment for both COVID-19 and for influenza (flu) A and B,” the NIH said in a press release. “It is the first public health program that includes home testing technology at such a scale for both COVID-19 and flu.”

The news release says that anyone 18 or over with a current positive test for COVID-19 or flu can get free telehealth care and medicine delivered to their home.

Adults who don’t have COVID-19 or the flu can get free tests if they are uninsured or are enrolled in Medicare, Medicaid, the Veterans Affairs health care system, or Indian Health Services. If they test positive later, they can get free telehealth care and, if prescribed, treatment.

“I think that these [telehealth] delivery mechanisms are going to be absolutely crucial to unburden the in-person offices and the lines that we have and wait times,” said Michael Mina, MD, chief science officer at eMed, the company that helped implement the new Home Test to Treat program, to ABC News.

ABC notes that COVID tests can also be ordered at covidtests.gov – four tests per household or eight for those who have yet to order any this fall.

A version of this article appeared on WebMD.com .

The U.S. government has expanded a program offering free COVID-19 and flu tests and treatment.

The Home Test to Treat program is virtual and offers at-home rapid tests, telehealth sessions, and at-home treatments to people nationwide. The program is a collaboration among the National Institutes of Health, the Administration for Strategic Preparedness and Response, and the CDC. It began as a pilot program in some locations this year.

“With its expansion, the Home Test to Treat program will now offer free testing, telehealth and treatment for both COVID-19 and for influenza (flu) A and B,” the NIH said in a press release. “It is the first public health program that includes home testing technology at such a scale for both COVID-19 and flu.”

The news release says that anyone 18 or over with a current positive test for COVID-19 or flu can get free telehealth care and medicine delivered to their home.

Adults who don’t have COVID-19 or the flu can get free tests if they are uninsured or are enrolled in Medicare, Medicaid, the Veterans Affairs health care system, or Indian Health Services. If they test positive later, they can get free telehealth care and, if prescribed, treatment.

“I think that these [telehealth] delivery mechanisms are going to be absolutely crucial to unburden the in-person offices and the lines that we have and wait times,” said Michael Mina, MD, chief science officer at eMed, the company that helped implement the new Home Test to Treat program, to ABC News.

ABC notes that COVID tests can also be ordered at covidtests.gov – four tests per household or eight for those who have yet to order any this fall.

A version of this article appeared on WebMD.com .

The U.S. government has expanded a program offering free COVID-19 and flu tests and treatment.

The Home Test to Treat program is virtual and offers at-home rapid tests, telehealth sessions, and at-home treatments to people nationwide. The program is a collaboration among the National Institutes of Health, the Administration for Strategic Preparedness and Response, and the CDC. It began as a pilot program in some locations this year.

“With its expansion, the Home Test to Treat program will now offer free testing, telehealth and treatment for both COVID-19 and for influenza (flu) A and B,” the NIH said in a press release. “It is the first public health program that includes home testing technology at such a scale for both COVID-19 and flu.”

The news release says that anyone 18 or over with a current positive test for COVID-19 or flu can get free telehealth care and medicine delivered to their home.

Adults who don’t have COVID-19 or the flu can get free tests if they are uninsured or are enrolled in Medicare, Medicaid, the Veterans Affairs health care system, or Indian Health Services. If they test positive later, they can get free telehealth care and, if prescribed, treatment.

“I think that these [telehealth] delivery mechanisms are going to be absolutely crucial to unburden the in-person offices and the lines that we have and wait times,” said Michael Mina, MD, chief science officer at eMed, the company that helped implement the new Home Test to Treat program, to ABC News.

ABC notes that COVID tests can also be ordered at covidtests.gov – four tests per household or eight for those who have yet to order any this fall.

A version of this article appeared on WebMD.com .

No one planning holiday gatherings or travel wants to hear this, but the rise of a new COVID-19 variant, JN.1, is concerning experts, who say it may threaten those good times. 

The good news is recent research suggests the 2023-2024 COVID-19 vaccine appears to work against this newest variant. But so few people have gotten the latest vaccine — less than 16% of U.S. adults — that some experts suggest it’s time for the CDC to urge the public who haven’t it to do so now, so the antibodies can kick in before the festivities.

“A significant wave [of JN.1] has started here and could be blunted with a high booster rate and mitigation measures,” said Eric Topol, MD, professor and executive vice president of Scripps Research in La Jolla, CA, and editor-in-chief of Medscape, a sister site of this news organization.

COVID metrics, meanwhile, have started to climb again. Nearly 10,000 people were hospitalized for COVID in the U.S. for the week ending Nov. 25, the CDC said, a 10% increase over the previous week. 
 

Who’s Who in the Family Tree

JN.1, an Omicron subvariant, was first detected in the U.S. in September and is termed “a notable descendent lineage” of Omicron subvariant BA.2.86 by the World Health Organization. When BA.2.86, also known as Pirola, was first identified in August, it appeared very different from other variants, the CDC said. That triggered concerns it might be more infectious than previous ones, even for people with immunity from vaccination and previous infections. 

“JN.1 is Pirola’s kid,” said Rajendram Rajnarayanan, PhD, assistant dean of research and associate professor at the New York Institute of Technology at Arkansas State University, who maintains a COVID-19 variant database. The variant BA.2.86 and offspring are worrisome due to the mutations, he said.
 

How Widespread Is JN.1?

As of Nov. 27, the CDC says, BA.2.86 is projected to comprise 5%-15% of circulating variants in the U.S. “The expected public health risk of this variant, including its offshoot JN.1, is low,” the agency said.

