Hematology News

The ongoing COVID-19 pandemic was the biggest medical news or event of 2021, according to an overwhelming 84% of 987 of our readers who answered a recent Medscape Medical News poll. Perhaps no surprise there.

Coming in distant second, at 26%, was the new law requiring that patients be granted electronic access to clinical notes. The controversial Food and Drug Administration approval of aducanumab (Aduhelm, Biogen/Eisai) to treat Alzheimer’s disease was next, cited by almost 16% when asked what they would remember most about 2021.

Coming in at 10% or less were the permanent end to the Step 2 Clinical Skills test, the JAMA deputy editor resignation over controversial comments, and an “other” option that allowed for write-in responses.

It should be noted respondents could choose up to three answers to this and other questions in this survey, except for questions about profession and specialty.
 

Exciting news in 2021

Widespread availability of COVID-19 vaccines was the No. 1 response – chosen by 85% – when asked what medical news or events excited them in 2021.

FDA clearance of a 5-minute test for early dementia was selected by 22%, followed by almost 16% citing approval in October 2021 of abemaciclib (Verzenio, Lilly) “described as the first advance for early breast cancer in 20 years.”

The resignation of JAMA editors over a podcast on race rounded out the list of exciting medical news or events – coming in fourth at 11%. A total 5% of readers chose “other” and were asked to specify what news or events excited them in 2021.
 

A frustrating year?

Medscape also asked readers what medical news or events frustrated them in 2021. A majority, 81%, chose COVID-19 vaccine hesitancy or refusal. Almost one-third, 31%, chose the effect of climate change on health worldwide.

Some of the most memorable news or events of 2021 were also selected as frustrating by readers. For example, 22% were frustrated by the law requiring that patients be granted electronic access to clinical notes, followed by 19% who referred to the aducanumab approval in June. Furthermore, about 12% selected the JAMA resignations.
 

A shocking survey question

Asked what medical news or event from 2021 shocked readers, COVID-19 vaccine hesitancy or refusal was the most common answer, at 69%.

The U.S. Preventive Services Task Force ruling out aspirin in people over age 60 for primary prevention of cardiovascular disease shocked 36% of respondents.

Coming in third and fourth on the survey were the two JAMA editors resigning after a podcast on race, chosen by 19%, and the demise of the Step 2 Clinical Skills test, selected by 18%.

Interestingly, almost 96% of respondents were physicians. Less than 1% were residents, physician assistants, or nurses. Respondents also represented a wide range of specialties. From a list of 29 possible specialties, including “other,” family medicine, internal medicine, and psychiatry were the most common.

For more on the year that was 2021, see the Medscape Year in Medicine 2021: News That Made a Difference slideshow. Read Medscape’s full Year in Medicine report.

Wondering what stood out most to our readers in 2020? Here is a story about the results of a similar survey 1 year ago.

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

The ongoing COVID-19 pandemic was the biggest medical news or event of 2021, according to an overwhelming 84% of 987 of our readers who answered a recent Medscape Medical News poll. Perhaps no surprise there.

Coming in distant second, at 26%, was the new law requiring that patients be granted electronic access to clinical notes. The controversial Food and Drug Administration approval of aducanumab (Aduhelm, Biogen/Eisai) to treat Alzheimer’s disease was next, cited by almost 16% when asked what they would remember most about 2021.

Coming in at 10% or less were the permanent end to the Step 2 Clinical Skills test, the JAMA deputy editor resignation over controversial comments, and an “other” option that allowed for write-in responses.

It should be noted respondents could choose up to three answers to this and other questions in this survey, except for questions about profession and specialty.
 

Exciting news in 2021

Widespread availability of COVID-19 vaccines was the No. 1 response – chosen by 85% – when asked what medical news or events excited them in 2021.

FDA clearance of a 5-minute test for early dementia was selected by 22%, followed by almost 16% citing approval in October 2021 of abemaciclib (Verzenio, Lilly) “described as the first advance for early breast cancer in 20 years.”

The resignation of JAMA editors over a podcast on race rounded out the list of exciting medical news or events – coming in fourth at 11%. A total 5% of readers chose “other” and were asked to specify what news or events excited them in 2021.
 

A frustrating year?

Medscape also asked readers what medical news or events frustrated them in 2021. A majority, 81%, chose COVID-19 vaccine hesitancy or refusal. Almost one-third, 31%, chose the effect of climate change on health worldwide.

Some of the most memorable news or events of 2021 were also selected as frustrating by readers. For example, 22% were frustrated by the law requiring that patients be granted electronic access to clinical notes, followed by 19% who referred to the aducanumab approval in June. Furthermore, about 12% selected the JAMA resignations.
 

A shocking survey question

Asked what medical news or event from 2021 shocked readers, COVID-19 vaccine hesitancy or refusal was the most common answer, at 69%.

The U.S. Preventive Services Task Force ruling out aspirin in people over age 60 for primary prevention of cardiovascular disease shocked 36% of respondents.

Coming in third and fourth on the survey were the two JAMA editors resigning after a podcast on race, chosen by 19%, and the demise of the Step 2 Clinical Skills test, selected by 18%.

Interestingly, almost 96% of respondents were physicians. Less than 1% were residents, physician assistants, or nurses. Respondents also represented a wide range of specialties. From a list of 29 possible specialties, including “other,” family medicine, internal medicine, and psychiatry were the most common.

For more on the year that was 2021, see the Medscape Year in Medicine 2021: News That Made a Difference slideshow. Read Medscape’s full Year in Medicine report.

Wondering what stood out most to our readers in 2020? Here is a story about the results of a similar survey 1 year ago.

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

The ongoing COVID-19 pandemic was the biggest medical news or event of 2021, according to an overwhelming 84% of 987 of our readers who answered a recent Medscape Medical News poll. Perhaps no surprise there.

Coming in distant second, at 26%, was the new law requiring that patients be granted electronic access to clinical notes. The controversial Food and Drug Administration approval of aducanumab (Aduhelm, Biogen/Eisai) to treat Alzheimer’s disease was next, cited by almost 16% when asked what they would remember most about 2021.

Coming in at 10% or less were the permanent end to the Step 2 Clinical Skills test, the JAMA deputy editor resignation over controversial comments, and an “other” option that allowed for write-in responses.

It should be noted respondents could choose up to three answers to this and other questions in this survey, except for questions about profession and specialty.
 

Exciting news in 2021

Widespread availability of COVID-19 vaccines was the No. 1 response – chosen by 85% – when asked what medical news or events excited them in 2021.

FDA clearance of a 5-minute test for early dementia was selected by 22%, followed by almost 16% citing approval in October 2021 of abemaciclib (Verzenio, Lilly) “described as the first advance for early breast cancer in 20 years.”

The resignation of JAMA editors over a podcast on race rounded out the list of exciting medical news or events – coming in fourth at 11%. A total 5% of readers chose “other” and were asked to specify what news or events excited them in 2021.
 

A frustrating year?

Medscape also asked readers what medical news or events frustrated them in 2021. A majority, 81%, chose COVID-19 vaccine hesitancy or refusal. Almost one-third, 31%, chose the effect of climate change on health worldwide.

Some of the most memorable news or events of 2021 were also selected as frustrating by readers. For example, 22% were frustrated by the law requiring that patients be granted electronic access to clinical notes, followed by 19% who referred to the aducanumab approval in June. Furthermore, about 12% selected the JAMA resignations.
 

A shocking survey question

Asked what medical news or event from 2021 shocked readers, COVID-19 vaccine hesitancy or refusal was the most common answer, at 69%.

The U.S. Preventive Services Task Force ruling out aspirin in people over age 60 for primary prevention of cardiovascular disease shocked 36% of respondents.

Coming in third and fourth on the survey were the two JAMA editors resigning after a podcast on race, chosen by 19%, and the demise of the Step 2 Clinical Skills test, selected by 18%.

Interestingly, almost 96% of respondents were physicians. Less than 1% were residents, physician assistants, or nurses. Respondents also represented a wide range of specialties. From a list of 29 possible specialties, including “other,” family medicine, internal medicine, and psychiatry were the most common.

For more on the year that was 2021, see the Medscape Year in Medicine 2021: News That Made a Difference slideshow. Read Medscape’s full Year in Medicine report.

Wondering what stood out most to our readers in 2020? Here is a story about the results of a similar survey 1 year ago.

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

Are you still wearing a cloth face mask?

Amid the rapidly spreading Omicron variant, experts stress that we all should swap cloth masks for N95 respirators or 3-ply surgical masks.

For background: N95 respirators are tightly fitting masks that cover your mouth and nose and help prevent contact with droplets and tiny particles in the air from people talking, coughing, sneezing, and spreading in other ways. Usually worn by health care workers and first responders, these masks can filter up to 95% of air droplets and particles, according to the CDC.

KN95 and KN94 masks are similar but are designed to meet international standards, unlike N95s that are approved by the Centers for Disease Control and Prevention’s National Institute for Occupational Safety and Health.

Meanwhile, a 3-ply surgical mask is a looser-fitting mask that can help prevent contact with infected droplets in the air.

But recommendations to opt for N95 and 3-ply surgical masks over cloth masks are nothing new, says Leana Wen, MD, an emergency doctor and public health professor at George Washington University, Washington.

In fact, public health experts have been urging stronger mask protection for months.

“It’s not just with Omicron that we need better masks, it was with Delta, it was with Alpha before that,” Dr. Wen said. “We have known for many months that COVID-19 is airborne, and therefore, a simple cloth mask is not going to cut it.”

Here’s what to know about these protective masks.
 

They’re necessary

Omicron is spreading much faster than previous COVID-19 variants. As it’s up to three times as likely to spread as the Delta variant, mask-wearing is paramount right now, says Anita Gupta, DO, an adjunct assistant professor of anesthesiology and critical care medicine and pain medicine at Johns Hopkins University, Baltimore.

The quality of a mask also matters a lot, said Dr. Wen.

“Double masking, including a well-fitting cloth mask on top of a surgical mask, adds additional protection,” she said. “Ideally, though, people should be wearing an N95, KN95, or KF94 when in indoor settings around other people with unknown vaccination status.”

If wearing an N95 mask causes extreme discomfort, wear it in high-risk settings where there are lots of people, like crowded restaurants and busy commuter trains, says Dr. Wen. “If you’re in a grocery store, there’s plenty of space and ventilation. You may not need an N95. I recommend that people obtain different masks and practice with them in low-risk settings before they go out in public in a high-risk setting.”

But people should wear a 3-ply surgical mask at the very least.
 

Three-ply surgical and N95 mask qualities

With 3-ply surgical masks, the fit of the mask is often more of an issue than its comfort, Dr. Wen said. But there are ways to adjust these masks, especially for those who have smaller heads.

“You can put a rubber band around the ear loops and make them a bit tighter,” said Dr. Wen. “Some people have found that using pins in their hair, that’s another way of keeping the loops in place.”

Another important tip on 3-ply surgical masks and N95s: These masks are reusable.

