Vaccines

The Food and Drug Administration on Aug. 9 authorized intradermal administration of the Jynneos vaccine for the treatment of monkeypox. The process, approved specifically for high-risk patients, was passed under the administration’s Emergency Use Authorization. It follows the decision on Aug. 4 by the U.S. Department of Health and Human Services to declare monkeypox a public health emergency. Intradermal administration will allow providers to get five doses out of a one-dose vial.

This news organization will update this article as more information becomes available.

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

The Food and Drug Administration on Aug. 9 authorized intradermal administration of the Jynneos vaccine for the treatment of monkeypox. The process, approved specifically for high-risk patients, was passed under the administration’s Emergency Use Authorization. It follows the decision on Aug. 4 by the U.S. Department of Health and Human Services to declare monkeypox a public health emergency. Intradermal administration will allow providers to get five doses out of a one-dose vial.

This news organization will update this article as more information becomes available.

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

The Food and Drug Administration on Aug. 9 authorized intradermal administration of the Jynneos vaccine for the treatment of monkeypox. The process, approved specifically for high-risk patients, was passed under the administration’s Emergency Use Authorization. It follows the decision on Aug. 4 by the U.S. Department of Health and Human Services to declare monkeypox a public health emergency. Intradermal administration will allow providers to get five doses out of a one-dose vial.

This news organization will update this article as more information becomes available.

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

New York City veterinarian Erin Kulick used to be a weekend warrior. Only 2½ years ago, the 38-year-old new mother played ultimate Frisbee and flag football with friends. She went for regular 30-minute runs to burn off stress.

Now, Dr. Kulick is usually so exhausted, she can’t walk nonstop for 15 minutes. She recently tried to take her 4-year-old son, Cooper, to the American Museum of Natural History for his first visit, but ended up on a bench outside the museum, sobbing in the rain, because she couldn’t even get through the first hurdle of standing in line. “I just wanted to be there with my kid,” she said.

Dr. Kulick got sick with COVID-19 at the start of the pandemic in March 2020, 9 months before the first vaccine would be approved. Now she is among the estimated one in five infected Americans, or 19%, whose symptoms developed into long COVID.

Dr. Kulick also is now vaccinated and boosted. Had a vaccine been available sooner, could it have protected her from long COVID?

Evidence is starting to show it’s likely.

“The best way not to have long COVID is not to have COVID at all,” said Leora Horwitz, MD, a professor of population health and medicine at New York University. “To the extent that vaccination can prevent you from getting COVID at all, then it helps to reduce long COVID.”

And just as vaccines reduce the risk of severe disease, hospitalization, and death, they also seem to reduce the risk of long COVID if people do get breakthrough infections. People with more serious initial illness appear more likely to have prolonged symptoms, but those with milder disease can certainly get it, too.

“You’re more likely to have long COVID with more severe disease, and we have ample evidence that vaccination reduces the severity of disease,” Dr. Horwitz said. “We also now have quite a lot of evidence that vaccination does reduce your risk of long COVID – probably because it reduces your risk of severe disease.”

There is little consensus about how much vaccines can lower the risk of long-term COVID symptoms, but several studies suggest that number lies anywhere from 15% to more than 80%.

That might seem like a big variation, but infectious disease experts argue that trying to interpret the gap isn’t as important as noticing what’s consistent across all these studies: “Vaccines do offer some protection, but it’s incomplete,” said Ziyad Al-Aly, MD, chief of research and development at the Veterans Affairs St. Louis Health Care System. Dr. Al-Aly, who has led several large studies on long COVID, said focusing on the fact that vaccines do offer some protection is a much better public health message than looking at the different levels of risk.

“Vaccines do a miraculous job for what they were designed to do,” said Dr. Al-Aly. “Vaccines were designed to reduce the risk of hospitalization ... and for that, vaccines are still holding up, even with all the changes in the virus.”

Still, Elena Azzolini, MD, PhD, head of the Humanitas Research Hospital’s vaccination center in Milan, thinks some studies may have underestimated the level of long COVID protection from vaccines because of limits in the study methods, such as not including enough women, who are more affected by long COVID. Her recent study, which looked at 2,560 health care professionals working in nine Italian centers from March 2020 to April 2022, focused on the risk for healthy women and men in their 20s to their 70s.

In the paper, Dr. Azzolini and associates reported that two or three doses of vaccine reduced the risk of hospitalization from COVID-19 from 42% among those who are unvaccinated to 16%-17%. In other words, they found unvaccinated people in the study were nearly three times as likely to have serious symptoms for longer than 4 weeks.

But Dr. Azzolini and Dr. Al-Aly still say that, even for the vaccinated, as long as COVID is around, masks are necessary. That’s because current vaccines don’t do enough to reduce transmission, said Dr. Al-Aly. “The only way that can really help [stop] transmission is covering our nose and mouth with a mask.”
 

How vaccinations affect people who already have long COVID

Some long COVID patients have said they got better after they get boosted, while some say they’re getting worse, said Dr. Horwitz, who is also a lead investigator at the National Institutes of Health’s flagship RECOVER program, a 4-year research project to study long COVID across the United States. (The NIH is still recruiting volunteers for these studies, which are also open to people who have never had COVID.)

One study published in the British Medical Journal analyzed survey data of more than 28,000 people infected with COVID in the United Kingdom and found a 13% reduction in long-term symptoms after a first dose of the vaccine, although it was unclear from the data if the improvement was sustained.

A second dose was associated with another 8% improvement over a 2-month period. “It’s reassuring that we see an average modest improvement in symptoms, not an average worsening in symptoms,” said Daniel Ayoubkhani, principal statistician at the U.K. Office for National Statistics and lead author of the study. Of course, the experience will differ among different people.

“It doesn’t appear that vaccination is the silver bullet that’s going to eradicate long COVID,” he said, but evidence from multiple studies suggests vaccines may help people with long-term symptoms.

Akiko Iwasaki, PhD, an immunobiologist at Yale University, New Haven, Conn., told a White House summit in July that one of the best ways to prevent long COVID is to develop the next generation of vaccines that also prevent milder cases by blocking transmission in the first place.

Back in New York, Dr. Kulick is now triple vaccinated. She’s due for a fourth dose soon but admits she’s “terrified every time” that she’s going to get sicker.

In her Facebook support group for long COVID, she reads that most people with prolonged symptoms handle it well. She has also noticed some of her symptoms eased after her first two doses of vaccine.

Since being diagnosed, Dr. Kulick learned she has a genetic condition, Ehlers-Danlos syndrome, which affects connective tissues that support skin, joints, organs, and blood vessels, and which her doctors say may have made her more prone to long COVID. She’s also being screened for autoimmune diseases, but for now, the only relief she has found has come from long COVID physical therapy, changes to her diet, and integrative medicine.

Dr. Kulick is still trying to figure out how she can get better while keeping her long hours at her veterinary job – and her health benefits. She is thankful her husband is a devoted caregiver to their son and a professional jazz musician with a schedule that allows for some flexibility.

“But it’s really hard when every week feels like I’ve run a marathon,” she said. “I can barely make it through.”

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

New York City veterinarian Erin Kulick used to be a weekend warrior. Only 2½ years ago, the 38-year-old new mother played ultimate Frisbee and flag football with friends. She went for regular 30-minute runs to burn off stress.