Currently, JN.1 is reported more often in Europe, Dr. Rajnarayanan said, but some countries have better reporting data than others. “It has probably spread to every country tracking COVID,’’ he said, due to the mutations in the spike protein that make it easier for it to bind and infect.

Wastewater data suggest the variant’s rise is helping to fuel a wave, Dr. Topol said. 
 

Vaccine Effectiveness Against JN.1, Other New Variants 

The new XBB.1.5 monovalent vaccine, protects against XBB.1.5, another Omicron subvariant, but also JN.1 and other “emergent” viruses, a team of researchers reported Nov. 26 in a study on bioRxiv that has not yet been certified by peer review.

The updated vaccine, when given to uninfected people, boosted antibodies about 27-fold against XBB.1.5 and about 13- to 27-fold against JN.1 and other emergent viruses, the researchers reported.

While even primary doses of the COVID vaccine will likely help protect against the new JN.1 subvariant, “if you got the XBB.1.5 booster, it is going to be protecting you better against this new variant,” Dr. Rajnarayanan said.
 

2023-2024 Vaccine Uptake Low 

In November, the CDC posted the first detailed estimates of who did. As of Nov. 18, less than 16% of U.S. adults had, with nearly 15% saying they planned to get it.

Coverage among children is lower, with just 6.3% of children up to date on the newest vaccine and 19% of parents saying they planned to get the 2023-2024 vaccine for their children.
 

Predictions, Mitigation

While some experts say a peak due to JN.1 is expected in the weeks ahead, Dr. Topol said it’s impossible to predict exactly how JN.1 will play out.

“It’s not going to be a repeat of November 2021,” when Omicron surfaced, Dr. Rajnarayanan predicted. Within 4 weeks of the World Health Organization declaring Omicron as a virus of concern, it spread around the world.

Mitigation measures can help, Dr. Rajnarayanan said. He suggested:

Get the new vaccine, and especially encourage vulnerable family and friends to do so.

If you are gathering inside for holiday festivities, improve circulation in the house, if possible.

Wear masks in airports and on planes and other public transportation.

A version of this article appeared on WebMD.com.

No one planning holiday gatherings or travel wants to hear this, but the rise of a new COVID-19 variant, JN.1, is concerning experts, who say it may threaten those good times. 

The good news is recent research suggests the 2023-2024 COVID-19 vaccine appears to work against this newest variant. But so few people have gotten the latest vaccine — less than 16% of U.S. adults — that some experts suggest it’s time for the CDC to urge the public who haven’t it to do so now, so the antibodies can kick in before the festivities.

“A significant wave [of JN.1] has started here and could be blunted with a high booster rate and mitigation measures,” said Eric Topol, MD, professor and executive vice president of Scripps Research in La Jolla, CA, and editor-in-chief of Medscape, a sister site of this news organization.

COVID metrics, meanwhile, have started to climb again. Nearly 10,000 people were hospitalized for COVID in the U.S. for the week ending Nov. 25, the CDC said, a 10% increase over the previous week. 
 

Who’s Who in the Family Tree

JN.1, an Omicron subvariant, was first detected in the U.S. in September and is termed “a notable descendent lineage” of Omicron subvariant BA.2.86 by the World Health Organization. When BA.2.86, also known as Pirola, was first identified in August, it appeared very different from other variants, the CDC said. That triggered concerns it might be more infectious than previous ones, even for people with immunity from vaccination and previous infections. 

“JN.1 is Pirola’s kid,” said Rajendram Rajnarayanan, PhD, assistant dean of research and associate professor at the New York Institute of Technology at Arkansas State University, who maintains a COVID-19 variant database. The variant BA.2.86 and offspring are worrisome due to the mutations, he said.
 

How Widespread Is JN.1?

As of Nov. 27, the CDC says, BA.2.86 is projected to comprise 5%-15% of circulating variants in the U.S. “The expected public health risk of this variant, including its offshoot JN.1, is low,” the agency said.

Currently, JN.1 is reported more often in Europe, Dr. Rajnarayanan said, but some countries have better reporting data than others. “It has probably spread to every country tracking COVID,’’ he said, due to the mutations in the spike protein that make it easier for it to bind and infect.

Wastewater data suggest the variant’s rise is helping to fuel a wave, Dr. Topol said. 
 

Vaccine Effectiveness Against JN.1, Other New Variants 

The new XBB.1.5 monovalent vaccine, protects against XBB.1.5, another Omicron subvariant, but also JN.1 and other “emergent” viruses, a team of researchers reported Nov. 26 in a study on bioRxiv that has not yet been certified by peer review.

The updated vaccine, when given to uninfected people, boosted antibodies about 27-fold against XBB.1.5 and about 13- to 27-fold against JN.1 and other emergent viruses, the researchers reported.

While even primary doses of the COVID vaccine will likely help protect against the new JN.1 subvariant, “if you got the XBB.1.5 booster, it is going to be protecting you better against this new variant,” Dr. Rajnarayanan said.
 

2023-2024 Vaccine Uptake Low 

In November, the CDC posted the first detailed estimates of who did. As of Nov. 18, less than 16% of U.S. adults had, with nearly 15% saying they planned to get it.

Coverage among children is lower, with just 6.3% of children up to date on the newest vaccine and 19% of parents saying they planned to get the 2023-2024 vaccine for their children.
 

Predictions, Mitigation

While some experts say a peak due to JN.1 is expected in the weeks ahead, Dr. Topol said it’s impossible to predict exactly how JN.1 will play out.