But how many times you should use them varies, Dr. Wen said. “As an example, if you are sweating a lot, and the mask is now really damp. Or putting it in your purse or backpack, and now it’s misshapen, and you cannot get it back to fit on your face, then it’s time to throw it away.”
 

Protection first

For some, cloth masks became somewhat of a statement, with people sporting logos of their favorite NFL team, or maybe even a fun animal print.

But you should always keep in mind the purpose of wearing a mask, Dr. Wen said. “Mask wearing is very functional and is about reducing your likelihood of contracting COVID. People should also use whatever methods inspire them, too, but for me, it’s purely a functional exercise.”

Mask wearing is not always enjoyable, but it remains critical in keeping people safe from COVID-19, especially the elderly and other high-risk people, Gupta says.

“There is lots of research and experts working hard to stop COVID-19,” she says. “It is important for all of us to remember that wearing a mask alone doesn’t make us safe.”

“We all need to keep washing our hands frequently and maintaining a distance from people, as well.”

For more information on where to find 3-ply surgical masks and N95s, check here or here to start.

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

Are you still wearing a cloth face mask?

Amid the rapidly spreading Omicron variant, experts stress that we all should swap cloth masks for N95 respirators or 3-ply surgical masks.

For background: N95 respirators are tightly fitting masks that cover your mouth and nose and help prevent contact with droplets and tiny particles in the air from people talking, coughing, sneezing, and spreading in other ways. Usually worn by health care workers and first responders, these masks can filter up to 95% of air droplets and particles, according to the CDC.

KN95 and KN94 masks are similar but are designed to meet international standards, unlike N95s that are approved by the Centers for Disease Control and Prevention’s National Institute for Occupational Safety and Health.

Meanwhile, a 3-ply surgical mask is a looser-fitting mask that can help prevent contact with infected droplets in the air.

But recommendations to opt for N95 and 3-ply surgical masks over cloth masks are nothing new, says Leana Wen, MD, an emergency doctor and public health professor at George Washington University, Washington.

In fact, public health experts have been urging stronger mask protection for months.

“It’s not just with Omicron that we need better masks, it was with Delta, it was with Alpha before that,” Dr. Wen said. “We have known for many months that COVID-19 is airborne, and therefore, a simple cloth mask is not going to cut it.”

Here’s what to know about these protective masks.
 

They’re necessary

Omicron is spreading much faster than previous COVID-19 variants. As it’s up to three times as likely to spread as the Delta variant, mask-wearing is paramount right now, says Anita Gupta, DO, an adjunct assistant professor of anesthesiology and critical care medicine and pain medicine at Johns Hopkins University, Baltimore.

The quality of a mask also matters a lot, said Dr. Wen.

“Double masking, including a well-fitting cloth mask on top of a surgical mask, adds additional protection,” she said. “Ideally, though, people should be wearing an N95, KN95, or KF94 when in indoor settings around other people with unknown vaccination status.”

If wearing an N95 mask causes extreme discomfort, wear it in high-risk settings where there are lots of people, like crowded restaurants and busy commuter trains, says Dr. Wen. “If you’re in a grocery store, there’s plenty of space and ventilation. You may not need an N95. I recommend that people obtain different masks and practice with them in low-risk settings before they go out in public in a high-risk setting.”

But people should wear a 3-ply surgical mask at the very least.
 

Three-ply surgical and N95 mask qualities

With 3-ply surgical masks, the fit of the mask is often more of an issue than its comfort, Dr. Wen said. But there are ways to adjust these masks, especially for those who have smaller heads.

“You can put a rubber band around the ear loops and make them a bit tighter,” said Dr. Wen. “Some people have found that using pins in their hair, that’s another way of keeping the loops in place.”

Another important tip on 3-ply surgical masks and N95s: These masks are reusable.

But how many times you should use them varies, Dr. Wen said. “As an example, if you are sweating a lot, and the mask is now really damp. Or putting it in your purse or backpack, and now it’s misshapen, and you cannot get it back to fit on your face, then it’s time to throw it away.”
 

Protection first

For some, cloth masks became somewhat of a statement, with people sporting logos of their favorite NFL team, or maybe even a fun animal print.

But you should always keep in mind the purpose of wearing a mask, Dr. Wen said. “Mask wearing is very functional and is about reducing your likelihood of contracting COVID. People should also use whatever methods inspire them, too, but for me, it’s purely a functional exercise.”

Mask wearing is not always enjoyable, but it remains critical in keeping people safe from COVID-19, especially the elderly and other high-risk people, Gupta says.

“There is lots of research and experts working hard to stop COVID-19,” she says. “It is important for all of us to remember that wearing a mask alone doesn’t make us safe.”

“We all need to keep washing our hands frequently and maintaining a distance from people, as well.”

For more information on where to find 3-ply surgical masks and N95s, check here or here to start.

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

Are you still wearing a cloth face mask?

Amid the rapidly spreading Omicron variant, experts stress that we all should swap cloth masks for N95 respirators or 3-ply surgical masks.

For background: N95 respirators are tightly fitting masks that cover your mouth and nose and help prevent contact with droplets and tiny particles in the air from people talking, coughing, sneezing, and spreading in other ways. Usually worn by health care workers and first responders, these masks can filter up to 95% of air droplets and particles, according to the CDC.

KN95 and KN94 masks are similar but are designed to meet international standards, unlike N95s that are approved by the Centers for Disease Control and Prevention’s National Institute for Occupational Safety and Health.

Meanwhile, a 3-ply surgical mask is a looser-fitting mask that can help prevent contact with infected droplets in the air.

But recommendations to opt for N95 and 3-ply surgical masks over cloth masks are nothing new, says Leana Wen, MD, an emergency doctor and public health professor at George Washington University, Washington.

In fact, public health experts have been urging stronger mask protection for months.

“It’s not just with Omicron that we need better masks, it was with Delta, it was with Alpha before that,” Dr. Wen said. “We have known for many months that COVID-19 is airborne, and therefore, a simple cloth mask is not going to cut it.”

Here’s what to know about these protective masks.
 

They’re necessary

Omicron is spreading much faster than previous COVID-19 variants. As it’s up to three times as likely to spread as the Delta variant, mask-wearing is paramount right now, says Anita Gupta, DO, an adjunct assistant professor of anesthesiology and critical care medicine and pain medicine at Johns Hopkins University, Baltimore.

The quality of a mask also matters a lot, said Dr. Wen.

“Double masking, including a well-fitting cloth mask on top of a surgical mask, adds additional protection,” she said. “Ideally, though, people should be wearing an N95, KN95, or KF94 when in indoor settings around other people with unknown vaccination status.”

If wearing an N95 mask causes extreme discomfort, wear it in high-risk settings where there are lots of people, like crowded restaurants and busy commuter trains, says Dr. Wen. “If you’re in a grocery store, there’s plenty of space and ventilation. You may not need an N95. I recommend that people obtain different masks and practice with them in low-risk settings before they go out in public in a high-risk setting.”

But people should wear a 3-ply surgical mask at the very least.
 

Three-ply surgical and N95 mask qualities

With 3-ply surgical masks, the fit of the mask is often more of an issue than its comfort, Dr. Wen said. But there are ways to adjust these masks, especially for those who have smaller heads.

“You can put a rubber band around the ear loops and make them a bit tighter,” said Dr. Wen. “Some people have found that using pins in their hair, that’s another way of keeping the loops in place.”

Another important tip on 3-ply surgical masks and N95s: These masks are reusable.

But how many times you should use them varies, Dr. Wen said. “As an example, if you are sweating a lot, and the mask is now really damp. Or putting it in your purse or backpack, and now it’s misshapen, and you cannot get it back to fit on your face, then it’s time to throw it away.”
 

Protection first

For some, cloth masks became somewhat of a statement, with people sporting logos of their favorite NFL team, or maybe even a fun animal print.

But you should always keep in mind the purpose of wearing a mask, Dr. Wen said. “Mask wearing is very functional and is about reducing your likelihood of contracting COVID. People should also use whatever methods inspire them, too, but for me, it’s purely a functional exercise.”

Mask wearing is not always enjoyable, but it remains critical in keeping people safe from COVID-19, especially the elderly and other high-risk people, Gupta says.

“There is lots of research and experts working hard to stop COVID-19,” she says. “It is important for all of us to remember that wearing a mask alone doesn’t make us safe.”

“We all need to keep washing our hands frequently and maintaining a distance from people, as well.”

For more information on where to find 3-ply surgical masks and N95s, check here or here to start.

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

With new cases of COVID-19 skyrocketing to more than 240,000 a day recently in the U.S., many people are facing the same situation: A family member or friend tests positive or was exposed to someone who did, and the holiday gathering, visit, or return to work is just days or hours away. Now what?

New guidance issued Dec. 27 by the Centers for Disease Control and Prevention shortens the recommended isolation and quarantine period for the general population, coming after the agency shortened the isolation period for health care workers.

This news organization reached out to two infectious disease specialists to get answers to questions that are frequently asked in these situations.
 

If you have tested positive for COVID-19, what do you do next?

“If you have tested positive, you are infected. At the moment, you are [either] symptomatically affected or presymptomatically infected,’’ said Paul A. Offit, MD, director of the Vaccine Education Center and professor of pediatrics at Children’s Hospital of Philadelphia. At that point, you need to isolate for 5 days, according to the new CDC guidance. (That period has been shortened from 10 days.)

Isolation means separating the infected person from others. Quarantine refers to things you should do if you’re exposed to the virus or you have a close contact infected with COVID-19.

Under the new CDC guidelines, after the 5-day isolation, if the infected person then has no symptoms, he or she can leave isolation and then wear a mask for 5  days.

Those who test positive also need to tell their close contacts they are positive, said Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security.  

According to the CDC, the change to a shortened quarantine time is motivated by science ‘’demonstrating that the majority of SARS-CoV-2 transmission occurs early in the course of the illness, generally in the 1-2 days prior to onset of symptoms and the 2-3 days after.”
 

If you have been exposed to someone with COVID-19, what do you do next?

“If they are vaccinated and boosted, the guidance says there is no need to quarantine,” Dr. Adalja said. But the CDC guidance does recommend these people wear a well-fitting mask at all times when around others for 10 days after exposure.

For everyone else, including the unvaccinated and those who are more than 6 months out from their second Pfizer or Moderna vaccine dose, or more than 2 months from their J&J dose, the CDC recommends a quarantine for 5 days – and wearing a mask for the 5 days after that.

On a practical level, Dr. Adalja said he thinks those who are vaccinated but not boosted could also skip the quarantine and wear a mask for 10 days. Dr. Offit agrees. Because many people exposed have trouble quarantining, Dr. Offit advises those exposed who can’t follow that guidance to be sure to wear a mask for 10 days when indoors. The CDC guidance also offers that as another strategy – that if a 5-day quarantine is not feasible, the exposed person should wear a mask for 10 days when around others.