Now, Dr. Kulick is usually so exhausted, she can’t walk nonstop for 15 minutes. She recently tried to take her 4-year-old son, Cooper, to the American Museum of Natural History for his first visit, but ended up on a bench outside the museum, sobbing in the rain, because she couldn’t even get through the first hurdle of standing in line. “I just wanted to be there with my kid,” she said.

Dr. Kulick got sick with COVID-19 at the start of the pandemic in March 2020, 9 months before the first vaccine would be approved. Now she is among the estimated one in five infected Americans, or 19%, whose symptoms developed into long COVID.

Dr. Kulick also is now vaccinated and boosted. Had a vaccine been available sooner, could it have protected her from long COVID?

Evidence is starting to show it’s likely.

“The best way not to have long COVID is not to have COVID at all,” said Leora Horwitz, MD, a professor of population health and medicine at New York University. “To the extent that vaccination can prevent you from getting COVID at all, then it helps to reduce long COVID.”

And just as vaccines reduce the risk of severe disease, hospitalization, and death, they also seem to reduce the risk of long COVID if people do get breakthrough infections. People with more serious initial illness appear more likely to have prolonged symptoms, but those with milder disease can certainly get it, too.

“You’re more likely to have long COVID with more severe disease, and we have ample evidence that vaccination reduces the severity of disease,” Dr. Horwitz said. “We also now have quite a lot of evidence that vaccination does reduce your risk of long COVID – probably because it reduces your risk of severe disease.”

There is little consensus about how much vaccines can lower the risk of long-term COVID symptoms, but several studies suggest that number lies anywhere from 15% to more than 80%.

That might seem like a big variation, but infectious disease experts argue that trying to interpret the gap isn’t as important as noticing what’s consistent across all these studies: “Vaccines do offer some protection, but it’s incomplete,” said Ziyad Al-Aly, MD, chief of research and development at the Veterans Affairs St. Louis Health Care System. Dr. Al-Aly, who has led several large studies on long COVID, said focusing on the fact that vaccines do offer some protection is a much better public health message than looking at the different levels of risk.

“Vaccines do a miraculous job for what they were designed to do,” said Dr. Al-Aly. “Vaccines were designed to reduce the risk of hospitalization ... and for that, vaccines are still holding up, even with all the changes in the virus.”

Still, Elena Azzolini, MD, PhD, head of the Humanitas Research Hospital’s vaccination center in Milan, thinks some studies may have underestimated the level of long COVID protection from vaccines because of limits in the study methods, such as not including enough women, who are more affected by long COVID. Her recent study, which looked at 2,560 health care professionals working in nine Italian centers from March 2020 to April 2022, focused on the risk for healthy women and men in their 20s to their 70s.

In the paper, Dr. Azzolini and associates reported that two or three doses of vaccine reduced the risk of hospitalization from COVID-19 from 42% among those who are unvaccinated to 16%-17%. In other words, they found unvaccinated people in the study were nearly three times as likely to have serious symptoms for longer than 4 weeks.

But Dr. Azzolini and Dr. Al-Aly still say that, even for the vaccinated, as long as COVID is around, masks are necessary. That’s because current vaccines don’t do enough to reduce transmission, said Dr. Al-Aly. “The only way that can really help [stop] transmission is covering our nose and mouth with a mask.”
 

How vaccinations affect people who already have long COVID

Some long COVID patients have said they got better after they get boosted, while some say they’re getting worse, said Dr. Horwitz, who is also a lead investigator at the National Institutes of Health’s flagship RECOVER program, a 4-year research project to study long COVID across the United States. (The NIH is still recruiting volunteers for these studies, which are also open to people who have never had COVID.)

One study published in the British Medical Journal analyzed survey data of more than 28,000 people infected with COVID in the United Kingdom and found a 13% reduction in long-term symptoms after a first dose of the vaccine, although it was unclear from the data if the improvement was sustained.

A second dose was associated with another 8% improvement over a 2-month period. “It’s reassuring that we see an average modest improvement in symptoms, not an average worsening in symptoms,” said Daniel Ayoubkhani, principal statistician at the U.K. Office for National Statistics and lead author of the study. Of course, the experience will differ among different people.

“It doesn’t appear that vaccination is the silver bullet that’s going to eradicate long COVID,” he said, but evidence from multiple studies suggests vaccines may help people with long-term symptoms.

Akiko Iwasaki, PhD, an immunobiologist at Yale University, New Haven, Conn., told a White House summit in July that one of the best ways to prevent long COVID is to develop the next generation of vaccines that also prevent milder cases by blocking transmission in the first place.

Back in New York, Dr. Kulick is now triple vaccinated. She’s due for a fourth dose soon but admits she’s “terrified every time” that she’s going to get sicker.

In her Facebook support group for long COVID, she reads that most people with prolonged symptoms handle it well. She has also noticed some of her symptoms eased after her first two doses of vaccine.

Since being diagnosed, Dr. Kulick learned she has a genetic condition, Ehlers-Danlos syndrome, which affects connective tissues that support skin, joints, organs, and blood vessels, and which her doctors say may have made her more prone to long COVID. She’s also being screened for autoimmune diseases, but for now, the only relief she has found has come from long COVID physical therapy, changes to her diet, and integrative medicine.

Dr. Kulick is still trying to figure out how she can get better while keeping her long hours at her veterinary job – and her health benefits. She is thankful her husband is a devoted caregiver to their son and a professional jazz musician with a schedule that allows for some flexibility.

“But it’s really hard when every week feels like I’ve run a marathon,” she said. “I can barely make it through.”

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

New York City veterinarian Erin Kulick used to be a weekend warrior. Only 2½ years ago, the 38-year-old new mother played ultimate Frisbee and flag football with friends. She went for regular 30-minute runs to burn off stress.

Now, Dr. Kulick is usually so exhausted, she can’t walk nonstop for 15 minutes. She recently tried to take her 4-year-old son, Cooper, to the American Museum of Natural History for his first visit, but ended up on a bench outside the museum, sobbing in the rain, because she couldn’t even get through the first hurdle of standing in line. “I just wanted to be there with my kid,” she said.

Dr. Kulick got sick with COVID-19 at the start of the pandemic in March 2020, 9 months before the first vaccine would be approved. Now she is among the estimated one in five infected Americans, or 19%, whose symptoms developed into long COVID.

Dr. Kulick also is now vaccinated and boosted. Had a vaccine been available sooner, could it have protected her from long COVID?

Evidence is starting to show it’s likely.

“The best way not to have long COVID is not to have COVID at all,” said Leora Horwitz, MD, a professor of population health and medicine at New York University. “To the extent that vaccination can prevent you from getting COVID at all, then it helps to reduce long COVID.”

And just as vaccines reduce the risk of severe disease, hospitalization, and death, they also seem to reduce the risk of long COVID if people do get breakthrough infections. People with more serious initial illness appear more likely to have prolonged symptoms, but those with milder disease can certainly get it, too.

“You’re more likely to have long COVID with more severe disease, and we have ample evidence that vaccination reduces the severity of disease,” Dr. Horwitz said. “We also now have quite a lot of evidence that vaccination does reduce your risk of long COVID – probably because it reduces your risk of severe disease.”

There is little consensus about how much vaccines can lower the risk of long-term COVID symptoms, but several studies suggest that number lies anywhere from 15% to more than 80%.