“It’s not going to be a repeat of November 2021,” when Omicron surfaced, Dr. Rajnarayanan predicted. Within 4 weeks of the World Health Organization declaring Omicron as a virus of concern, it spread around the world.

Mitigation measures can help, Dr. Rajnarayanan said. He suggested:

Get the new vaccine, and especially encourage vulnerable family and friends to do so.

If you are gathering inside for holiday festivities, improve circulation in the house, if possible.

Wear masks in airports and on planes and other public transportation.

A version of this article appeared on WebMD.com.

No one planning holiday gatherings or travel wants to hear this, but the rise of a new COVID-19 variant, JN.1, is concerning experts, who say it may threaten those good times. 

The good news is recent research suggests the 2023-2024 COVID-19 vaccine appears to work against this newest variant. But so few people have gotten the latest vaccine — less than 16% of U.S. adults — that some experts suggest it’s time for the CDC to urge the public who haven’t it to do so now, so the antibodies can kick in before the festivities.

“A significant wave [of JN.1] has started here and could be blunted with a high booster rate and mitigation measures,” said Eric Topol, MD, professor and executive vice president of Scripps Research in La Jolla, CA, and editor-in-chief of Medscape, a sister site of this news organization.

COVID metrics, meanwhile, have started to climb again. Nearly 10,000 people were hospitalized for COVID in the U.S. for the week ending Nov. 25, the CDC said, a 10% increase over the previous week. 
 

Who’s Who in the Family Tree

JN.1, an Omicron subvariant, was first detected in the U.S. in September and is termed “a notable descendent lineage” of Omicron subvariant BA.2.86 by the World Health Organization. When BA.2.86, also known as Pirola, was first identified in August, it appeared very different from other variants, the CDC said. That triggered concerns it might be more infectious than previous ones, even for people with immunity from vaccination and previous infections. 

“JN.1 is Pirola’s kid,” said Rajendram Rajnarayanan, PhD, assistant dean of research and associate professor at the New York Institute of Technology at Arkansas State University, who maintains a COVID-19 variant database. The variant BA.2.86 and offspring are worrisome due to the mutations, he said.
 

How Widespread Is JN.1?

As of Nov. 27, the CDC says, BA.2.86 is projected to comprise 5%-15% of circulating variants in the U.S. “The expected public health risk of this variant, including its offshoot JN.1, is low,” the agency said.

Currently, JN.1 is reported more often in Europe, Dr. Rajnarayanan said, but some countries have better reporting data than others. “It has probably spread to every country tracking COVID,’’ he said, due to the mutations in the spike protein that make it easier for it to bind and infect.

Wastewater data suggest the variant’s rise is helping to fuel a wave, Dr. Topol said. 
 

Vaccine Effectiveness Against JN.1, Other New Variants 

The new XBB.1.5 monovalent vaccine, protects against XBB.1.5, another Omicron subvariant, but also JN.1 and other “emergent” viruses, a team of researchers reported Nov. 26 in a study on bioRxiv that has not yet been certified by peer review.

The updated vaccine, when given to uninfected people, boosted antibodies about 27-fold against XBB.1.5 and about 13- to 27-fold against JN.1 and other emergent viruses, the researchers reported.

While even primary doses of the COVID vaccine will likely help protect against the new JN.1 subvariant, “if you got the XBB.1.5 booster, it is going to be protecting you better against this new variant,” Dr. Rajnarayanan said.
 

2023-2024 Vaccine Uptake Low 

In November, the CDC posted the first detailed estimates of who did. As of Nov. 18, less than 16% of U.S. adults had, with nearly 15% saying they planned to get it.

Coverage among children is lower, with just 6.3% of children up to date on the newest vaccine and 19% of parents saying they planned to get the 2023-2024 vaccine for their children.
 

Predictions, Mitigation

While some experts say a peak due to JN.1 is expected in the weeks ahead, Dr. Topol said it’s impossible to predict exactly how JN.1 will play out.

“It’s not going to be a repeat of November 2021,” when Omicron surfaced, Dr. Rajnarayanan predicted. Within 4 weeks of the World Health Organization declaring Omicron as a virus of concern, it spread around the world.

Mitigation measures can help, Dr. Rajnarayanan said. He suggested:

Get the new vaccine, and especially encourage vulnerable family and friends to do so.

If you are gathering inside for holiday festivities, improve circulation in the house, if possible.

Wear masks in airports and on planes and other public transportation.

A version of this article appeared on WebMD.com.

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

Transplanting livers from deceased donors who tested positive for SARS-CoV-2 is safe and has no significant impact on short-term outcomes of allografts or recipients, based on a national study with the longest follow-up to date.

Using livers from deceased patients with COVID-19 could be an opportunity expand organ availability, reported principal investigator Nadim Mahmud, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

Findings were presented in November at the annual meeting of the American Association for the Study of Liver Diseases.

“During the COVID-19 pandemic, a few centers trialed transplanting solid organs from COVID-19 positive donors with promising initial results,” presenting author Roy X. Wang, MD, of the University of Pennsylvania, said in a written comment. “However, these were smaller experiences with short follow-up that were not exclusively focused on liver transplantation. We wanted to explore the safety of liver transplantation from COVID-19 positive donors using a large national dataset with the longest follow up time to date.”

The dataset included 13,096 COVID-negative donors and 299 COVID-positive donors who died between July 2020 and July 2022, with cases and controls matched via propensity scoring. COVID-positive donors were significantly more likely to be younger and have died of brain death. Beyond this difference in age, no significant demographic differences were detected.