But if  someone who was exposed gets symptoms, that person then enters the infected category and follows that guidance, Dr. Offit said.
 

When should the person who has been exposed get tested?

After the exposure, ‘’you should probably wait 2-3 days,” Dr. Offit said. “The virus has to reproduce itself.”

Testing should be done by those exposed at least once, Dr. Adalja said.

“But there’s data to support daily testing to guide their activities, but this is not CDC guidance. Home tests are sufficient for this purpose.”
 

At what point can the infected person mingle safely with others?

“Technically, if asymptomatic, 10 days without a mask, 5 days with a mask,” said Dr. Adalja. “I think this could also be guided with home test negativity being a gauge [as to whether to mingle].”

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

With new cases of COVID-19 skyrocketing to more than 240,000 a day recently in the U.S., many people are facing the same situation: A family member or friend tests positive or was exposed to someone who did, and the holiday gathering, visit, or return to work is just days or hours away. Now what?

New guidance issued Dec. 27 by the Centers for Disease Control and Prevention shortens the recommended isolation and quarantine period for the general population, coming after the agency shortened the isolation period for health care workers.

This news organization reached out to two infectious disease specialists to get answers to questions that are frequently asked in these situations.
 

If you have tested positive for COVID-19, what do you do next?

“If you have tested positive, you are infected. At the moment, you are [either] symptomatically affected or presymptomatically infected,’’ said Paul A. Offit, MD, director of the Vaccine Education Center and professor of pediatrics at Children’s Hospital of Philadelphia. At that point, you need to isolate for 5 days, according to the new CDC guidance. (That period has been shortened from 10 days.)

Isolation means separating the infected person from others. Quarantine refers to things you should do if you’re exposed to the virus or you have a close contact infected with COVID-19.

Under the new CDC guidelines, after the 5-day isolation, if the infected person then has no symptoms, he or she can leave isolation and then wear a mask for 5  days.

Those who test positive also need to tell their close contacts they are positive, said Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security.  

According to the CDC, the change to a shortened quarantine time is motivated by science ‘’demonstrating that the majority of SARS-CoV-2 transmission occurs early in the course of the illness, generally in the 1-2 days prior to onset of symptoms and the 2-3 days after.”
 

If you have been exposed to someone with COVID-19, what do you do next?

“If they are vaccinated and boosted, the guidance says there is no need to quarantine,” Dr. Adalja said. But the CDC guidance does recommend these people wear a well-fitting mask at all times when around others for 10 days after exposure.

For everyone else, including the unvaccinated and those who are more than 6 months out from their second Pfizer or Moderna vaccine dose, or more than 2 months from their J&J dose, the CDC recommends a quarantine for 5 days – and wearing a mask for the 5 days after that.

On a practical level, Dr. Adalja said he thinks those who are vaccinated but not boosted could also skip the quarantine and wear a mask for 10 days. Dr. Offit agrees. Because many people exposed have trouble quarantining, Dr. Offit advises those exposed who can’t follow that guidance to be sure to wear a mask for 10 days when indoors. The CDC guidance also offers that as another strategy – that if a 5-day quarantine is not feasible, the exposed person should wear a mask for 10 days when around others.

But if  someone who was exposed gets symptoms, that person then enters the infected category and follows that guidance, Dr. Offit said.
 

When should the person who has been exposed get tested?

After the exposure, ‘’you should probably wait 2-3 days,” Dr. Offit said. “The virus has to reproduce itself.”

Testing should be done by those exposed at least once, Dr. Adalja said.

“But there’s data to support daily testing to guide their activities, but this is not CDC guidance. Home tests are sufficient for this purpose.”
 

At what point can the infected person mingle safely with others?

“Technically, if asymptomatic, 10 days without a mask, 5 days with a mask,” said Dr. Adalja. “I think this could also be guided with home test negativity being a gauge [as to whether to mingle].”

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

With new cases of COVID-19 skyrocketing to more than 240,000 a day recently in the U.S., many people are facing the same situation: A family member or friend tests positive or was exposed to someone who did, and the holiday gathering, visit, or return to work is just days or hours away. Now what?

New guidance issued Dec. 27 by the Centers for Disease Control and Prevention shortens the recommended isolation and quarantine period for the general population, coming after the agency shortened the isolation period for health care workers.

This news organization reached out to two infectious disease specialists to get answers to questions that are frequently asked in these situations.
 

If you have tested positive for COVID-19, what do you do next?

“If you have tested positive, you are infected. At the moment, you are [either] symptomatically affected or presymptomatically infected,’’ said Paul A. Offit, MD, director of the Vaccine Education Center and professor of pediatrics at Children’s Hospital of Philadelphia. At that point, you need to isolate for 5 days, according to the new CDC guidance. (That period has been shortened from 10 days.)

Isolation means separating the infected person from others. Quarantine refers to things you should do if you’re exposed to the virus or you have a close contact infected with COVID-19.

Under the new CDC guidelines, after the 5-day isolation, if the infected person then has no symptoms, he or she can leave isolation and then wear a mask for 5  days.

Those who test positive also need to tell their close contacts they are positive, said Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security.  

According to the CDC, the change to a shortened quarantine time is motivated by science ‘’demonstrating that the majority of SARS-CoV-2 transmission occurs early in the course of the illness, generally in the 1-2 days prior to onset of symptoms and the 2-3 days after.”
 

If you have been exposed to someone with COVID-19, what do you do next?

“If they are vaccinated and boosted, the guidance says there is no need to quarantine,” Dr. Adalja said. But the CDC guidance does recommend these people wear a well-fitting mask at all times when around others for 10 days after exposure.

For everyone else, including the unvaccinated and those who are more than 6 months out from their second Pfizer or Moderna vaccine dose, or more than 2 months from their J&J dose, the CDC recommends a quarantine for 5 days – and wearing a mask for the 5 days after that.

On a practical level, Dr. Adalja said he thinks those who are vaccinated but not boosted could also skip the quarantine and wear a mask for 10 days. Dr. Offit agrees. Because many people exposed have trouble quarantining, Dr. Offit advises those exposed who can’t follow that guidance to be sure to wear a mask for 10 days when indoors. The CDC guidance also offers that as another strategy – that if a 5-day quarantine is not feasible, the exposed person should wear a mask for 10 days when around others.

But if  someone who was exposed gets symptoms, that person then enters the infected category and follows that guidance, Dr. Offit said.
 

When should the person who has been exposed get tested?

After the exposure, ‘’you should probably wait 2-3 days,” Dr. Offit said. “The virus has to reproduce itself.”

Testing should be done by those exposed at least once, Dr. Adalja said.

“But there’s data to support daily testing to guide their activities, but this is not CDC guidance. Home tests are sufficient for this purpose.”
 

At what point can the infected person mingle safely with others?

“Technically, if asymptomatic, 10 days without a mask, 5 days with a mask,” said Dr. Adalja. “I think this could also be guided with home test negativity being a gauge [as to whether to mingle].”

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

Rapid antigen tests for COVID-19 might be less effective at detecting the Omicron variant that is spreading rapidly across the United States, according to the Food and Drug Administration.

Early data suggest that COVID-19 antigen tests “do detect the Omicron variant but may have reduced sensitivity,” the FDA said in a statement posted Dec. 28 on its website.

The FDA is working with the National Institutes of Health’s Rapid Acceleration of Diagnostics (RADx) initiative to assess the performance of antigen tests with patient samples that have the Omicron variant.

The potential for antigen tests to be less sensitive for the Omicron variant emerged in tests using patient samples containing live virus, “which represents the best way to evaluate true test performance in the short term,” the FDA said.

Initial laboratory tests using heat-activated (killed) virus samples found that antigen tests were able to detect the Omicron variant.

“It is important to note that these laboratory data are not a replacement for clinical study evaluations using patient samples with live virus, which are ongoing. The FDA and RADx are continuing to further evaluate the performance of antigen tests using patient samples with live virus,” the FDA said.
 

Testing still important

The agency continues to recommend use of antigen tests as directed in the authorized labeling and in accordance with the instructions included with the tests.

They note that antigen tests are generally less sensitive and less likely to pick up very early infections, compared with molecular tests.

The FDA continues to recommend that an individual with a negative antigen test who has symptoms or a high likelihood of infection because of exposure follow-up with a molecular test to determine if they have COVID-19.

An individual with a positive antigen test should self-isolate and seek follow-up care with a health care provider to determine the next steps.

The FDA, with partners and test developers, are continuing to evaluate test sensitivity, as well as the best timing and frequency of antigen testing.

The agency said that it will provide updated information and any needed recommendations when appropriate.

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

Rapid antigen tests for COVID-19 might be less effective at detecting the Omicron variant that is spreading rapidly across the United States, according to the Food and Drug Administration.

Early data suggest that COVID-19 antigen tests “do detect the Omicron variant but may have reduced sensitivity,” the FDA said in a statement posted Dec. 28 on its website.

The FDA is working with the National Institutes of Health’s Rapid Acceleration of Diagnostics (RADx) initiative to assess the performance of antigen tests with patient samples that have the Omicron variant.

The potential for antigen tests to be less sensitive for the Omicron variant emerged in tests using patient samples containing live virus, “which represents the best way to evaluate true test performance in the short term,” the FDA said.

Initial laboratory tests using heat-activated (killed) virus samples found that antigen tests were able to detect the Omicron variant.

“It is important to note that these laboratory data are not a replacement for clinical study evaluations using patient samples with live virus, which are ongoing. The FDA and RADx are continuing to further evaluate the performance of antigen tests using patient samples with live virus,” the FDA said.
 

Testing still important

The agency continues to recommend use of antigen tests as directed in the authorized labeling and in accordance with the instructions included with the tests.

They note that antigen tests are generally less sensitive and less likely to pick up very early infections, compared with molecular tests.

The FDA continues to recommend that an individual with a negative antigen test who has symptoms or a high likelihood of infection because of exposure follow-up with a molecular test to determine if they have COVID-19.

An individual with a positive antigen test should self-isolate and seek follow-up care with a health care provider to determine the next steps.

The FDA, with partners and test developers, are continuing to evaluate test sensitivity, as well as the best timing and frequency of antigen testing.

The agency said that it will provide updated information and any needed recommendations when appropriate.

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

Rapid antigen tests for COVID-19 might be less effective at detecting the Omicron variant that is spreading rapidly across the United States, according to the Food and Drug Administration.

Early data suggest that COVID-19 antigen tests “do detect the Omicron variant but may have reduced sensitivity,” the FDA said in a statement posted Dec. 28 on its website.

The FDA is working with the National Institutes of Health’s Rapid Acceleration of Diagnostics (RADx) initiative to assess the performance of antigen tests with patient samples that have the Omicron variant.

The potential for antigen tests to be less sensitive for the Omicron variant emerged in tests using patient samples containing live virus, “which represents the best way to evaluate true test performance in the short term,” the FDA said.

Initial laboratory tests using heat-activated (killed) virus samples found that antigen tests were able to detect the Omicron variant.