That might seem like a big variation, but infectious disease experts argue that trying to interpret the gap isn’t as important as noticing what’s consistent across all these studies: “Vaccines do offer some protection, but it’s incomplete,” said Ziyad Al-Aly, MD, chief of research and development at the Veterans Affairs St. Louis Health Care System. Dr. Al-Aly, who has led several large studies on long COVID, said focusing on the fact that vaccines do offer some protection is a much better public health message than looking at the different levels of risk.

“Vaccines do a miraculous job for what they were designed to do,” said Dr. Al-Aly. “Vaccines were designed to reduce the risk of hospitalization ... and for that, vaccines are still holding up, even with all the changes in the virus.”

Still, Elena Azzolini, MD, PhD, head of the Humanitas Research Hospital’s vaccination center in Milan, thinks some studies may have underestimated the level of long COVID protection from vaccines because of limits in the study methods, such as not including enough women, who are more affected by long COVID. Her recent study, which looked at 2,560 health care professionals working in nine Italian centers from March 2020 to April 2022, focused on the risk for healthy women and men in their 20s to their 70s.

In the paper, Dr. Azzolini and associates reported that two or three doses of vaccine reduced the risk of hospitalization from COVID-19 from 42% among those who are unvaccinated to 16%-17%. In other words, they found unvaccinated people in the study were nearly three times as likely to have serious symptoms for longer than 4 weeks.

But Dr. Azzolini and Dr. Al-Aly still say that, even for the vaccinated, as long as COVID is around, masks are necessary. That’s because current vaccines don’t do enough to reduce transmission, said Dr. Al-Aly. “The only way that can really help [stop] transmission is covering our nose and mouth with a mask.”
 

How vaccinations affect people who already have long COVID

Some long COVID patients have said they got better after they get boosted, while some say they’re getting worse, said Dr. Horwitz, who is also a lead investigator at the National Institutes of Health’s flagship RECOVER program, a 4-year research project to study long COVID across the United States. (The NIH is still recruiting volunteers for these studies, which are also open to people who have never had COVID.)

One study published in the British Medical Journal analyzed survey data of more than 28,000 people infected with COVID in the United Kingdom and found a 13% reduction in long-term symptoms after a first dose of the vaccine, although it was unclear from the data if the improvement was sustained.

A second dose was associated with another 8% improvement over a 2-month period. “It’s reassuring that we see an average modest improvement in symptoms, not an average worsening in symptoms,” said Daniel Ayoubkhani, principal statistician at the U.K. Office for National Statistics and lead author of the study. Of course, the experience will differ among different people.

“It doesn’t appear that vaccination is the silver bullet that’s going to eradicate long COVID,” he said, but evidence from multiple studies suggests vaccines may help people with long-term symptoms.

Akiko Iwasaki, PhD, an immunobiologist at Yale University, New Haven, Conn., told a White House summit in July that one of the best ways to prevent long COVID is to develop the next generation of vaccines that also prevent milder cases by blocking transmission in the first place.

Back in New York, Dr. Kulick is now triple vaccinated. She’s due for a fourth dose soon but admits she’s “terrified every time” that she’s going to get sicker.

In her Facebook support group for long COVID, she reads that most people with prolonged symptoms handle it well. She has also noticed some of her symptoms eased after her first two doses of vaccine.

Since being diagnosed, Dr. Kulick learned she has a genetic condition, Ehlers-Danlos syndrome, which affects connective tissues that support skin, joints, organs, and blood vessels, and which her doctors say may have made her more prone to long COVID. She’s also being screened for autoimmune diseases, but for now, the only relief she has found has come from long COVID physical therapy, changes to her diet, and integrative medicine.

Dr. Kulick is still trying to figure out how she can get better while keeping her long hours at her veterinary job – and her health benefits. She is thankful her husband is a devoted caregiver to their son and a professional jazz musician with a schedule that allows for some flexibility.

“But it’s really hard when every week feels like I’ve run a marathon,” she said. “I can barely make it through.”

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

Patients with rheumatic and musculoskeletal diseases may need additional vaccines or different versions of vaccines they were not previously recommended to receive, according to updated guidelines from the American College of Rheumatology (ACR) on vaccinations for these patients. The new guidelines pertain to routine vaccinations for adults and children and are based on the most current evidence. They include recommendations on whether to hold certain medications before or after vaccination. They do not include recommendations regarding COVID-19 vaccines.

For guidance on COVID-19 vaccine timing and frequency, the ACR directs physicians to the CDC’s recommendations for people with mild or severe immunosuppression and the ACR’s previous clinical guidance summary on the topic, last revised in February 2022. The recommendations in the new guidance differ from ACR’s guidance on COVID-19 vaccines on whether and when to hold immunosuppressive medications when patients receive nonlive vaccines. The new guidelines now align more closely with those of EULAR, the Infectious Diseases Society of America, and the CDC’s recommendations for human papillomavirus (HPV), pneumococcal, and shingles vaccines.

MarianVejcik/Getty Images

Vaccinations in this population are particularly important because “a leading cause of morbidity and mortality in those with rheumatic diseases is infections, due to the detrimental impact immunosuppression has on the ability for the patient to properly clear the pathogen,” Alfred Kim, MD, PhD, professor of rheumatology at Washington University, St. Louis, told this news organization. While immunosuppressive medications are the most common reason patients with these conditions may have impaired immune function, “some of our patients with autoimmune disease also have a preexisting immunodeficiency that can inherently blunt immune responses to either infection or vaccination,” Dr. Kim explained.

“The authors of the guidelines have done a really nice job of making distinct recommendations based on the mechanism of action of various immunosuppressive medications,” Dr. Kim said. “This helps simplify the process of deciding the timing of vaccination for the health provider, especially for those on multiple immunosuppressives who represent an important proportion of our patients with rheumatic diseases.”

The main change to the guidelines for children, aside from those related to flu vaccination, is in regard to rotavirus vaccination for infants exposed to tumor necrosis factor (TNF) inhibitors or rituximab in utero. Infants prenatally exposed to rituximab should not receive the rotavirus vaccine until they are older than 6 months. Those exposed prenatally to TNF inhibitors should receive the rotavirus vaccine on time, according to the CDC schedule for all infants.

The new rotavirus recommendations follow data showing that immune responses to rotavirus are blunted in those with infliximab exposure, according to Dr. Kim.

“Thus, this poses a serious theoretical risk in newborns with mothers on [a TNF inhibitor] of ineffective clearance of rotavirus infections,” Dr. Kim said in an interview. “While rotavirus infections are quite common with typically self-limiting disease, sometimes requiring hydration to counteract diarrhea-induced dehydration, this can become severe in these newborns that have [a TNF inhibitor] in their system.”

For adults, the ACR issued the following expanded indications for four vaccines for patients currently taking immunosuppressive medication:

• Patients aged 18 and older should receive the recombinant zoster vaccine against shingles.
• For patients aged 27-44 who weren’t previously vaccinated against HPV, the HPV vaccine is “conditionally recommended.”
• Patients younger than 65 should receive the pneumococcal vaccine.
• Patients aged 19-64 are conditionally recommended to receive the high-dose or adjuvanted flu vaccine rather than the regular-dose flu vaccine.

The guidelines also conditionally recommend that all patients aged 65 and older who have rheumatic or musculoskeletal diseases receive the high-dose or adjuvanted flu vaccine, regardless of whether they are taking immunosuppressive medication. Another new conditional recommendation is to give multiple vaccinations to patients on the same day, rather than give individual vaccines on different days.