After 1 year of follow-up, no statistically significant differences in patient survival (subhazard ratio, 1.11; log-rank P = .70) or allograft survival (hazard ratio, 1.44; log-rank P = .14) were detected when comparing livers transplanted from positive versus negative donors.

“Our findings support and expand upon the results from earlier studies,” Dr. Wang concluded. “Liver transplant from COVID-19-positive donors has acceptable short-term outcomes and may represent an opportunity to expand organ access.”

Still, more work is needed to assess other clinical metrics and long-term outcomes, he added.

“While we were able to show similar patient and graft survival post-transplant between COVID-19-positive and negative donors, rates of other complications were not investigated such as episodes of rejection, liver injury, and hospitalizations,” Dr. Wang said. “Due to data limitations, we are only able to report on outcomes up to 1 year post transplant. Additional investigation will be needed to continue monitoring future outcomes and identifying any differences between recipients of COVID-19-positive and negative donors.”

Timucin Taner, MD, PhD, division chair of transplant surgery at Mayo Clinic, Rochester, Minnesota, said the study is important because it reaffirms the majority opinion among transplant physicians: These livers are safe.

In an interview, Dr. Taner suggested that Dr. Wang’s call for longer term data is “mostly science speak,” since 1 year of follow-up should be sufficient to determine liver viability.

Mayo Clinic

“If a liver from a COVID-19 donor behaved well for a year, then chances are it’s not going to behave badly [later on] because of the virus at the time of donation,” Dr. Taner said.

He said the reported trends in usage of COVID-positive livers reflect early hesitancy that waned with rising vaccination rates, and recognition that the virus could not be spread via liver donation.

“To date, the only transmission [of SARS-CoV-2] from a transplant has been from a lung transplant,” Dr. Taner said, “and that was back in the days that we didn’t know about this. Other organs don’t transmit the disease, so they are easily usable.”

These new data should further increase confidence among both health care providers and patients, he added.

“[This study is] reassuring to the patients on the waitlist that these organs are very safe to use,” Dr. Taner said. “We as the transplant society are comfortable using them without any hesitation.”

The investigators and Dr. Taner disclosed no conflicts of interest.

Transplanting livers from deceased donors who tested positive for SARS-CoV-2 is safe and has no significant impact on short-term outcomes of allografts or recipients, based on a national study with the longest follow-up to date.

Using livers from deceased patients with COVID-19 could be an opportunity expand organ availability, reported principal investigator Nadim Mahmud, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

Findings were presented in November at the annual meeting of the American Association for the Study of Liver Diseases.

“During the COVID-19 pandemic, a few centers trialed transplanting solid organs from COVID-19 positive donors with promising initial results,” presenting author Roy X. Wang, MD, of the University of Pennsylvania, said in a written comment. “However, these were smaller experiences with short follow-up that were not exclusively focused on liver transplantation. We wanted to explore the safety of liver transplantation from COVID-19 positive donors using a large national dataset with the longest follow up time to date.”

The dataset included 13,096 COVID-negative donors and 299 COVID-positive donors who died between July 2020 and July 2022, with cases and controls matched via propensity scoring. COVID-positive donors were significantly more likely to be younger and have died of brain death. Beyond this difference in age, no significant demographic differences were detected.

After 1 year of follow-up, no statistically significant differences in patient survival (subhazard ratio, 1.11; log-rank P = .70) or allograft survival (hazard ratio, 1.44; log-rank P = .14) were detected when comparing livers transplanted from positive versus negative donors.

“Our findings support and expand upon the results from earlier studies,” Dr. Wang concluded. “Liver transplant from COVID-19-positive donors has acceptable short-term outcomes and may represent an opportunity to expand organ access.”

Still, more work is needed to assess other clinical metrics and long-term outcomes, he added.

“While we were able to show similar patient and graft survival post-transplant between COVID-19-positive and negative donors, rates of other complications were not investigated such as episodes of rejection, liver injury, and hospitalizations,” Dr. Wang said. “Due to data limitations, we are only able to report on outcomes up to 1 year post transplant. Additional investigation will be needed to continue monitoring future outcomes and identifying any differences between recipients of COVID-19-positive and negative donors.”

Timucin Taner, MD, PhD, division chair of transplant surgery at Mayo Clinic, Rochester, Minnesota, said the study is important because it reaffirms the majority opinion among transplant physicians: These livers are safe.

In an interview, Dr. Taner suggested that Dr. Wang’s call for longer term data is “mostly science speak,” since 1 year of follow-up should be sufficient to determine liver viability.

Mayo Clinic

“If a liver from a COVID-19 donor behaved well for a year, then chances are it’s not going to behave badly [later on] because of the virus at the time of donation,” Dr. Taner said.

He said the reported trends in usage of COVID-positive livers reflect early hesitancy that waned with rising vaccination rates, and recognition that the virus could not be spread via liver donation.

“To date, the only transmission [of SARS-CoV-2] from a transplant has been from a lung transplant,” Dr. Taner said, “and that was back in the days that we didn’t know about this. Other organs don’t transmit the disease, so they are easily usable.”

These new data should further increase confidence among both health care providers and patients, he added.

“[This study is] reassuring to the patients on the waitlist that these organs are very safe to use,” Dr. Taner said. “We as the transplant society are comfortable using them without any hesitation.”

The investigators and Dr. Taner disclosed no conflicts of interest.

Transplanting livers from deceased donors who tested positive for SARS-CoV-2 is safe and has no significant impact on short-term outcomes of allografts or recipients, based on a national study with the longest follow-up to date.

Using livers from deceased patients with COVID-19 could be an opportunity expand organ availability, reported principal investigator Nadim Mahmud, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

Findings were presented in November at the annual meeting of the American Association for the Study of Liver Diseases.