“It is important to note that these laboratory data are not a replacement for clinical study evaluations using patient samples with live virus, which are ongoing. The FDA and RADx are continuing to further evaluate the performance of antigen tests using patient samples with live virus,” the FDA said.
 

Testing still important

The agency continues to recommend use of antigen tests as directed in the authorized labeling and in accordance with the instructions included with the tests.

They note that antigen tests are generally less sensitive and less likely to pick up very early infections, compared with molecular tests.

The FDA continues to recommend that an individual with a negative antigen test who has symptoms or a high likelihood of infection because of exposure follow-up with a molecular test to determine if they have COVID-19.

An individual with a positive antigen test should self-isolate and seek follow-up care with a health care provider to determine the next steps.

The FDA, with partners and test developers, are continuing to evaluate test sensitivity, as well as the best timing and frequency of antigen testing.

The agency said that it will provide updated information and any needed recommendations when appropriate.

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

The coronavirus that causes COVID-19 can spread to the heart and brain within days of infection and can survive for months in organs, according to a new study by the National Institutes of Health.

The virus can spread to almost every organ system in the body, which could contribute to the ongoing symptoms seen in “long COVID” patients, the study authors wrote. The study is considered one of the most comprehensive reviews of how the virus replicates in human cells and persists in the human body. It is under review for publication in the journal Nature.

“This is remarkably important work,” Ziyad Al-Aly, MD, director of the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System, told Bloomberg News. Dr. Al-Aly wasn’t involved with the NIH study but has researched the long-term effects of COVID-19.

“For a long time now, we have been scratching our heads and asking why long COVID seems to affect so many organ systems,” he said. “This paper sheds some light and may help explain why long COVID can occur even in people who had mild or asymptomatic acute disease.”

The NIH researchers sampled and analyzed tissues from autopsies on 44 patients who died after contracting the coronavirus during the first year of the pandemic. They found persistent virus particles in multiple parts of the body, including the heart and brain, for as long as 230 days after symptoms began. This could represent infection with defective virus particles, they said, which has also been seen in persistent infections among measles patients.

“We don’t yet know what burden of chronic illness will result in years to come,” Raina MacIntyre, PhD, a professor of global biosecurity at the University of New South Wales, Sydney, told Bloomberg News.

“Will we see young-onset cardiac failure in survivors or early-onset dementia?” she asked. “These are unanswered questions which call for a precautionary public health approach to mitigation of the spread of this virus.”

Unlike other COVID-19 autopsy research, the NIH team had a more comprehensive postmortem tissue collection process, which typically occurred within a day of the patient’s death, Bloomberg News reported. The researchers also used a variety of ways to preserve tissue to figure out viral levels. They were able to grow the virus collected from several tissues, including the heart, lungs, small intestine, and adrenal glands.

“Our results collectively show that, while the highest burden of SARS-CoV-2 is in the airways and lung, the virus can disseminate early during infection and infect cells throughout the entire body, including widely throughout the brain,” the study authors wrote.

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

The coronavirus that causes COVID-19 can spread to the heart and brain within days of infection and can survive for months in organs, according to a new study by the National Institutes of Health.

The virus can spread to almost every organ system in the body, which could contribute to the ongoing symptoms seen in “long COVID” patients, the study authors wrote. The study is considered one of the most comprehensive reviews of how the virus replicates in human cells and persists in the human body. It is under review for publication in the journal Nature.

“This is remarkably important work,” Ziyad Al-Aly, MD, director of the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System, told Bloomberg News. Dr. Al-Aly wasn’t involved with the NIH study but has researched the long-term effects of COVID-19.

“For a long time now, we have been scratching our heads and asking why long COVID seems to affect so many organ systems,” he said. “This paper sheds some light and may help explain why long COVID can occur even in people who had mild or asymptomatic acute disease.”

The NIH researchers sampled and analyzed tissues from autopsies on 44 patients who died after contracting the coronavirus during the first year of the pandemic. They found persistent virus particles in multiple parts of the body, including the heart and brain, for as long as 230 days after symptoms began. This could represent infection with defective virus particles, they said, which has also been seen in persistent infections among measles patients.

“We don’t yet know what burden of chronic illness will result in years to come,” Raina MacIntyre, PhD, a professor of global biosecurity at the University of New South Wales, Sydney, told Bloomberg News.

“Will we see young-onset cardiac failure in survivors or early-onset dementia?” she asked. “These are unanswered questions which call for a precautionary public health approach to mitigation of the spread of this virus.”

Unlike other COVID-19 autopsy research, the NIH team had a more comprehensive postmortem tissue collection process, which typically occurred within a day of the patient’s death, Bloomberg News reported. The researchers also used a variety of ways to preserve tissue to figure out viral levels. They were able to grow the virus collected from several tissues, including the heart, lungs, small intestine, and adrenal glands.

“Our results collectively show that, while the highest burden of SARS-CoV-2 is in the airways and lung, the virus can disseminate early during infection and infect cells throughout the entire body, including widely throughout the brain,” the study authors wrote.

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

The coronavirus that causes COVID-19 can spread to the heart and brain within days of infection and can survive for months in organs, according to a new study by the National Institutes of Health.

The virus can spread to almost every organ system in the body, which could contribute to the ongoing symptoms seen in “long COVID” patients, the study authors wrote. The study is considered one of the most comprehensive reviews of how the virus replicates in human cells and persists in the human body. It is under review for publication in the journal Nature.

“This is remarkably important work,” Ziyad Al-Aly, MD, director of the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System, told Bloomberg News. Dr. Al-Aly wasn’t involved with the NIH study but has researched the long-term effects of COVID-19.

“For a long time now, we have been scratching our heads and asking why long COVID seems to affect so many organ systems,” he said. “This paper sheds some light and may help explain why long COVID can occur even in people who had mild or asymptomatic acute disease.”

The NIH researchers sampled and analyzed tissues from autopsies on 44 patients who died after contracting the coronavirus during the first year of the pandemic. They found persistent virus particles in multiple parts of the body, including the heart and brain, for as long as 230 days after symptoms began. This could represent infection with defective virus particles, they said, which has also been seen in persistent infections among measles patients.

“We don’t yet know what burden of chronic illness will result in years to come,” Raina MacIntyre, PhD, a professor of global biosecurity at the University of New South Wales, Sydney, told Bloomberg News.

“Will we see young-onset cardiac failure in survivors or early-onset dementia?” she asked. “These are unanswered questions which call for a precautionary public health approach to mitigation of the spread of this virus.”

Unlike other COVID-19 autopsy research, the NIH team had a more comprehensive postmortem tissue collection process, which typically occurred within a day of the patient’s death, Bloomberg News reported. The researchers also used a variety of ways to preserve tissue to figure out viral levels. They were able to grow the virus collected from several tissues, including the heart, lungs, small intestine, and adrenal glands.

“Our results collectively show that, while the highest burden of SARS-CoV-2 is in the airways and lung, the virus can disseminate early during infection and infect cells throughout the entire body, including widely throughout the brain,” the study authors wrote.

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

People with cancer are often desperate to know what caused their disease. Was it something they did? Something they could have prevented?

vitanovski/Thinkstock.com

In a recent analysis, experts estimated that about 40% of cancers can be explained by known, often modifiable risk factors. Smoking and obesity represent the primary drivers, though a host of other factors – germline mutations, alcohol, infections, or environmental pollutants like asbestos – contribute to cancer risk as well.

But what about the remaining 60% of cancers?

The study suggests that, although many of these cases likely have an underlying lifestyle or environmental component, experts still do not fully understand their origin story. And a small but significant number may simply be caused by chance.

Here’s what experts suspect those missing causes might be, and why they can be so difficult to confirm.
 

Possibility 1: Known risk factors contribute more than we realize

For certain factors, a straight line can be drawn to cancer.

Take smoking, for instance. Decades of research have helped scientists clearly delineate tobacco’s carcinogenic effects. Researchers have pinpointed a unique set of mutations in the tumors of smokers that can be seen when cells grown in a dish are exposed to the carcinogens present in tobacco.

In addition, experts have been able to collect robust data from epidemiologic studies on smoking prevalence as well as associated cancer risks and deaths, in large part because an individual’s lifetime tobacco exposure is fairly easy to measure.

“The evidence for smoking is incredibly consistent,” Paul Brennan, PhD, a cancer epidemiologist at the World Health Organization’s International Agency for Research on Cancer, said in an interview.

For other known risk factors, such as obesity and air pollution, many more questions than answers remain.

Because of the limitations in how such factors are measured, we are likely downplaying their effects, said Richard Martin, PhD, a professor of clinical epidemiology at the University of Bristol (England).

Take obesity. Excess body weight is associated with an increased risk of at least 13 cancers. Although risk estimates vary by study and cancer type, according to a global snapshot from 2012, being overweight or obese accounted for about 4% of all cancers worldwide – 1% in low-income countries and as high as 8% in high-income countries.

However, Dr. Brennan believes “we have underestimated the effect of obesity [on cancer].”

A key reason, he said, is most studies use body mass index to determine whether someone is overweight or obese, but BMI is a poor measure of body fat. BMI does not differentiate between fat and muscle, which means two people with the same height and weight can have the same BMI, even if one is an athlete who eats lean meats and vegetables while the other lives a sedentary life and consumes large quantities of processed foods and alcohol.

On top of that, studies often only calculate a person’s BMI once, and a single measurement can’t tell you how a person’s weight has fluctuated in recent years or across different stages of their life. However, recent analyses suggest that obesity status over time may be more relevant to cancer risk than one-off measures.

In addition, many studies now suggest that alterations to our gut microbes and high blood insulin level – often seen in people who are overweight or obese – may increase the risk of cancer and speed the growth of tumors.

When these additional factors are considered, the impact of excess body fat may ultimately play a much more significant role in cancer risk. In fact, according to Dr. Brennan, “if we estimate [the effects of obesity] properly, it might at some point become the main cause of cancer.”
 

Possibility 2: Environmental or lifestyle factors remain under the radar

Researchers have linked many substances we consume or are exposed to in our daily lives – air pollution, toxins from industrial waste, and highly processed foods – to cancer. But the extent or contribution of potential carcinogens in our surroundings, particularly those found almost everywhere at low levels, is still largely unknown.

One simple reason is the effects of many of these substances remain difficult to assess. For instance, it is much harder to study the impact of pollutants found in food or water, in which a given population will share similar exposure levels versus tobacco, where it is possible to compare a person who smokes a pack of cigarettes a day with a person who does not smoke.

“If you’ve got exposures that are ubiquitous, it can be difficult to discern their [individual] roles,” Dr. Martin said. “There are many causes that we [likely] don’t really know because everyone has been exposed.”

On the flip side, some carcinogenic substances that people encounter for limited periods might be missed if studies are not performed at the time of exposure.

“What’s in the body at age 40 may not reflect what you were exposed at age 5-10 on the playground or soccer field,” said Graham Colditz, MD, PhD, an epidemiologist and public health expert at Washington University, St. Louis. “The technology keeps changing so we can get better measures of what you’ve got exposure to today, but how that relates to 5, 10, 15 years ago is probably very variable.”