The guidelines make conditional recommendations regarding flu and nonlive attenuated vaccines for those taking methotrexate, rituximab, or glucocorticoids. Methotrexate should be held for 2 weeks after flu vaccination as long as disease activity allows it, but patients who are taking methotrexate should continue taking it for any other nonlive attenuated vaccinations.

“Non-rheumatology providers, such as general pediatricians and internists, are encouraged to give the influenza vaccination and then consult with the patient’s rheumatology provider about holding methotrexate to avoid a missed vaccination opportunity,” the guidelines state.

Patients taking rituximab should receive the flu vaccine on schedule and continue taking rituximab. However, for these patients, the guidelines recommend to “delay any subsequent rituximab dosing for at least two weeks after influenza vaccination if disease activity allows.”

“Because of the relatively short time period between the rollout of the influenza vaccine and its season, we can’t always wait to time the B-cell depletion dosage,” Dr. Kim said. “Also, it is not always easy to synchronize the patient’s B-cell depletion dosing schedule to the influenza vaccine rollout. Thus, we now just recommend getting the influenza vaccine regardless of the patient’s last B-cell depletion dosage despite its known strong attenuation of optimal immune responses.”

For other nonlive attenuated vaccines, providers should time vaccination for when the next rituximab dose is due and then hold the drug for at least 2 weeks thereafter, providing time for the B cells to mount a response before rituximab depletes B cells again.

Patients taking less than 20 mg of prednisone daily should still receive the flu vaccine and other nonlive attenuated vaccines. Those taking 20 mg or more of prednisone each day should still receive the flu vaccine, but other vaccines should be deferred until their dose of glucocorticoids has been tapered down to less than 20 mg daily.

Patients taking all other immunosuppressive medications should continue taking them for the flu vaccine and other nonlive attenuated vaccinations, but it is conditionally recommended that live attenuated vaccines be deferred. For any patient with a rheumatic and musculoskeletal disease, regardless of disease activity, it is conditionally recommended that all routine nonlive attenuated vaccines be administered.

For live attenuated virus vaccines, the ACR provides a chart on which immunosuppressive medications to hold and for how long. Glucocorticoids, methotrexate, azathioprine, leflunomide, mycophenolate mofetil, calcineurin inhibitors, and oral cyclophosphamide should all be held 4 weeks before and 4 weeks after administration of a live attenuated vaccine. For those taking JAK inhibitors, the medication should be halted 1 week before administration of a live vaccine and should continue to be withheld for 4 weeks after.

For most other biologics, the ACR recommends holding the medication for one dosing interval before the live vaccine and 4 weeks thereafter. The main exception is rituximab, which should be held for 6 months before a live vaccine and then for 4 more weeks thereafter.

For patients receiving intravenous immunoglobulin, the drug should be held for 8-11 months before they are administered a live attenuated vaccine, depending on the dosage, and then 4 weeks after vaccination, regardless of dosage.

To reassure people with rheumatic disease who may have anxiety or concerns about receiving immunizations, whether taking immunosuppressive medication or not, Dr. Kim said it’s important to provide lots of education to patients.

“Fear and emotion have replaced facts, and data as a leading factor in decision-making, as seen with COVID-19,” Dr. Kim said. “The reality is that a small minority of people will have any issues with most vaccines, which include disease flares, adverse events, or acquisition of an autoimmune disease. We are not saying there is zero risk, rather, that the risk is quite small. This is where shared decision-making between the health care provider and the patient must be done effectively to enable the patient to properly weigh risk versus benefit.”

Dr. Kim has relationships with GlaxoSmithKline, Aurinia Pharmaceuticals, Kypha, Pfizer, Alexion Pharmaceuticals, AstraZeneca, Exagen Diagnostics, and Foghorn Therapeutics.

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

Patients with rheumatic and musculoskeletal diseases may need additional vaccines or different versions of vaccines they were not previously recommended to receive, according to updated guidelines from the American College of Rheumatology (ACR) on vaccinations for these patients. The new guidelines pertain to routine vaccinations for adults and children and are based on the most current evidence. They include recommendations on whether to hold certain medications before or after vaccination. They do not include recommendations regarding COVID-19 vaccines.

For guidance on COVID-19 vaccine timing and frequency, the ACR directs physicians to the CDC’s recommendations for people with mild or severe immunosuppression and the ACR’s previous clinical guidance summary on the topic, last revised in February 2022. The recommendations in the new guidance differ from ACR’s guidance on COVID-19 vaccines on whether and when to hold immunosuppressive medications when patients receive nonlive vaccines. The new guidelines now align more closely with those of EULAR, the Infectious Diseases Society of America, and the CDC’s recommendations for human papillomavirus (HPV), pneumococcal, and shingles vaccines.

MarianVejcik/Getty Images

Vaccinations in this population are particularly important because “a leading cause of morbidity and mortality in those with rheumatic diseases is infections, due to the detrimental impact immunosuppression has on the ability for the patient to properly clear the pathogen,” Alfred Kim, MD, PhD, professor of rheumatology at Washington University, St. Louis, told this news organization. While immunosuppressive medications are the most common reason patients with these conditions may have impaired immune function, “some of our patients with autoimmune disease also have a preexisting immunodeficiency that can inherently blunt immune responses to either infection or vaccination,” Dr. Kim explained.

“The authors of the guidelines have done a really nice job of making distinct recommendations based on the mechanism of action of various immunosuppressive medications,” Dr. Kim said. “This helps simplify the process of deciding the timing of vaccination for the health provider, especially for those on multiple immunosuppressives who represent an important proportion of our patients with rheumatic diseases.”

The main change to the guidelines for children, aside from those related to flu vaccination, is in regard to rotavirus vaccination for infants exposed to tumor necrosis factor (TNF) inhibitors or rituximab in utero. Infants prenatally exposed to rituximab should not receive the rotavirus vaccine until they are older than 6 months. Those exposed prenatally to TNF inhibitors should receive the rotavirus vaccine on time, according to the CDC schedule for all infants.

The new rotavirus recommendations follow data showing that immune responses to rotavirus are blunted in those with infliximab exposure, according to Dr. Kim.

“Thus, this poses a serious theoretical risk in newborns with mothers on [a TNF inhibitor] of ineffective clearance of rotavirus infections,” Dr. Kim said in an interview. “While rotavirus infections are quite common with typically self-limiting disease, sometimes requiring hydration to counteract diarrhea-induced dehydration, this can become severe in these newborns that have [a TNF inhibitor] in their system.”

For adults, the ACR issued the following expanded indications for four vaccines for patients currently taking immunosuppressive medication:

• Patients aged 18 and older should receive the recombinant zoster vaccine against shingles.
• For patients aged 27-44 who weren’t previously vaccinated against HPV, the HPV vaccine is “conditionally recommended.”
• Patients younger than 65 should receive the pneumococcal vaccine.
• Patients aged 19-64 are conditionally recommended to receive the high-dose or adjuvanted flu vaccine rather than the regular-dose flu vaccine.

The guidelines also conditionally recommend that all patients aged 65 and older who have rheumatic or musculoskeletal diseases receive the high-dose or adjuvanted flu vaccine, regardless of whether they are taking immunosuppressive medication. Another new conditional recommendation is to give multiple vaccinations to patients on the same day, rather than give individual vaccines on different days.

The guidelines make conditional recommendations regarding flu and nonlive attenuated vaccines for those taking methotrexate, rituximab, or glucocorticoids. Methotrexate should be held for 2 weeks after flu vaccination as long as disease activity allows it, but patients who are taking methotrexate should continue taking it for any other nonlive attenuated vaccinations.