“During the COVID-19 pandemic, a few centers trialed transplanting solid organs from COVID-19 positive donors with promising initial results,” presenting author Roy X. Wang, MD, of the University of Pennsylvania, said in a written comment. “However, these were smaller experiences with short follow-up that were not exclusively focused on liver transplantation. We wanted to explore the safety of liver transplantation from COVID-19 positive donors using a large national dataset with the longest follow up time to date.”

The dataset included 13,096 COVID-negative donors and 299 COVID-positive donors who died between July 2020 and July 2022, with cases and controls matched via propensity scoring. COVID-positive donors were significantly more likely to be younger and have died of brain death. Beyond this difference in age, no significant demographic differences were detected.

After 1 year of follow-up, no statistically significant differences in patient survival (subhazard ratio, 1.11; log-rank P = .70) or allograft survival (hazard ratio, 1.44; log-rank P = .14) were detected when comparing livers transplanted from positive versus negative donors.

“Our findings support and expand upon the results from earlier studies,” Dr. Wang concluded. “Liver transplant from COVID-19-positive donors has acceptable short-term outcomes and may represent an opportunity to expand organ access.”

Still, more work is needed to assess other clinical metrics and long-term outcomes, he added.

“While we were able to show similar patient and graft survival post-transplant between COVID-19-positive and negative donors, rates of other complications were not investigated such as episodes of rejection, liver injury, and hospitalizations,” Dr. Wang said. “Due to data limitations, we are only able to report on outcomes up to 1 year post transplant. Additional investigation will be needed to continue monitoring future outcomes and identifying any differences between recipients of COVID-19-positive and negative donors.”

Timucin Taner, MD, PhD, division chair of transplant surgery at Mayo Clinic, Rochester, Minnesota, said the study is important because it reaffirms the majority opinion among transplant physicians: These livers are safe.

In an interview, Dr. Taner suggested that Dr. Wang’s call for longer term data is “mostly science speak,” since 1 year of follow-up should be sufficient to determine liver viability.

Mayo Clinic

“If a liver from a COVID-19 donor behaved well for a year, then chances are it’s not going to behave badly [later on] because of the virus at the time of donation,” Dr. Taner said.

He said the reported trends in usage of COVID-positive livers reflect early hesitancy that waned with rising vaccination rates, and recognition that the virus could not be spread via liver donation.

“To date, the only transmission [of SARS-CoV-2] from a transplant has been from a lung transplant,” Dr. Taner said, “and that was back in the days that we didn’t know about this. Other organs don’t transmit the disease, so they are easily usable.”

These new data should further increase confidence among both health care providers and patients, he added.

“[This study is] reassuring to the patients on the waitlist that these organs are very safe to use,” Dr. Taner said. “We as the transplant society are comfortable using them without any hesitation.”

The investigators and Dr. Taner disclosed no conflicts of interest.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

One of the biggest challenges facing clinicians who treat long COVID is a lack of consensus when it comes to recognizing and diagnosing the condition. But a new study suggests testing for certain biomarkers may identify long COVID with accuracy approaching 80%.

Effective diagnostic testing would be a game-changer in the long COVID fight, for it’s not just the fatigue, brain fog, heart palpitations, and other persistent symptoms that affect patients. Two out of three people with long COVID also suffer mental health challenges like depression and anxiety. Some patients say their symptoms are not taken seriously by their doctors. And as many as 12% of long COVID patients are unemployed because of the severity of their illness and their employers may be skeptical of their condition.

Quick, accurate diagnosis would eliminate all that. Now a new preprint study suggests that the elevation of certain immune system proteins are a commonality in long COVID patients and identifying them may be an accurate way to diagnose the condition.

Researchers at Cardiff (Wales) University, tracked 166 patients, 79 of whom had been diagnosed with long COVID and 87 who had not. All participants had recovered from a severe bout of acute COVID-19.

In an analysis of the blood plasma of the study participants, researchers found elevated levels of certain components. Four proteins in particular – Ba, iC3b, C5a, and TCC – predicted the presence of long COVID with 78.5% accuracy.

“I was gobsmacked by the results. We’re seeing a massive dysregulation in those four biomarkers,” says study author Wioleta Zelek, PhD, a research fellow at Cardiff University. “It’s a combination that we showed was predictive of long COVID.” 

The study revealed that long COVID was associated with inflammation of the immune system causing these complement proteins to remain dysregulated. Proteins like C3, C4, and C5 are important parts of the immune system because they recruit phagocytes, cells that attack and engulf bacteria and viruses at the site of infection to destroy pathogens like SARS-coV-2. 

In the case of long COVID, these proteins remain chronically elevated. While the symptoms of long COVID have seemed largely unrelated to one another, researchers point to elevated inflammation as a connecting factor that causes various systems in the body to go haywire.

“Anything that could help to better diagnose patients with long COVID is research we’re greatly appreciative of within the clinical community,” said Nisha Viswanathan, MD, director of the University of California, Los Angeles, Long COVID program at UCLA Health. 

Testing for biomarkers highlighted in the study, as well as others like serotonin and cortisol, may help doctors separate patients who have long COVID from patients who have similar symptoms caused by other conditions, said Dr. Viswanathan. For example, a recent study published in the journal Cell found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but recovered from the condition.

Dr. Viswanathan cautions that the biomarker test does not answer all the questions about diagnosing long COVID. For example, Dr. Viswanathan said scientists don’t know whether complement dysregulation is caused by long COVID and not another underlying medical issue that patients had prior to infection, because “we don’t know where patients’ levels were prior to developing long COVID.” For example, those with autoimmune issues are more likely to develop long COVID, which means their levels could have been elevated prior to a COVID infection.