In addition, researchers have found that many carcinogens do not cause specific mutations in a cell’s DNA; rather, studies suggest that most carcinogens lead to cancer-promoting changes in cells, such as inflammation.

“We need to think of how potential carcinogens are causing cancer,” Dr. Brennan said. Instead of provoking mutations, potential carcinogens may use a “whole other kind of pathway.” When, for instance, inflammation becomes chronic, it may spur a cascade of events that ultimately leads to cancer.

Finally, not much is known about what causes cancers in low- and middle-income countries. Most of the research to date has been in high-income countries, such the United States, Australia, and parts of Europe.

“There’s a real lack of robust epidemiological studies in other parts of the world, Latin America, Africa, parts of Asia,” Marc Gunter, PhD, a molecular epidemiologist at the IARC, told this news organization.
 

Possibility 3: Some cancers occur by chance

When it comes to cancer risk, an element of chance may be at play. Cancer can occur in individuals who have very little exposure to known carcinogens or have no family history of cancer.

“We all know there are people who get cancer who eat very healthy diets, are never overweight, and never smoke,” Dr. Gunter said. “Then there are people on the other end of the extreme who don’t get cancer.”

But what fraction of cancers are attributable to chance?

A controversial 2017 study published in Science suggested that, based on the rate of cell turnover in healthy tissues in the lung, pancreas, and other parts of the body, only about one-third of cancers could be linked to environmental or genetic factors. The rest, the authors claimed, occurred because of random mutations that accumulated in a person’s DNA – in other words, bad luck.

That study brought on a flood of criticism from scientists who pointed to serious flaws in the work that led the researchers to significantly overestimate the share of chance-related cancers.

The actual proportion of cancers that occur by chance is much lower, according to Dr. Brennan. “If you look at international comparisons [of cancer rates] and take a conservative estimate, you see that maybe 10% or 15% of cancers are really chance.”

Whether some cancers are caused by bad luck or undiscovered risk factors remains an open question.

But the bottom line is many unknown causes of cancer are likely environmental or lifestyle related, which means that, in theory, they can be altered, even prevented.

“There is always going to be some element of chance, but you can modify your chance, depending on your lifestyle and maybe other factors, which we don’t fully understand yet,” Dr. Gunter said.

The good news is that, when it comes to prevention, there are many ways to modify our behaviors – such as consuming fewer processed meats, going for a daily walk, or getting vaccinated against cancer-causing viruses – to improve our chances of living cancer free. And as scientists better understand more about what causes cancer, possibilities for prevention will only grow.

“There is a constant, slow growth [in knowledge] that is lowering the overall risk of cancer,” Dr. Brennan said. “We’re never going to eliminate cancer, but we will be able to control it as a disease.”

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

People with cancer are often desperate to know what caused their disease. Was it something they did? Something they could have prevented?

vitanovski/Thinkstock.com

In a recent analysis, experts estimated that about 40% of cancers can be explained by known, often modifiable risk factors. Smoking and obesity represent the primary drivers, though a host of other factors – germline mutations, alcohol, infections, or environmental pollutants like asbestos – contribute to cancer risk as well.

But what about the remaining 60% of cancers?

The study suggests that, although many of these cases likely have an underlying lifestyle or environmental component, experts still do not fully understand their origin story. And a small but significant number may simply be caused by chance.

Here’s what experts suspect those missing causes might be, and why they can be so difficult to confirm.
 

Possibility 1: Known risk factors contribute more than we realize

For certain factors, a straight line can be drawn to cancer.

Take smoking, for instance. Decades of research have helped scientists clearly delineate tobacco’s carcinogenic effects. Researchers have pinpointed a unique set of mutations in the tumors of smokers that can be seen when cells grown in a dish are exposed to the carcinogens present in tobacco.

In addition, experts have been able to collect robust data from epidemiologic studies on smoking prevalence as well as associated cancer risks and deaths, in large part because an individual’s lifetime tobacco exposure is fairly easy to measure.

“The evidence for smoking is incredibly consistent,” Paul Brennan, PhD, a cancer epidemiologist at the World Health Organization’s International Agency for Research on Cancer, said in an interview.

For other known risk factors, such as obesity and air pollution, many more questions than answers remain.

Because of the limitations in how such factors are measured, we are likely downplaying their effects, said Richard Martin, PhD, a professor of clinical epidemiology at the University of Bristol (England).

Take obesity. Excess body weight is associated with an increased risk of at least 13 cancers. Although risk estimates vary by study and cancer type, according to a global snapshot from 2012, being overweight or obese accounted for about 4% of all cancers worldwide – 1% in low-income countries and as high as 8% in high-income countries.

However, Dr. Brennan believes “we have underestimated the effect of obesity [on cancer].”

A key reason, he said, is most studies use body mass index to determine whether someone is overweight or obese, but BMI is a poor measure of body fat. BMI does not differentiate between fat and muscle, which means two people with the same height and weight can have the same BMI, even if one is an athlete who eats lean meats and vegetables while the other lives a sedentary life and consumes large quantities of processed foods and alcohol.

On top of that, studies often only calculate a person’s BMI once, and a single measurement can’t tell you how a person’s weight has fluctuated in recent years or across different stages of their life. However, recent analyses suggest that obesity status over time may be more relevant to cancer risk than one-off measures.

In addition, many studies now suggest that alterations to our gut microbes and high blood insulin level – often seen in people who are overweight or obese – may increase the risk of cancer and speed the growth of tumors.

When these additional factors are considered, the impact of excess body fat may ultimately play a much more significant role in cancer risk. In fact, according to Dr. Brennan, “if we estimate [the effects of obesity] properly, it might at some point become the main cause of cancer.”
 

Possibility 2: Environmental or lifestyle factors remain under the radar

Researchers have linked many substances we consume or are exposed to in our daily lives – air pollution, toxins from industrial waste, and highly processed foods – to cancer. But the extent or contribution of potential carcinogens in our surroundings, particularly those found almost everywhere at low levels, is still largely unknown.

One simple reason is the effects of many of these substances remain difficult to assess. For instance, it is much harder to study the impact of pollutants found in food or water, in which a given population will share similar exposure levels versus tobacco, where it is possible to compare a person who smokes a pack of cigarettes a day with a person who does not smoke.

“If you’ve got exposures that are ubiquitous, it can be difficult to discern their [individual] roles,” Dr. Martin said. “There are many causes that we [likely] don’t really know because everyone has been exposed.”

On the flip side, some carcinogenic substances that people encounter for limited periods might be missed if studies are not performed at the time of exposure.

“What’s in the body at age 40 may not reflect what you were exposed at age 5-10 on the playground or soccer field,” said Graham Colditz, MD, PhD, an epidemiologist and public health expert at Washington University, St. Louis. “The technology keeps changing so we can get better measures of what you’ve got exposure to today, but how that relates to 5, 10, 15 years ago is probably very variable.”

In addition, researchers have found that many carcinogens do not cause specific mutations in a cell’s DNA; rather, studies suggest that most carcinogens lead to cancer-promoting changes in cells, such as inflammation.

“We need to think of how potential carcinogens are causing cancer,” Dr. Brennan said. Instead of provoking mutations, potential carcinogens may use a “whole other kind of pathway.” When, for instance, inflammation becomes chronic, it may spur a cascade of events that ultimately leads to cancer.

Finally, not much is known about what causes cancers in low- and middle-income countries. Most of the research to date has been in high-income countries, such the United States, Australia, and parts of Europe.

“There’s a real lack of robust epidemiological studies in other parts of the world, Latin America, Africa, parts of Asia,” Marc Gunter, PhD, a molecular epidemiologist at the IARC, told this news organization.
 

Possibility 3: Some cancers occur by chance

When it comes to cancer risk, an element of chance may be at play. Cancer can occur in individuals who have very little exposure to known carcinogens or have no family history of cancer.

“We all know there are people who get cancer who eat very healthy diets, are never overweight, and never smoke,” Dr. Gunter said. “Then there are people on the other end of the extreme who don’t get cancer.”

But what fraction of cancers are attributable to chance?

A controversial 2017 study published in Science suggested that, based on the rate of cell turnover in healthy tissues in the lung, pancreas, and other parts of the body, only about one-third of cancers could be linked to environmental or genetic factors. The rest, the authors claimed, occurred because of random mutations that accumulated in a person’s DNA – in other words, bad luck.

That study brought on a flood of criticism from scientists who pointed to serious flaws in the work that led the researchers to significantly overestimate the share of chance-related cancers.

The actual proportion of cancers that occur by chance is much lower, according to Dr. Brennan. “If you look at international comparisons [of cancer rates] and take a conservative estimate, you see that maybe 10% or 15% of cancers are really chance.”

Whether some cancers are caused by bad luck or undiscovered risk factors remains an open question.

But the bottom line is many unknown causes of cancer are likely environmental or lifestyle related, which means that, in theory, they can be altered, even prevented.

“There is always going to be some element of chance, but you can modify your chance, depending on your lifestyle and maybe other factors, which we don’t fully understand yet,” Dr. Gunter said.

The good news is that, when it comes to prevention, there are many ways to modify our behaviors – such as consuming fewer processed meats, going for a daily walk, or getting vaccinated against cancer-causing viruses – to improve our chances of living cancer free. And as scientists better understand more about what causes cancer, possibilities for prevention will only grow.

“There is a constant, slow growth [in knowledge] that is lowering the overall risk of cancer,” Dr. Brennan said. “We’re never going to eliminate cancer, but we will be able to control it as a disease.”

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

People with cancer are often desperate to know what caused their disease. Was it something they did? Something they could have prevented?

vitanovski/Thinkstock.com

In a recent analysis, experts estimated that about 40% of cancers can be explained by known, often modifiable risk factors. Smoking and obesity represent the primary drivers, though a host of other factors – germline mutations, alcohol, infections, or environmental pollutants like asbestos – contribute to cancer risk as well.

But what about the remaining 60% of cancers?

The study suggests that, although many of these cases likely have an underlying lifestyle or environmental component, experts still do not fully understand their origin story. And a small but significant number may simply be caused by chance.

Here’s what experts suspect those missing causes might be, and why they can be so difficult to confirm.
 

Possibility 1: Known risk factors contribute more than we realize

For certain factors, a straight line can be drawn to cancer.

Take smoking, for instance. Decades of research have helped scientists clearly delineate tobacco’s carcinogenic effects. Researchers have pinpointed a unique set of mutations in the tumors of smokers that can be seen when cells grown in a dish are exposed to the carcinogens present in tobacco.

In addition, experts have been able to collect robust data from epidemiologic studies on smoking prevalence as well as associated cancer risks and deaths, in large part because an individual’s lifetime tobacco exposure is fairly easy to measure.

“The evidence for smoking is incredibly consistent,” Paul Brennan, PhD, a cancer epidemiologist at the World Health Organization’s International Agency for Research on Cancer, said in an interview.