“Non-rheumatology providers, such as general pediatricians and internists, are encouraged to give the influenza vaccination and then consult with the patient’s rheumatology provider about holding methotrexate to avoid a missed vaccination opportunity,” the guidelines state.

Patients taking rituximab should receive the flu vaccine on schedule and continue taking rituximab. However, for these patients, the guidelines recommend to “delay any subsequent rituximab dosing for at least two weeks after influenza vaccination if disease activity allows.”

“Because of the relatively short time period between the rollout of the influenza vaccine and its season, we can’t always wait to time the B-cell depletion dosage,” Dr. Kim said. “Also, it is not always easy to synchronize the patient’s B-cell depletion dosing schedule to the influenza vaccine rollout. Thus, we now just recommend getting the influenza vaccine regardless of the patient’s last B-cell depletion dosage despite its known strong attenuation of optimal immune responses.”

For other nonlive attenuated vaccines, providers should time vaccination for when the next rituximab dose is due and then hold the drug for at least 2 weeks thereafter, providing time for the B cells to mount a response before rituximab depletes B cells again.

Patients taking less than 20 mg of prednisone daily should still receive the flu vaccine and other nonlive attenuated vaccines. Those taking 20 mg or more of prednisone each day should still receive the flu vaccine, but other vaccines should be deferred until their dose of glucocorticoids has been tapered down to less than 20 mg daily.

Patients taking all other immunosuppressive medications should continue taking them for the flu vaccine and other nonlive attenuated vaccinations, but it is conditionally recommended that live attenuated vaccines be deferred. For any patient with a rheumatic and musculoskeletal disease, regardless of disease activity, it is conditionally recommended that all routine nonlive attenuated vaccines be administered.

For live attenuated virus vaccines, the ACR provides a chart on which immunosuppressive medications to hold and for how long. Glucocorticoids, methotrexate, azathioprine, leflunomide, mycophenolate mofetil, calcineurin inhibitors, and oral cyclophosphamide should all be held 4 weeks before and 4 weeks after administration of a live attenuated vaccine. For those taking JAK inhibitors, the medication should be halted 1 week before administration of a live vaccine and should continue to be withheld for 4 weeks after.

For most other biologics, the ACR recommends holding the medication for one dosing interval before the live vaccine and 4 weeks thereafter. The main exception is rituximab, which should be held for 6 months before a live vaccine and then for 4 more weeks thereafter.

For patients receiving intravenous immunoglobulin, the drug should be held for 8-11 months before they are administered a live attenuated vaccine, depending on the dosage, and then 4 weeks after vaccination, regardless of dosage.

To reassure people with rheumatic disease who may have anxiety or concerns about receiving immunizations, whether taking immunosuppressive medication or not, Dr. Kim said it’s important to provide lots of education to patients.

“Fear and emotion have replaced facts, and data as a leading factor in decision-making, as seen with COVID-19,” Dr. Kim said. “The reality is that a small minority of people will have any issues with most vaccines, which include disease flares, adverse events, or acquisition of an autoimmune disease. We are not saying there is zero risk, rather, that the risk is quite small. This is where shared decision-making between the health care provider and the patient must be done effectively to enable the patient to properly weigh risk versus benefit.”

Dr. Kim has relationships with GlaxoSmithKline, Aurinia Pharmaceuticals, Kypha, Pfizer, Alexion Pharmaceuticals, AstraZeneca, Exagen Diagnostics, and Foghorn Therapeutics.

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

Patients with rheumatic and musculoskeletal diseases may need additional vaccines or different versions of vaccines they were not previously recommended to receive, according to updated guidelines from the American College of Rheumatology (ACR) on vaccinations for these patients. The new guidelines pertain to routine vaccinations for adults and children and are based on the most current evidence. They include recommendations on whether to hold certain medications before or after vaccination. They do not include recommendations regarding COVID-19 vaccines.

For guidance on COVID-19 vaccine timing and frequency, the ACR directs physicians to the CDC’s recommendations for people with mild or severe immunosuppression and the ACR’s previous clinical guidance summary on the topic, last revised in February 2022. The recommendations in the new guidance differ from ACR’s guidance on COVID-19 vaccines on whether and when to hold immunosuppressive medications when patients receive nonlive vaccines. The new guidelines now align more closely with those of EULAR, the Infectious Diseases Society of America, and the CDC’s recommendations for human papillomavirus (HPV), pneumococcal, and shingles vaccines.

MarianVejcik/Getty Images

Vaccinations in this population are particularly important because “a leading cause of morbidity and mortality in those with rheumatic diseases is infections, due to the detrimental impact immunosuppression has on the ability for the patient to properly clear the pathogen,” Alfred Kim, MD, PhD, professor of rheumatology at Washington University, St. Louis, told this news organization. While immunosuppressive medications are the most common reason patients with these conditions may have impaired immune function, “some of our patients with autoimmune disease also have a preexisting immunodeficiency that can inherently blunt immune responses to either infection or vaccination,” Dr. Kim explained.

“The authors of the guidelines have done a really nice job of making distinct recommendations based on the mechanism of action of various immunosuppressive medications,” Dr. Kim said. “This helps simplify the process of deciding the timing of vaccination for the health provider, especially for those on multiple immunosuppressives who represent an important proportion of our patients with rheumatic diseases.”

The main change to the guidelines for children, aside from those related to flu vaccination, is in regard to rotavirus vaccination for infants exposed to tumor necrosis factor (TNF) inhibitors or rituximab in utero. Infants prenatally exposed to rituximab should not receive the rotavirus vaccine until they are older than 6 months. Those exposed prenatally to TNF inhibitors should receive the rotavirus vaccine on time, according to the CDC schedule for all infants.

The new rotavirus recommendations follow data showing that immune responses to rotavirus are blunted in those with infliximab exposure, according to Dr. Kim.

“Thus, this poses a serious theoretical risk in newborns with mothers on [a TNF inhibitor] of ineffective clearance of rotavirus infections,” Dr. Kim said in an interview. “While rotavirus infections are quite common with typically self-limiting disease, sometimes requiring hydration to counteract diarrhea-induced dehydration, this can become severe in these newborns that have [a TNF inhibitor] in their system.”

For adults, the ACR issued the following expanded indications for four vaccines for patients currently taking immunosuppressive medication:

• Patients aged 18 and older should receive the recombinant zoster vaccine against shingles.
• For patients aged 27-44 who weren’t previously vaccinated against HPV, the HPV vaccine is “conditionally recommended.”
• Patients younger than 65 should receive the pneumococcal vaccine.
• Patients aged 19-64 are conditionally recommended to receive the high-dose or adjuvanted flu vaccine rather than the regular-dose flu vaccine.

The guidelines also conditionally recommend that all patients aged 65 and older who have rheumatic or musculoskeletal diseases receive the high-dose or adjuvanted flu vaccine, regardless of whether they are taking immunosuppressive medication. Another new conditional recommendation is to give multiple vaccinations to patients on the same day, rather than give individual vaccines on different days.

The guidelines make conditional recommendations regarding flu and nonlive attenuated vaccines for those taking methotrexate, rituximab, or glucocorticoids. Methotrexate should be held for 2 weeks after flu vaccination as long as disease activity allows it, but patients who are taking methotrexate should continue taking it for any other nonlive attenuated vaccinations.