It is increasingly likely, said Dr. Viswanathan, that long COVID is an umbrella term for a host of conditions that could be caused by different impacts of the virus. Other research has pointed to the different phenotypes of long COVID. For example, some are focused on cardiopulmonary issues and others on fatigue and gastrointestinal problems. 

“It looks like these different phenotypes have a different mechanism for disease,” she said. This means that it’s less likely to be a one-size-fits-all condition and the next step in the research should be identifying which biomarker is aligned with which phenotype of the disease. 

Better diagnostics will open the door to better treatments, Dr. Zelek said. The more doctors understand about the mechanism causing immune dysregulation in long COVID patients, the more they can treat it with existing medications. Dr. Zelek’s lab has been studying certain medications like pegcetacoplan (C3 blocker), danicopan (anti-factor D), and iptacopan (anti-factor B) that can be used to break the body’s cycle of inflammation and reduce symptoms experienced in those with long COVID. 

These drugs are approved by the U.S. Food and Drug Administration for the treatment of a rare blood disease called paroxysmal nocturnal hemoglobinuria. The C5 inhibitor zilucoplan has also been used in patients hospitalized with COVID-19 and researchers have found that the drug lowered serum C5 and interleukin-8 concentration in the blood, seeming to reduce certain aspects of the immune system’s inflammatory response to the virus. 

The Cardiff University research is one of the most detailed studies to highlight long COVID biomarkers to date, said infectious disease specialist Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. The research needs to be duplicated in a larger study population that might include the other biomarkers like serotonin and cortisol to see if they’re related, she said. 

Researchers are learning more everyday about the various biomarkers that may be linked to long COVID, she added. This Cardiff study showed that a huge percentage of those patients had elevated levels of certain complements. The next step, said Dr. McComsey, “is to put all these puzzle pieces together” so that clinicians have a common diagnostic tool or tools that provide patients with some peace of mind in starting their road to recovery.

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

One of the biggest challenges facing clinicians who treat long COVID is a lack of consensus when it comes to recognizing and diagnosing the condition. But a new study suggests testing for certain biomarkers may identify long COVID with accuracy approaching 80%.

Effective diagnostic testing would be a game-changer in the long COVID fight, for it’s not just the fatigue, brain fog, heart palpitations, and other persistent symptoms that affect patients. Two out of three people with long COVID also suffer mental health challenges like depression and anxiety. Some patients say their symptoms are not taken seriously by their doctors. And as many as 12% of long COVID patients are unemployed because of the severity of their illness and their employers may be skeptical of their condition.

Quick, accurate diagnosis would eliminate all that. Now a new preprint study suggests that the elevation of certain immune system proteins are a commonality in long COVID patients and identifying them may be an accurate way to diagnose the condition.

Researchers at Cardiff (Wales) University, tracked 166 patients, 79 of whom had been diagnosed with long COVID and 87 who had not. All participants had recovered from a severe bout of acute COVID-19.

In an analysis of the blood plasma of the study participants, researchers found elevated levels of certain components. Four proteins in particular – Ba, iC3b, C5a, and TCC – predicted the presence of long COVID with 78.5% accuracy.

“I was gobsmacked by the results. We’re seeing a massive dysregulation in those four biomarkers,” says study author Wioleta Zelek, PhD, a research fellow at Cardiff University. “It’s a combination that we showed was predictive of long COVID.” 

The study revealed that long COVID was associated with inflammation of the immune system causing these complement proteins to remain dysregulated. Proteins like C3, C4, and C5 are important parts of the immune system because they recruit phagocytes, cells that attack and engulf bacteria and viruses at the site of infection to destroy pathogens like SARS-coV-2. 

In the case of long COVID, these proteins remain chronically elevated. While the symptoms of long COVID have seemed largely unrelated to one another, researchers point to elevated inflammation as a connecting factor that causes various systems in the body to go haywire.

“Anything that could help to better diagnose patients with long COVID is research we’re greatly appreciative of within the clinical community,” said Nisha Viswanathan, MD, director of the University of California, Los Angeles, Long COVID program at UCLA Health. 

Testing for biomarkers highlighted in the study, as well as others like serotonin and cortisol, may help doctors separate patients who have long COVID from patients who have similar symptoms caused by other conditions, said Dr. Viswanathan. For example, a recent study published in the journal Cell found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but recovered from the condition.

Dr. Viswanathan cautions that the biomarker test does not answer all the questions about diagnosing long COVID. For example, Dr. Viswanathan said scientists don’t know whether complement dysregulation is caused by long COVID and not another underlying medical issue that patients had prior to infection, because “we don’t know where patients’ levels were prior to developing long COVID.” For example, those with autoimmune issues are more likely to develop long COVID, which means their levels could have been elevated prior to a COVID infection.

It is increasingly likely, said Dr. Viswanathan, that long COVID is an umbrella term for a host of conditions that could be caused by different impacts of the virus. Other research has pointed to the different phenotypes of long COVID. For example, some are focused on cardiopulmonary issues and others on fatigue and gastrointestinal problems. 

“It looks like these different phenotypes have a different mechanism for disease,” she said. This means that it’s less likely to be a one-size-fits-all condition and the next step in the research should be identifying which biomarker is aligned with which phenotype of the disease. 