For other known risk factors, such as obesity and air pollution, many more questions than answers remain.

Because of the limitations in how such factors are measured, we are likely downplaying their effects, said Richard Martin, PhD, a professor of clinical epidemiology at the University of Bristol (England).

Take obesity. Excess body weight is associated with an increased risk of at least 13 cancers. Although risk estimates vary by study and cancer type, according to a global snapshot from 2012, being overweight or obese accounted for about 4% of all cancers worldwide – 1% in low-income countries and as high as 8% in high-income countries.

However, Dr. Brennan believes “we have underestimated the effect of obesity [on cancer].”

A key reason, he said, is most studies use body mass index to determine whether someone is overweight or obese, but BMI is a poor measure of body fat. BMI does not differentiate between fat and muscle, which means two people with the same height and weight can have the same BMI, even if one is an athlete who eats lean meats and vegetables while the other lives a sedentary life and consumes large quantities of processed foods and alcohol.

On top of that, studies often only calculate a person’s BMI once, and a single measurement can’t tell you how a person’s weight has fluctuated in recent years or across different stages of their life. However, recent analyses suggest that obesity status over time may be more relevant to cancer risk than one-off measures.

In addition, many studies now suggest that alterations to our gut microbes and high blood insulin level – often seen in people who are overweight or obese – may increase the risk of cancer and speed the growth of tumors.

When these additional factors are considered, the impact of excess body fat may ultimately play a much more significant role in cancer risk. In fact, according to Dr. Brennan, “if we estimate [the effects of obesity] properly, it might at some point become the main cause of cancer.”
 

Possibility 2: Environmental or lifestyle factors remain under the radar

Researchers have linked many substances we consume or are exposed to in our daily lives – air pollution, toxins from industrial waste, and highly processed foods – to cancer. But the extent or contribution of potential carcinogens in our surroundings, particularly those found almost everywhere at low levels, is still largely unknown.

One simple reason is the effects of many of these substances remain difficult to assess. For instance, it is much harder to study the impact of pollutants found in food or water, in which a given population will share similar exposure levels versus tobacco, where it is possible to compare a person who smokes a pack of cigarettes a day with a person who does not smoke.

“If you’ve got exposures that are ubiquitous, it can be difficult to discern their [individual] roles,” Dr. Martin said. “There are many causes that we [likely] don’t really know because everyone has been exposed.”

On the flip side, some carcinogenic substances that people encounter for limited periods might be missed if studies are not performed at the time of exposure.

“What’s in the body at age 40 may not reflect what you were exposed at age 5-10 on the playground or soccer field,” said Graham Colditz, MD, PhD, an epidemiologist and public health expert at Washington University, St. Louis. “The technology keeps changing so we can get better measures of what you’ve got exposure to today, but how that relates to 5, 10, 15 years ago is probably very variable.”

In addition, researchers have found that many carcinogens do not cause specific mutations in a cell’s DNA; rather, studies suggest that most carcinogens lead to cancer-promoting changes in cells, such as inflammation.

“We need to think of how potential carcinogens are causing cancer,” Dr. Brennan said. Instead of provoking mutations, potential carcinogens may use a “whole other kind of pathway.” When, for instance, inflammation becomes chronic, it may spur a cascade of events that ultimately leads to cancer.

Finally, not much is known about what causes cancers in low- and middle-income countries. Most of the research to date has been in high-income countries, such the United States, Australia, and parts of Europe.

“There’s a real lack of robust epidemiological studies in other parts of the world, Latin America, Africa, parts of Asia,” Marc Gunter, PhD, a molecular epidemiologist at the IARC, told this news organization.
 

Possibility 3: Some cancers occur by chance

When it comes to cancer risk, an element of chance may be at play. Cancer can occur in individuals who have very little exposure to known carcinogens or have no family history of cancer.

“We all know there are people who get cancer who eat very healthy diets, are never overweight, and never smoke,” Dr. Gunter said. “Then there are people on the other end of the extreme who don’t get cancer.”

But what fraction of cancers are attributable to chance?

A controversial 2017 study published in Science suggested that, based on the rate of cell turnover in healthy tissues in the lung, pancreas, and other parts of the body, only about one-third of cancers could be linked to environmental or genetic factors. The rest, the authors claimed, occurred because of random mutations that accumulated in a person’s DNA – in other words, bad luck.

That study brought on a flood of criticism from scientists who pointed to serious flaws in the work that led the researchers to significantly overestimate the share of chance-related cancers.

The actual proportion of cancers that occur by chance is much lower, according to Dr. Brennan. “If you look at international comparisons [of cancer rates] and take a conservative estimate, you see that maybe 10% or 15% of cancers are really chance.”

Whether some cancers are caused by bad luck or undiscovered risk factors remains an open question.

But the bottom line is many unknown causes of cancer are likely environmental or lifestyle related, which means that, in theory, they can be altered, even prevented.

“There is always going to be some element of chance, but you can modify your chance, depending on your lifestyle and maybe other factors, which we don’t fully understand yet,” Dr. Gunter said.

The good news is that, when it comes to prevention, there are many ways to modify our behaviors – such as consuming fewer processed meats, going for a daily walk, or getting vaccinated against cancer-causing viruses – to improve our chances of living cancer free. And as scientists better understand more about what causes cancer, possibilities for prevention will only grow.

“There is a constant, slow growth [in knowledge] that is lowering the overall risk of cancer,” Dr. Brennan said. “We’re never going to eliminate cancer, but we will be able to control it as a disease.”

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

Booster shot protection against symptomatic COVID-19 caused by the Omicron variant appears to fade in about 10 weeks, according to new data from Britain.

U.K. health officials shared the data just before Christmas and noted that there haven’t been enough severe cases of the Omicron variant to calculate how well boosters protect against severe disease. But they believe the extra shots provide significant protection against hospitalization and death.

“It will be a few weeks before effectiveness against severe disease with Omicron can be estimated,” U.K. Health Security Agency officials wrote in the report. “However, based on experience with previous variants, this is likely to be substantially higher than the estimates against symptomatic disease.”

Since countries began reporting Omicron cases in November, multiple studies have suggested the variant is better at escaping antibodies from vaccination and previous infection, according to the New York Times. The U.K. report adds to that, noting that both the initial vaccine series and booster doses were less effective and faded faster against the Omicron variant than the Delta variant.

Among those who received two doses of the AstraZeneca vaccine, a booster of the Pfizer or Moderna vaccine was 60% effective at preventing symptomatic disease 2 to 4 weeks after the shot. But after 10 weeks, the Pfizer booster was 35% effective, and the Moderna booster was 45% effective. (The AstraZeneca vaccine is not authorized in the United States, but the Johnson & Johnson shot uses a similar technology, the New York Times reported.)

Among those who received three Pfizer doses, vaccine effectiveness was 70% about a week after the booster but dropped to 45% after 10 weeks. At the same time, those who received an initial two-dose series of the Pfizer vaccine and then a Moderna booster seemed to have 75% effectiveness up to 9 weeks.

The report was based on an analysis of 148,000 Delta cases and 68,000 Omicron cases in the United Kingdom through Dec. 20. So far, the U.K. health officials wrote, Omicron infections appear to be less severe and less likely to lead to hospitalization than Delta infections. At that time, 132 people with lab-confirmed Omicron had been admitted to hospitals, and 14 deaths had been reported among ages 52-96.

“This analysis is preliminary because of the small numbers of Omicron cases currently in hospital and the limited spread of Omicron into older age groups as yet,” the report said.

The reinfection rate has also increased for the Omicron variant, the report found. Among the 116,000 people who had an Omicron infection, about 11,000 -- or 9.5% -- were linked to a previously confirmed infection, which is likely an undercount of reinfections. In the data analyzed, 69 Omicron cases were a third episode of COVID-19 infection, and 290 cases occurred 60-89 days after a first infection.

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

Booster shot protection against symptomatic COVID-19 caused by the Omicron variant appears to fade in about 10 weeks, according to new data from Britain.

U.K. health officials shared the data just before Christmas and noted that there haven’t been enough severe cases of the Omicron variant to calculate how well boosters protect against severe disease. But they believe the extra shots provide significant protection against hospitalization and death.

“It will be a few weeks before effectiveness against severe disease with Omicron can be estimated,” U.K. Health Security Agency officials wrote in the report. “However, based on experience with previous variants, this is likely to be substantially higher than the estimates against symptomatic disease.”

Since countries began reporting Omicron cases in November, multiple studies have suggested the variant is better at escaping antibodies from vaccination and previous infection, according to the New York Times. The U.K. report adds to that, noting that both the initial vaccine series and booster doses were less effective and faded faster against the Omicron variant than the Delta variant.

Among those who received two doses of the AstraZeneca vaccine, a booster of the Pfizer or Moderna vaccine was 60% effective at preventing symptomatic disease 2 to 4 weeks after the shot. But after 10 weeks, the Pfizer booster was 35% effective, and the Moderna booster was 45% effective. (The AstraZeneca vaccine is not authorized in the United States, but the Johnson & Johnson shot uses a similar technology, the New York Times reported.)

Among those who received three Pfizer doses, vaccine effectiveness was 70% about a week after the booster but dropped to 45% after 10 weeks. At the same time, those who received an initial two-dose series of the Pfizer vaccine and then a Moderna booster seemed to have 75% effectiveness up to 9 weeks.

The report was based on an analysis of 148,000 Delta cases and 68,000 Omicron cases in the United Kingdom through Dec. 20. So far, the U.K. health officials wrote, Omicron infections appear to be less severe and less likely to lead to hospitalization than Delta infections. At that time, 132 people with lab-confirmed Omicron had been admitted to hospitals, and 14 deaths had been reported among ages 52-96.

“This analysis is preliminary because of the small numbers of Omicron cases currently in hospital and the limited spread of Omicron into older age groups as yet,” the report said.

The reinfection rate has also increased for the Omicron variant, the report found. Among the 116,000 people who had an Omicron infection, about 11,000 -- or 9.5% -- were linked to a previously confirmed infection, which is likely an undercount of reinfections. In the data analyzed, 69 Omicron cases were a third episode of COVID-19 infection, and 290 cases occurred 60-89 days after a first infection.

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

Booster shot protection against symptomatic COVID-19 caused by the Omicron variant appears to fade in about 10 weeks, according to new data from Britain.

U.K. health officials shared the data just before Christmas and noted that there haven’t been enough severe cases of the Omicron variant to calculate how well boosters protect against severe disease. But they believe the extra shots provide significant protection against hospitalization and death.

“It will be a few weeks before effectiveness against severe disease with Omicron can be estimated,” U.K. Health Security Agency officials wrote in the report. “However, based on experience with previous variants, this is likely to be substantially higher than the estimates against symptomatic disease.”

Since countries began reporting Omicron cases in November, multiple studies have suggested the variant is better at escaping antibodies from vaccination and previous infection, according to the New York Times. The U.K. report adds to that, noting that both the initial vaccine series and booster doses were less effective and faded faster against the Omicron variant than the Delta variant.