“Non-rheumatology providers, such as general pediatricians and internists, are encouraged to give the influenza vaccination and then consult with the patient’s rheumatology provider about holding methotrexate to avoid a missed vaccination opportunity,” the guidelines state.

Patients taking rituximab should receive the flu vaccine on schedule and continue taking rituximab. However, for these patients, the guidelines recommend to “delay any subsequent rituximab dosing for at least two weeks after influenza vaccination if disease activity allows.”

“Because of the relatively short time period between the rollout of the influenza vaccine and its season, we can’t always wait to time the B-cell depletion dosage,” Dr. Kim said. “Also, it is not always easy to synchronize the patient’s B-cell depletion dosing schedule to the influenza vaccine rollout. Thus, we now just recommend getting the influenza vaccine regardless of the patient’s last B-cell depletion dosage despite its known strong attenuation of optimal immune responses.”

For other nonlive attenuated vaccines, providers should time vaccination for when the next rituximab dose is due and then hold the drug for at least 2 weeks thereafter, providing time for the B cells to mount a response before rituximab depletes B cells again.

Patients taking less than 20 mg of prednisone daily should still receive the flu vaccine and other nonlive attenuated vaccines. Those taking 20 mg or more of prednisone each day should still receive the flu vaccine, but other vaccines should be deferred until their dose of glucocorticoids has been tapered down to less than 20 mg daily.

Patients taking all other immunosuppressive medications should continue taking them for the flu vaccine and other nonlive attenuated vaccinations, but it is conditionally recommended that live attenuated vaccines be deferred. For any patient with a rheumatic and musculoskeletal disease, regardless of disease activity, it is conditionally recommended that all routine nonlive attenuated vaccines be administered.

For live attenuated virus vaccines, the ACR provides a chart on which immunosuppressive medications to hold and for how long. Glucocorticoids, methotrexate, azathioprine, leflunomide, mycophenolate mofetil, calcineurin inhibitors, and oral cyclophosphamide should all be held 4 weeks before and 4 weeks after administration of a live attenuated vaccine. For those taking JAK inhibitors, the medication should be halted 1 week before administration of a live vaccine and should continue to be withheld for 4 weeks after.

For most other biologics, the ACR recommends holding the medication for one dosing interval before the live vaccine and 4 weeks thereafter. The main exception is rituximab, which should be held for 6 months before a live vaccine and then for 4 more weeks thereafter.

For patients receiving intravenous immunoglobulin, the drug should be held for 8-11 months before they are administered a live attenuated vaccine, depending on the dosage, and then 4 weeks after vaccination, regardless of dosage.

To reassure people with rheumatic disease who may have anxiety or concerns about receiving immunizations, whether taking immunosuppressive medication or not, Dr. Kim said it’s important to provide lots of education to patients.

“Fear and emotion have replaced facts, and data as a leading factor in decision-making, as seen with COVID-19,” Dr. Kim said. “The reality is that a small minority of people will have any issues with most vaccines, which include disease flares, adverse events, or acquisition of an autoimmune disease. We are not saying there is zero risk, rather, that the risk is quite small. This is where shared decision-making between the health care provider and the patient must be done effectively to enable the patient to properly weigh risk versus benefit.”

Dr. Kim has relationships with GlaxoSmithKline, Aurinia Pharmaceuticals, Kypha, Pfizer, Alexion Pharmaceuticals, AstraZeneca, Exagen Diagnostics, and Foghorn Therapeutics.

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

Most vaccines don’t come as one-shot deals. A series of boosters is needed to step up immunity to COVID-19, tetanus, and other infectious threats over time.

But what if you could receive just one shot that boosts itself whenever you need a bump in protection?

Researchers at the Massachusetts Institute of Technology (MIT) have developed microparticles that could be used to create self-boosting vaccines that deliver their contents at carefully set time points. In a new study published in the journal Science Advances, the scientists describe how they tune the particles to release the goods at the right time and offer insights on how they can keep the particles stable until then.
 

How self-boosting vaccines could work

The team developed tiny particles that look like coffee cups – except instead of your favorite brew, they’re filled with vaccine.

“You can put the lid on, and then inject it into the body, and once the lid breaks, whatever is in there is released,” says study author Ana Jaklenec, PhD, a research scientist at MIT’s Koch Institute for Integrative Cancer Research.

To make the tiny cups, the researchers use various polymers already used in medical applications, such as dissolvable stitches. Then they fill the cups with vaccine material that is dried and combined with sugars and other stabilizers.

The particles can be made in various shapes and fine-tuned using polymers with different properties. Some polymers last longer in the body than others, so their choice helps determine how long everything will stay stable under the skin after the injection and when the particles will release their cargo. It could be days or months after the injection.

One challenge is that as the particles open, the environment around them becomes more acidic. The team is working on ways to curb that acidity to make the vaccine material more stable.

“We have ongoing research that has produced some really, really exciting results about their stability and [shows] that you’re able to maintain really sensitive vaccines, stable for a good period of time,” says study author Morteza Sarmadi, PhD, a research specialist at the Koch Institute.
 

The potential public health impact

This research, funded by the Bill & Melinda Gates Foundation, started with the developing world in mind.

“The intent was actually helping people in the developing world, because a lot of times, people don’t come back for a second injection,” says study author Robert Langer, ScD, the David H. Koch Institute professor at MIT.

But a one-shot plan could benefit the developed world, too. One reason is that self-boosting vaccines could help those who get one achieve higher antibody responses than they would with just one dose. That could mean more protection for the person and the population, because as people develop stronger immunity, germs may have less of a chance to evolve and spread.

Take the COVID-19 pandemic, for example. Only 67% of Americans are fully vaccinated, and most people eligible for first and second boosters haven’t gotten them. New variants, such as the recent Omicron ones, continue to emerge and infect.

“I think those variants would have had a lot less chance to come about if everybody that had gotten vaccinated the first time got repeat injections, which they didn’t,” says Dr. Langer.

Self-boosting vaccines could also benefit infants, children who fear shots, and older adults who have a hard time getting health care.

Also, because the vaccine material is encapsulated and its release can be staggered, this technology might help people receive multiple vaccines at the same time that must now be given separately.
 

What comes next

The team is testing self-boosting polio and hepatitis vaccines in non-human primates. A small trial in healthy humans might follow within the next few years.

“We think that there’s really high potential for this technology, and we hope it can be developed and get to the human phase very soon,” says Dr. Jaklenec.

In smaller animal models, they are exploring the potential of self-boosting mRNA vaccines. They’re also working with scientists who are studying HIV vaccines.

“There has been some recent progress where very complex regimens seem to be working, but they’re not practical,” says Dr. Jaklenec. “And so, this is where this particular technology could be useful, because you have to prime and boost with different things, and this allows you to do that.”

This system could also extend beyond vaccines and be used to deliver cancer therapies, hormones, and biologics in a shot.

Through new work with researchers at Georgia Tech University, the team will study the potential of giving self-boosting vaccines through 3D-printed microneedles. These vaccines, which would stick on your skin like a bandage, could be self-administered and deployed globally in response to local outbreaks.

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

Most vaccines don’t come as one-shot deals. A series of boosters is needed to step up immunity to COVID-19, tetanus, and other infectious threats over time.

But what if you could receive just one shot that boosts itself whenever you need a bump in protection?