Better diagnostics will open the door to better treatments, Dr. Zelek said. The more doctors understand about the mechanism causing immune dysregulation in long COVID patients, the more they can treat it with existing medications. Dr. Zelek’s lab has been studying certain medications like pegcetacoplan (C3 blocker), danicopan (anti-factor D), and iptacopan (anti-factor B) that can be used to break the body’s cycle of inflammation and reduce symptoms experienced in those with long COVID. 

These drugs are approved by the U.S. Food and Drug Administration for the treatment of a rare blood disease called paroxysmal nocturnal hemoglobinuria. The C5 inhibitor zilucoplan has also been used in patients hospitalized with COVID-19 and researchers have found that the drug lowered serum C5 and interleukin-8 concentration in the blood, seeming to reduce certain aspects of the immune system’s inflammatory response to the virus. 

The Cardiff University research is one of the most detailed studies to highlight long COVID biomarkers to date, said infectious disease specialist Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. The research needs to be duplicated in a larger study population that might include the other biomarkers like serotonin and cortisol to see if they’re related, she said. 

Researchers are learning more everyday about the various biomarkers that may be linked to long COVID, she added. This Cardiff study showed that a huge percentage of those patients had elevated levels of certain complements. The next step, said Dr. McComsey, “is to put all these puzzle pieces together” so that clinicians have a common diagnostic tool or tools that provide patients with some peace of mind in starting their road to recovery.

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

One of the biggest challenges facing clinicians who treat long COVID is a lack of consensus when it comes to recognizing and diagnosing the condition. But a new study suggests testing for certain biomarkers may identify long COVID with accuracy approaching 80%.

Effective diagnostic testing would be a game-changer in the long COVID fight, for it’s not just the fatigue, brain fog, heart palpitations, and other persistent symptoms that affect patients. Two out of three people with long COVID also suffer mental health challenges like depression and anxiety. Some patients say their symptoms are not taken seriously by their doctors. And as many as 12% of long COVID patients are unemployed because of the severity of their illness and their employers may be skeptical of their condition.

Quick, accurate diagnosis would eliminate all that. Now a new preprint study suggests that the elevation of certain immune system proteins are a commonality in long COVID patients and identifying them may be an accurate way to diagnose the condition.

Researchers at Cardiff (Wales) University, tracked 166 patients, 79 of whom had been diagnosed with long COVID and 87 who had not. All participants had recovered from a severe bout of acute COVID-19.

In an analysis of the blood plasma of the study participants, researchers found elevated levels of certain components. Four proteins in particular – Ba, iC3b, C5a, and TCC – predicted the presence of long COVID with 78.5% accuracy.

“I was gobsmacked by the results. We’re seeing a massive dysregulation in those four biomarkers,” says study author Wioleta Zelek, PhD, a research fellow at Cardiff University. “It’s a combination that we showed was predictive of long COVID.” 

The study revealed that long COVID was associated with inflammation of the immune system causing these complement proteins to remain dysregulated. Proteins like C3, C4, and C5 are important parts of the immune system because they recruit phagocytes, cells that attack and engulf bacteria and viruses at the site of infection to destroy pathogens like SARS-coV-2. 

In the case of long COVID, these proteins remain chronically elevated. While the symptoms of long COVID have seemed largely unrelated to one another, researchers point to elevated inflammation as a connecting factor that causes various systems in the body to go haywire.

“Anything that could help to better diagnose patients with long COVID is research we’re greatly appreciative of within the clinical community,” said Nisha Viswanathan, MD, director of the University of California, Los Angeles, Long COVID program at UCLA Health. 

Testing for biomarkers highlighted in the study, as well as others like serotonin and cortisol, may help doctors separate patients who have long COVID from patients who have similar symptoms caused by other conditions, said Dr. Viswanathan. For example, a recent study published in the journal Cell found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but recovered from the condition.

Dr. Viswanathan cautions that the biomarker test does not answer all the questions about diagnosing long COVID. For example, Dr. Viswanathan said scientists don’t know whether complement dysregulation is caused by long COVID and not another underlying medical issue that patients had prior to infection, because “we don’t know where patients’ levels were prior to developing long COVID.” For example, those with autoimmune issues are more likely to develop long COVID, which means their levels could have been elevated prior to a COVID infection.

It is increasingly likely, said Dr. Viswanathan, that long COVID is an umbrella term for a host of conditions that could be caused by different impacts of the virus. Other research has pointed to the different phenotypes of long COVID. For example, some are focused on cardiopulmonary issues and others on fatigue and gastrointestinal problems. 

“It looks like these different phenotypes have a different mechanism for disease,” she said. This means that it’s less likely to be a one-size-fits-all condition and the next step in the research should be identifying which biomarker is aligned with which phenotype of the disease. 

Better diagnostics will open the door to better treatments, Dr. Zelek said. The more doctors understand about the mechanism causing immune dysregulation in long COVID patients, the more they can treat it with existing medications. Dr. Zelek’s lab has been studying certain medications like pegcetacoplan (C3 blocker), danicopan (anti-factor D), and iptacopan (anti-factor B) that can be used to break the body’s cycle of inflammation and reduce symptoms experienced in those with long COVID. 

These drugs are approved by the U.S. Food and Drug Administration for the treatment of a rare blood disease called paroxysmal nocturnal hemoglobinuria. The C5 inhibitor zilucoplan has also been used in patients hospitalized with COVID-19 and researchers have found that the drug lowered serum C5 and interleukin-8 concentration in the blood, seeming to reduce certain aspects of the immune system’s inflammatory response to the virus. 