Among those who received two doses of the AstraZeneca vaccine, a booster of the Pfizer or Moderna vaccine was 60% effective at preventing symptomatic disease 2 to 4 weeks after the shot. But after 10 weeks, the Pfizer booster was 35% effective, and the Moderna booster was 45% effective. (The AstraZeneca vaccine is not authorized in the United States, but the Johnson & Johnson shot uses a similar technology, the New York Times reported.)

Among those who received three Pfizer doses, vaccine effectiveness was 70% about a week after the booster but dropped to 45% after 10 weeks. At the same time, those who received an initial two-dose series of the Pfizer vaccine and then a Moderna booster seemed to have 75% effectiveness up to 9 weeks.

The report was based on an analysis of 148,000 Delta cases and 68,000 Omicron cases in the United Kingdom through Dec. 20. So far, the U.K. health officials wrote, Omicron infections appear to be less severe and less likely to lead to hospitalization than Delta infections. At that time, 132 people with lab-confirmed Omicron had been admitted to hospitals, and 14 deaths had been reported among ages 52-96.

“This analysis is preliminary because of the small numbers of Omicron cases currently in hospital and the limited spread of Omicron into older age groups as yet,” the report said.

The reinfection rate has also increased for the Omicron variant, the report found. Among the 116,000 people who had an Omicron infection, about 11,000 -- or 9.5% -- were linked to a previously confirmed infection, which is likely an undercount of reinfections. In the data analyzed, 69 Omicron cases were a third episode of COVID-19 infection, and 290 cases occurred 60-89 days after a first infection.

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

The antiviral remdesivir, an intravenous drug given mostly to seriously ill COVID-19 patients in hospitals, could keep unvaccinated people who become infected out of the hospital if given on an outpatient basis, a new study says.

Researchers studied 562 unvaccinated people from September 2020 to April 2021, according to the study published in the New England Journal of Medicine. The study determined the risk of hospitalization or death was 87% lower in study participants who were given remdesivir than participants who received a placebo.

All participants were at high risk of developing severe COVID-19 because of their age – they were over 60 – or because they had an underlying medical condition such as diabetes or obesity.

An important caveat: The findings are based on data collected before the Delta variant surged in the summer of 2021 or the Omicron variant surged late in the year, the Washington Post reported.

The new study says the drug could be helpful in keeping vaccinated as well as unvaccinated people out of the hospital – an important factor as the Omicron surge threatens to overwhelm health systems around the world.

Remdesivir could be a boon for COVID-19 patients in parts of the world that don’t have vaccines or for patients with immunocompromised systems.

“These data provide evidence that a 3-day course of remdesivir could play a critical role in helping COVID-19 patients stay out of the hospital,” Robert L. Gottlieb, MD, PhD, the therapeutic lead for COVID-19 research at Baylor Scott & White Health in Dallas, said in a news release from Gilead Pharmaceuticals. “While our hospitals are ready to assist patients in need, prevention and early intervention are preferable to reduce the risk of disease progression and allow patients not requiring oxygen to recover from home when appropriate.”

Remdesivir was the first antiviral for COVID-19 authorized by the Food and Drug Administration. It was given to then-President Donald Trump when he was hospitalized with COVID-19 in October 2020.

Gilead released the study findings in September.

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

The antiviral remdesivir, an intravenous drug given mostly to seriously ill COVID-19 patients in hospitals, could keep unvaccinated people who become infected out of the hospital if given on an outpatient basis, a new study says.

Researchers studied 562 unvaccinated people from September 2020 to April 2021, according to the study published in the New England Journal of Medicine. The study determined the risk of hospitalization or death was 87% lower in study participants who were given remdesivir than participants who received a placebo.

All participants were at high risk of developing severe COVID-19 because of their age – they were over 60 – or because they had an underlying medical condition such as diabetes or obesity.

An important caveat: The findings are based on data collected before the Delta variant surged in the summer of 2021 or the Omicron variant surged late in the year, the Washington Post reported.

The new study says the drug could be helpful in keeping vaccinated as well as unvaccinated people out of the hospital – an important factor as the Omicron surge threatens to overwhelm health systems around the world.

Remdesivir could be a boon for COVID-19 patients in parts of the world that don’t have vaccines or for patients with immunocompromised systems.

“These data provide evidence that a 3-day course of remdesivir could play a critical role in helping COVID-19 patients stay out of the hospital,” Robert L. Gottlieb, MD, PhD, the therapeutic lead for COVID-19 research at Baylor Scott & White Health in Dallas, said in a news release from Gilead Pharmaceuticals. “While our hospitals are ready to assist patients in need, prevention and early intervention are preferable to reduce the risk of disease progression and allow patients not requiring oxygen to recover from home when appropriate.”

Remdesivir was the first antiviral for COVID-19 authorized by the Food and Drug Administration. It was given to then-President Donald Trump when he was hospitalized with COVID-19 in October 2020.

Gilead released the study findings in September.

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

The antiviral remdesivir, an intravenous drug given mostly to seriously ill COVID-19 patients in hospitals, could keep unvaccinated people who become infected out of the hospital if given on an outpatient basis, a new study says.

Researchers studied 562 unvaccinated people from September 2020 to April 2021, according to the study published in the New England Journal of Medicine. The study determined the risk of hospitalization or death was 87% lower in study participants who were given remdesivir than participants who received a placebo.

All participants were at high risk of developing severe COVID-19 because of their age – they were over 60 – or because they had an underlying medical condition such as diabetes or obesity.

An important caveat: The findings are based on data collected before the Delta variant surged in the summer of 2021 or the Omicron variant surged late in the year, the Washington Post reported.

The new study says the drug could be helpful in keeping vaccinated as well as unvaccinated people out of the hospital – an important factor as the Omicron surge threatens to overwhelm health systems around the world.

Remdesivir could be a boon for COVID-19 patients in parts of the world that don’t have vaccines or for patients with immunocompromised systems.

“These data provide evidence that a 3-day course of remdesivir could play a critical role in helping COVID-19 patients stay out of the hospital,” Robert L. Gottlieb, MD, PhD, the therapeutic lead for COVID-19 research at Baylor Scott & White Health in Dallas, said in a news release from Gilead Pharmaceuticals. “While our hospitals are ready to assist patients in need, prevention and early intervention are preferable to reduce the risk of disease progression and allow patients not requiring oxygen to recover from home when appropriate.”

Remdesivir was the first antiviral for COVID-19 authorized by the Food and Drug Administration. It was given to then-President Donald Trump when he was hospitalized with COVID-19 in October 2020.

Gilead released the study findings in September.

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

People who get COVID-19 infections caused by the Omicron variant are less likely to need hospital care, compared with those infected by the Delta variant, according to two large new studies from the U.K. and South Africa.

The findings, which were released ahead of peer review, add to previous glimmers of evidence suggesting that Omicron – while extremely contagious -– may result in less severe symptoms than its predecessors.

“This is helping us quantify how much less severe Omicron is than Delta, and it appears to be between 40 to 75% reduced risk of hospitalizations, adjusted for many factors, which is very good,” said Eric Topol, MD, the editor-in-chief of Medscape and a cardiologist at Scripps Research Translational Institute in La Jolla, CA.

The first analysis, which was done by the World Health Organization Collaborating Centre for Infectious Disease Modelling and Imperial College London, found that overall, people infected by Omicron had about a 20% reduced risk of needing any hospital care for their infections and a 40% lower risk of an overnight hospital stay, compared to those infected with Delta.

Meanwhile, people who were re-infected – meaning they caught Omicron after recovering from a previous COVID-19 infection – had a 50%-60% lower risk of needing hospital care, likely reflecting the benefits of having some prior immunity against the same family of viruses.

The study included everyone with polymerase chain reaction-confirmed COVID-19 in the U.K. during the first 2 weeks of December – roughly 56,000 Omicron cases and 269,000 Delta infections.

The second study, from researchers at the National Institute for Communicable Diseases in South Africa, included more than 29,000 COVID-19 cases that had lab results highly suggestive of Omicron infections. Compared to people infected with the Delta variant, those with presumed Omicron infections were about 70% less likely to have severe disease.

While the news is hopeful for individuals, on a population level, health care systems may still be stressed, the study authors warned.

“Given the high transmissibility of the Omicron virus, there remains the potential for health services to face increasing demand if Omicron cases continue to grow at the rate that has been seen in recent weeks,” said study author Neil Ferguson, PhD, who studies how infectious diseases spread at Imperial College London.

The study authors say their findings are specific to the U.K. and South Africa, where substantial portions of the population have some immune protection from past infection. In other words, they may not apply to countries where fewer people have been vaccinated or recovered from a bout with COVID-19.

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

People who get COVID-19 infections caused by the Omicron variant are less likely to need hospital care, compared with those infected by the Delta variant, according to two large new studies from the U.K. and South Africa.

The findings, which were released ahead of peer review, add to previous glimmers of evidence suggesting that Omicron – while extremely contagious -– may result in less severe symptoms than its predecessors.

“This is helping us quantify how much less severe Omicron is than Delta, and it appears to be between 40 to 75% reduced risk of hospitalizations, adjusted for many factors, which is very good,” said Eric Topol, MD, the editor-in-chief of Medscape and a cardiologist at Scripps Research Translational Institute in La Jolla, CA.

The first analysis, which was done by the World Health Organization Collaborating Centre for Infectious Disease Modelling and Imperial College London, found that overall, people infected by Omicron had about a 20% reduced risk of needing any hospital care for their infections and a 40% lower risk of an overnight hospital stay, compared to those infected with Delta.

Meanwhile, people who were re-infected – meaning they caught Omicron after recovering from a previous COVID-19 infection – had a 50%-60% lower risk of needing hospital care, likely reflecting the benefits of having some prior immunity against the same family of viruses.

The study included everyone with polymerase chain reaction-confirmed COVID-19 in the U.K. during the first 2 weeks of December – roughly 56,000 Omicron cases and 269,000 Delta infections.

The second study, from researchers at the National Institute for Communicable Diseases in South Africa, included more than 29,000 COVID-19 cases that had lab results highly suggestive of Omicron infections. Compared to people infected with the Delta variant, those with presumed Omicron infections were about 70% less likely to have severe disease.

While the news is hopeful for individuals, on a population level, health care systems may still be stressed, the study authors warned.

“Given the high transmissibility of the Omicron virus, there remains the potential for health services to face increasing demand if Omicron cases continue to grow at the rate that has been seen in recent weeks,” said study author Neil Ferguson, PhD, who studies how infectious diseases spread at Imperial College London.

The study authors say their findings are specific to the U.K. and South Africa, where substantial portions of the population have some immune protection from past infection. In other words, they may not apply to countries where fewer people have been vaccinated or recovered from a bout with COVID-19.