Researchers at the Massachusetts Institute of Technology (MIT) have developed microparticles that could be used to create self-boosting vaccines that deliver their contents at carefully set time points. In a new study published in the journal Science Advances, the scientists describe how they tune the particles to release the goods at the right time and offer insights on how they can keep the particles stable until then.
 

How self-boosting vaccines could work

The team developed tiny particles that look like coffee cups – except instead of your favorite brew, they’re filled with vaccine.

“You can put the lid on, and then inject it into the body, and once the lid breaks, whatever is in there is released,” says study author Ana Jaklenec, PhD, a research scientist at MIT’s Koch Institute for Integrative Cancer Research.

To make the tiny cups, the researchers use various polymers already used in medical applications, such as dissolvable stitches. Then they fill the cups with vaccine material that is dried and combined with sugars and other stabilizers.

The particles can be made in various shapes and fine-tuned using polymers with different properties. Some polymers last longer in the body than others, so their choice helps determine how long everything will stay stable under the skin after the injection and when the particles will release their cargo. It could be days or months after the injection.

One challenge is that as the particles open, the environment around them becomes more acidic. The team is working on ways to curb that acidity to make the vaccine material more stable.

“We have ongoing research that has produced some really, really exciting results about their stability and [shows] that you’re able to maintain really sensitive vaccines, stable for a good period of time,” says study author Morteza Sarmadi, PhD, a research specialist at the Koch Institute.
 

The potential public health impact

This research, funded by the Bill & Melinda Gates Foundation, started with the developing world in mind.

“The intent was actually helping people in the developing world, because a lot of times, people don’t come back for a second injection,” says study author Robert Langer, ScD, the David H. Koch Institute professor at MIT.

But a one-shot plan could benefit the developed world, too. One reason is that self-boosting vaccines could help those who get one achieve higher antibody responses than they would with just one dose. That could mean more protection for the person and the population, because as people develop stronger immunity, germs may have less of a chance to evolve and spread.

Take the COVID-19 pandemic, for example. Only 67% of Americans are fully vaccinated, and most people eligible for first and second boosters haven’t gotten them. New variants, such as the recent Omicron ones, continue to emerge and infect.

“I think those variants would have had a lot less chance to come about if everybody that had gotten vaccinated the first time got repeat injections, which they didn’t,” says Dr. Langer.

Self-boosting vaccines could also benefit infants, children who fear shots, and older adults who have a hard time getting health care.

Also, because the vaccine material is encapsulated and its release can be staggered, this technology might help people receive multiple vaccines at the same time that must now be given separately.
 

What comes next

The team is testing self-boosting polio and hepatitis vaccines in non-human primates. A small trial in healthy humans might follow within the next few years.

“We think that there’s really high potential for this technology, and we hope it can be developed and get to the human phase very soon,” says Dr. Jaklenec.

In smaller animal models, they are exploring the potential of self-boosting mRNA vaccines. They’re also working with scientists who are studying HIV vaccines.

“There has been some recent progress where very complex regimens seem to be working, but they’re not practical,” says Dr. Jaklenec. “And so, this is where this particular technology could be useful, because you have to prime and boost with different things, and this allows you to do that.”

This system could also extend beyond vaccines and be used to deliver cancer therapies, hormones, and biologics in a shot.

Through new work with researchers at Georgia Tech University, the team will study the potential of giving self-boosting vaccines through 3D-printed microneedles. These vaccines, which would stick on your skin like a bandage, could be self-administered and deployed globally in response to local outbreaks.

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

Most vaccines don’t come as one-shot deals. A series of boosters is needed to step up immunity to COVID-19, tetanus, and other infectious threats over time.

But what if you could receive just one shot that boosts itself whenever you need a bump in protection?

Researchers at the Massachusetts Institute of Technology (MIT) have developed microparticles that could be used to create self-boosting vaccines that deliver their contents at carefully set time points. In a new study published in the journal Science Advances, the scientists describe how they tune the particles to release the goods at the right time and offer insights on how they can keep the particles stable until then.
 

How self-boosting vaccines could work

The team developed tiny particles that look like coffee cups – except instead of your favorite brew, they’re filled with vaccine.

“You can put the lid on, and then inject it into the body, and once the lid breaks, whatever is in there is released,” says study author Ana Jaklenec, PhD, a research scientist at MIT’s Koch Institute for Integrative Cancer Research.

To make the tiny cups, the researchers use various polymers already used in medical applications, such as dissolvable stitches. Then they fill the cups with vaccine material that is dried and combined with sugars and other stabilizers.

The particles can be made in various shapes and fine-tuned using polymers with different properties. Some polymers last longer in the body than others, so their choice helps determine how long everything will stay stable under the skin after the injection and when the particles will release their cargo. It could be days or months after the injection.

One challenge is that as the particles open, the environment around them becomes more acidic. The team is working on ways to curb that acidity to make the vaccine material more stable.

“We have ongoing research that has produced some really, really exciting results about their stability and [shows] that you’re able to maintain really sensitive vaccines, stable for a good period of time,” says study author Morteza Sarmadi, PhD, a research specialist at the Koch Institute.
 

The potential public health impact

This research, funded by the Bill & Melinda Gates Foundation, started with the developing world in mind.

“The intent was actually helping people in the developing world, because a lot of times, people don’t come back for a second injection,” says study author Robert Langer, ScD, the David H. Koch Institute professor at MIT.

But a one-shot plan could benefit the developed world, too. One reason is that self-boosting vaccines could help those who get one achieve higher antibody responses than they would with just one dose. That could mean more protection for the person and the population, because as people develop stronger immunity, germs may have less of a chance to evolve and spread.

Take the COVID-19 pandemic, for example. Only 67% of Americans are fully vaccinated, and most people eligible for first and second boosters haven’t gotten them. New variants, such as the recent Omicron ones, continue to emerge and infect.

“I think those variants would have had a lot less chance to come about if everybody that had gotten vaccinated the first time got repeat injections, which they didn’t,” says Dr. Langer.

Self-boosting vaccines could also benefit infants, children who fear shots, and older adults who have a hard time getting health care.

Also, because the vaccine material is encapsulated and its release can be staggered, this technology might help people receive multiple vaccines at the same time that must now be given separately.
 

What comes next

The team is testing self-boosting polio and hepatitis vaccines in non-human primates. A small trial in healthy humans might follow within the next few years.

“We think that there’s really high potential for this technology, and we hope it can be developed and get to the human phase very soon,” says Dr. Jaklenec.

In smaller animal models, they are exploring the potential of self-boosting mRNA vaccines. They’re also working with scientists who are studying HIV vaccines.

“There has been some recent progress where very complex regimens seem to be working, but they’re not practical,” says Dr. Jaklenec. “And so, this is where this particular technology could be useful, because you have to prime and boost with different things, and this allows you to do that.”

This system could also extend beyond vaccines and be used to deliver cancer therapies, hormones, and biologics in a shot.

Through new work with researchers at Georgia Tech University, the team will study the potential of giving self-boosting vaccines through 3D-printed microneedles. These vaccines, which would stick on your skin like a bandage, could be self-administered and deployed globally in response to local outbreaks.

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

The White House declared monkeypox a public health emergency Aug. 4. There have been more than 6,600 reported cases of the disease in the United States, up from less than 5,000 cases reported last week.

“This public health emergency will allow us to explore additional strategies to get vaccines and treatments more quickly out in the affected communities. And it will allow us to get more data from jurisdictions so we can effectively track and attack this outbreak,” Robert Fenton, who was named as the national monkeypox response coordinator this week, said at a news briefing Aug. 4.