The Cardiff University research is one of the most detailed studies to highlight long COVID biomarkers to date, said infectious disease specialist Grace McComsey, MD, who leads the long COVID RECOVER study at University Hospitals Health System in Cleveland, Ohio. The research needs to be duplicated in a larger study population that might include the other biomarkers like serotonin and cortisol to see if they’re related, she said. 

Researchers are learning more everyday about the various biomarkers that may be linked to long COVID, she added. This Cardiff study showed that a huge percentage of those patients had elevated levels of certain complements. The next step, said Dr. McComsey, “is to put all these puzzle pieces together” so that clinicians have a common diagnostic tool or tools that provide patients with some peace of mind in starting their road to recovery.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

An emerging variant of COVID-19 called BA.2.86 that caused alarm in the summer of 2023 has landed on the Center for Disease Control and Prevention’s radar again.

The variant accounted for nearly 9% of cases during the 2-week period ending Nov. 25, up from 3% during the previous 2 weeks, according to data published Nov. 27 by the CDC. The estimates are not exact, and the CDC indicated the actual percentage of cases may range from 5% to 15%.

The CDC took the unusual step of publishing a specific statement about the rise in BA.2.86 cases. The variant drew worldwide attention during the summer because of how different its makeup is, compared with other prominent variants of the virus that causes COVID-19, raising the potential for the new variant to be more capable of causing infection. But after a flurry of interest in BA.2.86, it didn’t end up being as widespread as expected, so for months it wasn’t listed as a standalone variant on the CDC’s variant tracker list.

“At this time, BA.2.86 does not appear to be driving increases in infections or hospitalizations in the United States,” the CDC wrote in its advisory. “It is not possible at this time to know whether BA.2.86 infection produces different symptoms from other variants. In general, symptoms of COVID-19 tend to be similar across variants. The types of symptoms and how severe they are usually depend more on a person’s immunity than which variant causes the infection.”

BA.2.86 is now the third-most prominent variant circulating the United States, behind HV.1 and EG.5, which combined account for about 45% of all U.S. COVID-19 cases. All three are from the Omicron lineage of the virus.

About 8% of all COVID tests reported to the CDC were positive for the week ending Nov. 18, which is a decline, compared with recent weeks. But indicators for severe cases of the illness have ticked up lately, including rises among ED visits for COVID, hospitalizations, and deaths.

A version of this article appeared on WebMD.com.

An emerging variant of COVID-19 called BA.2.86 that caused alarm in the summer of 2023 has landed on the Center for Disease Control and Prevention’s radar again.

The variant accounted for nearly 9% of cases during the 2-week period ending Nov. 25, up from 3% during the previous 2 weeks, according to data published Nov. 27 by the CDC. The estimates are not exact, and the CDC indicated the actual percentage of cases may range from 5% to 15%.

The CDC took the unusual step of publishing a specific statement about the rise in BA.2.86 cases. The variant drew worldwide attention during the summer because of how different its makeup is, compared with other prominent variants of the virus that causes COVID-19, raising the potential for the new variant to be more capable of causing infection. But after a flurry of interest in BA.2.86, it didn’t end up being as widespread as expected, so for months it wasn’t listed as a standalone variant on the CDC’s variant tracker list.

“At this time, BA.2.86 does not appear to be driving increases in infections or hospitalizations in the United States,” the CDC wrote in its advisory. “It is not possible at this time to know whether BA.2.86 infection produces different symptoms from other variants. In general, symptoms of COVID-19 tend to be similar across variants. The types of symptoms and how severe they are usually depend more on a person’s immunity than which variant causes the infection.”

BA.2.86 is now the third-most prominent variant circulating the United States, behind HV.1 and EG.5, which combined account for about 45% of all U.S. COVID-19 cases. All three are from the Omicron lineage of the virus.

About 8% of all COVID tests reported to the CDC were positive for the week ending Nov. 18, which is a decline, compared with recent weeks. But indicators for severe cases of the illness have ticked up lately, including rises among ED visits for COVID, hospitalizations, and deaths.

A version of this article appeared on WebMD.com.

An emerging variant of COVID-19 called BA.2.86 that caused alarm in the summer of 2023 has landed on the Center for Disease Control and Prevention’s radar again.

The variant accounted for nearly 9% of cases during the 2-week period ending Nov. 25, up from 3% during the previous 2 weeks, according to data published Nov. 27 by the CDC. The estimates are not exact, and the CDC indicated the actual percentage of cases may range from 5% to 15%.

The CDC took the unusual step of publishing a specific statement about the rise in BA.2.86 cases. The variant drew worldwide attention during the summer because of how different its makeup is, compared with other prominent variants of the virus that causes COVID-19, raising the potential for the new variant to be more capable of causing infection. But after a flurry of interest in BA.2.86, it didn’t end up being as widespread as expected, so for months it wasn’t listed as a standalone variant on the CDC’s variant tracker list.

“At this time, BA.2.86 does not appear to be driving increases in infections or hospitalizations in the United States,” the CDC wrote in its advisory. “It is not possible at this time to know whether BA.2.86 infection produces different symptoms from other variants. In general, symptoms of COVID-19 tend to be similar across variants. The types of symptoms and how severe they are usually depend more on a person’s immunity than which variant causes the infection.”

BA.2.86 is now the third-most prominent variant circulating the United States, behind HV.1 and EG.5, which combined account for about 45% of all U.S. COVID-19 cases. All three are from the Omicron lineage of the virus.

About 8% of all COVID tests reported to the CDC were positive for the week ending Nov. 18, which is a decline, compared with recent weeks. But indicators for severe cases of the illness have ticked up lately, including rises among ED visits for COVID, hospitalizations, and deaths.

A version of this article appeared on WebMD.com.