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

People who get COVID-19 infections caused by the Omicron variant are less likely to need hospital care, compared with those infected by the Delta variant, according to two large new studies from the U.K. and South Africa.

The findings, which were released ahead of peer review, add to previous glimmers of evidence suggesting that Omicron – while extremely contagious -– may result in less severe symptoms than its predecessors.

“This is helping us quantify how much less severe Omicron is than Delta, and it appears to be between 40 to 75% reduced risk of hospitalizations, adjusted for many factors, which is very good,” said Eric Topol, MD, the editor-in-chief of Medscape and a cardiologist at Scripps Research Translational Institute in La Jolla, CA.

The first analysis, which was done by the World Health Organization Collaborating Centre for Infectious Disease Modelling and Imperial College London, found that overall, people infected by Omicron had about a 20% reduced risk of needing any hospital care for their infections and a 40% lower risk of an overnight hospital stay, compared to those infected with Delta.

Meanwhile, people who were re-infected – meaning they caught Omicron after recovering from a previous COVID-19 infection – had a 50%-60% lower risk of needing hospital care, likely reflecting the benefits of having some prior immunity against the same family of viruses.

The study included everyone with polymerase chain reaction-confirmed COVID-19 in the U.K. during the first 2 weeks of December – roughly 56,000 Omicron cases and 269,000 Delta infections.

The second study, from researchers at the National Institute for Communicable Diseases in South Africa, included more than 29,000 COVID-19 cases that had lab results highly suggestive of Omicron infections. Compared to people infected with the Delta variant, those with presumed Omicron infections were about 70% less likely to have severe disease.

While the news is hopeful for individuals, on a population level, health care systems may still be stressed, the study authors warned.

“Given the high transmissibility of the Omicron virus, there remains the potential for health services to face increasing demand if Omicron cases continue to grow at the rate that has been seen in recent weeks,” said study author Neil Ferguson, PhD, who studies how infectious diseases spread at Imperial College London.

The study authors say their findings are specific to the U.K. and South Africa, where substantial portions of the population have some immune protection from past infection. In other words, they may not apply to countries where fewer people have been vaccinated or recovered from a bout with COVID-19.

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

The Food and Drug Administration on Dec. 22, 2021, granted emergency use authorization (EUA) for a new antiviral pill to treat people with symptomatic COVID-19.

Pfizer’s ritonavir, name brand Paxlovid, can now be taken by patients ages 12 and up who weigh at least 88 pounds.

The antiviral is only for people who test positive for the coronavirus and who are at high risk for severe COVID-19, including hospitalization or death. It is available by prescription only and should be taken as soon as possible after diagnosis and within 5 days of the start of symptoms.

Paxlovid is taken as three tablets together orally twice a day for 5 days, for a total of 30 tablets.

Possible side effects include a reduced sense of taste, diarrhea, high blood pressure, and muscle aches.

The authorization arrives as U.S. cases of the Omicron variant are surging, some monoclonal antibody treatments are becoming less effective, and Americans struggle to maintain some sense of tradition and normalcy around the holidays.

Paxlovid joins remdesivir as an available antiviral to treat COVID-19. Remdesivir is fully approved by the FDA but is given only intravenously in a hospital.  

The COVID-19 antiviral pills come with some obvious advantages, including greater convenience for consumers – such as home use – and the potential to expand treatment for people in low- and middle-income countries.

‘An exciting step forward’

The EUA for Pfizer’s new drug has been highly anticipated, and news of its impending authorization circulated on social media on Tuesday. Eric Topol, MD, called the development an “exciting step forward.” Dr. Topol is editor in chief of Medscape, the parent company of MDedge.

He and many others also expected the FDA to grant emergency use authorization for an antiviral from Merck. But there was no immediate word Wednesday if that was still going to happen.

An accelerated authorization?

The FDA’s authorization for Pfizer’s antiviral comes about 5 weeks after the company submitted an application to the agency. In its submission, the company said a study showed the pill reduced by 89% the rate of hospitalization and death for people with mild to moderate COVID-19 illness.

In April 2021, Pfizer announced its antiviral pill for COVID-19 could be available by year’s end. In September, an official at the National Institutes of Allergy and Infectious Diseases seconded the prediction.

Merck filed its EUA application with the FDA in October. The company included results of its phase 3 study showing the treatment was linked to a 50% reduction in COVID-19 hospitalizations.

Interestingly, in September, Merck announced the findings of laboratory studies suggesting that molnupiravir would work against variants of the coronavirus because the agent does not target the virus’s spike protein. At the time, Delta was the dominant variant in the United States.

Faith-based purchasing

The U.S. government has already recognized the potential of these oral therapies, at least in terms of preorders.

Last month, it announced intentions to purchase $1 billion worth of Merck’s molnupiravir, adding to the $1.2 billion worth of the pills the U.S. ordered in June 2021. Also in November, the government announced it would purchase 10 million courses of the Pfizer pill at an estimated cost of $5.3 billion.

The government preorders of the antiviral pills for COVID-19 are separate from the orders for COVID-19 vaccines. Most recently, the Biden administration announced it will make 500 million tests for coronavirus infection available to Americans for free in early 2022.

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

The Food and Drug Administration on Dec. 22, 2021, granted emergency use authorization (EUA) for a new antiviral pill to treat people with symptomatic COVID-19.

Pfizer’s ritonavir, name brand Paxlovid, can now be taken by patients ages 12 and up who weigh at least 88 pounds.

The antiviral is only for people who test positive for the coronavirus and who are at high risk for severe COVID-19, including hospitalization or death. It is available by prescription only and should be taken as soon as possible after diagnosis and within 5 days of the start of symptoms.

Paxlovid is taken as three tablets together orally twice a day for 5 days, for a total of 30 tablets.

Possible side effects include a reduced sense of taste, diarrhea, high blood pressure, and muscle aches.

The authorization arrives as U.S. cases of the Omicron variant are surging, some monoclonal antibody treatments are becoming less effective, and Americans struggle to maintain some sense of tradition and normalcy around the holidays.

Paxlovid joins remdesivir as an available antiviral to treat COVID-19. Remdesivir is fully approved by the FDA but is given only intravenously in a hospital.  

The COVID-19 antiviral pills come with some obvious advantages, including greater convenience for consumers – such as home use – and the potential to expand treatment for people in low- and middle-income countries.

‘An exciting step forward’

The EUA for Pfizer’s new drug has been highly anticipated, and news of its impending authorization circulated on social media on Tuesday. Eric Topol, MD, called the development an “exciting step forward.” Dr. Topol is editor in chief of Medscape, the parent company of MDedge.

He and many others also expected the FDA to grant emergency use authorization for an antiviral from Merck. But there was no immediate word Wednesday if that was still going to happen.

An accelerated authorization?

The FDA’s authorization for Pfizer’s antiviral comes about 5 weeks after the company submitted an application to the agency. In its submission, the company said a study showed the pill reduced by 89% the rate of hospitalization and death for people with mild to moderate COVID-19 illness.

In April 2021, Pfizer announced its antiviral pill for COVID-19 could be available by year’s end. In September, an official at the National Institutes of Allergy and Infectious Diseases seconded the prediction.

Merck filed its EUA application with the FDA in October. The company included results of its phase 3 study showing the treatment was linked to a 50% reduction in COVID-19 hospitalizations.

Interestingly, in September, Merck announced the findings of laboratory studies suggesting that molnupiravir would work against variants of the coronavirus because the agent does not target the virus’s spike protein. At the time, Delta was the dominant variant in the United States.

Faith-based purchasing

The U.S. government has already recognized the potential of these oral therapies, at least in terms of preorders.

Last month, it announced intentions to purchase $1 billion worth of Merck’s molnupiravir, adding to the $1.2 billion worth of the pills the U.S. ordered in June 2021. Also in November, the government announced it would purchase 10 million courses of the Pfizer pill at an estimated cost of $5.3 billion.

The government preorders of the antiviral pills for COVID-19 are separate from the orders for COVID-19 vaccines. Most recently, the Biden administration announced it will make 500 million tests for coronavirus infection available to Americans for free in early 2022.

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

The Food and Drug Administration on Dec. 22, 2021, granted emergency use authorization (EUA) for a new antiviral pill to treat people with symptomatic COVID-19.

Pfizer’s ritonavir, name brand Paxlovid, can now be taken by patients ages 12 and up who weigh at least 88 pounds.

The antiviral is only for people who test positive for the coronavirus and who are at high risk for severe COVID-19, including hospitalization or death. It is available by prescription only and should be taken as soon as possible after diagnosis and within 5 days of the start of symptoms.

Paxlovid is taken as three tablets together orally twice a day for 5 days, for a total of 30 tablets.

Possible side effects include a reduced sense of taste, diarrhea, high blood pressure, and muscle aches.

The authorization arrives as U.S. cases of the Omicron variant are surging, some monoclonal antibody treatments are becoming less effective, and Americans struggle to maintain some sense of tradition and normalcy around the holidays.

Paxlovid joins remdesivir as an available antiviral to treat COVID-19. Remdesivir is fully approved by the FDA but is given only intravenously in a hospital.  

The COVID-19 antiviral pills come with some obvious advantages, including greater convenience for consumers – such as home use – and the potential to expand treatment for people in low- and middle-income countries.

‘An exciting step forward’

The EUA for Pfizer’s new drug has been highly anticipated, and news of its impending authorization circulated on social media on Tuesday. Eric Topol, MD, called the development an “exciting step forward.” Dr. Topol is editor in chief of Medscape, the parent company of MDedge.

He and many others also expected the FDA to grant emergency use authorization for an antiviral from Merck. But there was no immediate word Wednesday if that was still going to happen.

An accelerated authorization?

The FDA’s authorization for Pfizer’s antiviral comes about 5 weeks after the company submitted an application to the agency. In its submission, the company said a study showed the pill reduced by 89% the rate of hospitalization and death for people with mild to moderate COVID-19 illness.

In April 2021, Pfizer announced its antiviral pill for COVID-19 could be available by year’s end. In September, an official at the National Institutes of Allergy and Infectious Diseases seconded the prediction.

Merck filed its EUA application with the FDA in October. The company included results of its phase 3 study showing the treatment was linked to a 50% reduction in COVID-19 hospitalizations.

Interestingly, in September, Merck announced the findings of laboratory studies suggesting that molnupiravir would work against variants of the coronavirus because the agent does not target the virus’s spike protein. At the time, Delta was the dominant variant in the United States.

Faith-based purchasing

The U.S. government has already recognized the potential of these oral therapies, at least in terms of preorders.

Last month, it announced intentions to purchase $1 billion worth of Merck’s molnupiravir, adding to the $1.2 billion worth of the pills the U.S. ordered in June 2021. Also in November, the government announced it would purchase 10 million courses of the Pfizer pill at an estimated cost of $5.3 billion.

The government preorders of the antiviral pills for COVID-19 are separate from the orders for COVID-19 vaccines. Most recently, the Biden administration announced it will make 500 million tests for coronavirus infection available to Americans for free in early 2022.

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