Those who catch the virus usually have fever-like symptoms, followed by red lesions on the body that can raise and develop pus. Those at highest risk of monkeypox are gay and bisexual men, as well as men who have sex with other men. There are between 1.6 million and 1.7 million Americans in this high-risk group, Health and Human Services Secretary Xavier Becerra said at the briefing.

The Jynneos vaccine is being distributed to protect against monkeypox and can prevent severe symptoms. It’s mostly going to those with the greatest risk of catching the virus.

Last week, the Biden administration made over 1.1 million doses of the Jynneos vaccine available – of which over 600,000 doses have already been distributed across the country – and have secured over 6.9 million Jynneos doses altogether.

Around 786,000 vaccines have already been allocated, and the first doses were shipped this week. States will be able to order more doses beginning Aug. 15. If a state has used 90% or more of its vaccine supply, it will be eligible to order more doses before Aug. 15, according to Dawn O’Connell, JD, assistant secretary for preparedness and response at the U.S. Department of Health and Human Services.

An additional 150,000 doses will be added to the national stockpile in September, with more doses to come later this year, Ms. O’Connell says.

The administration is also stressing the importance of monkeypox testing and says it can now distribute 80,000 monkeypox tests per week.

An antiviral drug – known as TPOXX – is also available to treat severe cases of monkeypox. Around 1,700,000 doses are available in the Strategic National Stockpile, public health officials say.

“We are prepared to take our response to the next level, and we urge every American to take this seriously and to take responsibility to help us tackle this virus,” Secretary Becerra told reporters.

The White House says it will continue reaching out to doctors, public health partners, LGBTQ advocates, and other impacted communities.

“The public health emergency further raises awareness about monkeypox, which will encourage clinicians to test for it,” Rochelle Walensky, MD, director of the Centers for Disease Control and Prevention, said at the briefing.

This week, President Joe Biden appointed a new White House monkeypox response team. Besides Mr. Fenton as the response coordinator, Demetre Daskalakis, MD, will serve as the White House national monkeypox response deputy coordinator. He is the director of the CDC’s Division of HIV Prevention.

“This virus is moving fast. This is a unique outbreak that is spreading faster than previous outbreaks,” Mr. Fenton told reporters Aug. 4. “That’s why the president asked me to explore everything we can do to combat monkeypox and protect communities at risk.”

This article was updated 8/4/22.

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

The White House declared monkeypox a public health emergency Aug. 4. There have been more than 6,600 reported cases of the disease in the United States, up from less than 5,000 cases reported last week.

“This public health emergency will allow us to explore additional strategies to get vaccines and treatments more quickly out in the affected communities. And it will allow us to get more data from jurisdictions so we can effectively track and attack this outbreak,” Robert Fenton, who was named as the national monkeypox response coordinator this week, said at a news briefing Aug. 4.

Those who catch the virus usually have fever-like symptoms, followed by red lesions on the body that can raise and develop pus. Those at highest risk of monkeypox are gay and bisexual men, as well as men who have sex with other men. There are between 1.6 million and 1.7 million Americans in this high-risk group, Health and Human Services Secretary Xavier Becerra said at the briefing.

The Jynneos vaccine is being distributed to protect against monkeypox and can prevent severe symptoms. It’s mostly going to those with the greatest risk of catching the virus.

Last week, the Biden administration made over 1.1 million doses of the Jynneos vaccine available – of which over 600,000 doses have already been distributed across the country – and have secured over 6.9 million Jynneos doses altogether.

Around 786,000 vaccines have already been allocated, and the first doses were shipped this week. States will be able to order more doses beginning Aug. 15. If a state has used 90% or more of its vaccine supply, it will be eligible to order more doses before Aug. 15, according to Dawn O’Connell, JD, assistant secretary for preparedness and response at the U.S. Department of Health and Human Services.

An additional 150,000 doses will be added to the national stockpile in September, with more doses to come later this year, Ms. O’Connell says.

The administration is also stressing the importance of monkeypox testing and says it can now distribute 80,000 monkeypox tests per week.

An antiviral drug – known as TPOXX – is also available to treat severe cases of monkeypox. Around 1,700,000 doses are available in the Strategic National Stockpile, public health officials say.

“We are prepared to take our response to the next level, and we urge every American to take this seriously and to take responsibility to help us tackle this virus,” Secretary Becerra told reporters.

The White House says it will continue reaching out to doctors, public health partners, LGBTQ advocates, and other impacted communities.

“The public health emergency further raises awareness about monkeypox, which will encourage clinicians to test for it,” Rochelle Walensky, MD, director of the Centers for Disease Control and Prevention, said at the briefing.

This week, President Joe Biden appointed a new White House monkeypox response team. Besides Mr. Fenton as the response coordinator, Demetre Daskalakis, MD, will serve as the White House national monkeypox response deputy coordinator. He is the director of the CDC’s Division of HIV Prevention.

“This virus is moving fast. This is a unique outbreak that is spreading faster than previous outbreaks,” Mr. Fenton told reporters Aug. 4. “That’s why the president asked me to explore everything we can do to combat monkeypox and protect communities at risk.”

This article was updated 8/4/22.

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

The White House declared monkeypox a public health emergency Aug. 4. There have been more than 6,600 reported cases of the disease in the United States, up from less than 5,000 cases reported last week.

“This public health emergency will allow us to explore additional strategies to get vaccines and treatments more quickly out in the affected communities. And it will allow us to get more data from jurisdictions so we can effectively track and attack this outbreak,” Robert Fenton, who was named as the national monkeypox response coordinator this week, said at a news briefing Aug. 4.

Those who catch the virus usually have fever-like symptoms, followed by red lesions on the body that can raise and develop pus. Those at highest risk of monkeypox are gay and bisexual men, as well as men who have sex with other men. There are between 1.6 million and 1.7 million Americans in this high-risk group, Health and Human Services Secretary Xavier Becerra said at the briefing.

The Jynneos vaccine is being distributed to protect against monkeypox and can prevent severe symptoms. It’s mostly going to those with the greatest risk of catching the virus.

Last week, the Biden administration made over 1.1 million doses of the Jynneos vaccine available – of which over 600,000 doses have already been distributed across the country – and have secured over 6.9 million Jynneos doses altogether.

Around 786,000 vaccines have already been allocated, and the first doses were shipped this week. States will be able to order more doses beginning Aug. 15. If a state has used 90% or more of its vaccine supply, it will be eligible to order more doses before Aug. 15, according to Dawn O’Connell, JD, assistant secretary for preparedness and response at the U.S. Department of Health and Human Services.

An additional 150,000 doses will be added to the national stockpile in September, with more doses to come later this year, Ms. O’Connell says.

The administration is also stressing the importance of monkeypox testing and says it can now distribute 80,000 monkeypox tests per week.

An antiviral drug – known as TPOXX – is also available to treat severe cases of monkeypox. Around 1,700,000 doses are available in the Strategic National Stockpile, public health officials say.

“We are prepared to take our response to the next level, and we urge every American to take this seriously and to take responsibility to help us tackle this virus,” Secretary Becerra told reporters.

The White House says it will continue reaching out to doctors, public health partners, LGBTQ advocates, and other impacted communities.

“The public health emergency further raises awareness about monkeypox, which will encourage clinicians to test for it,” Rochelle Walensky, MD, director of the Centers for Disease Control and Prevention, said at the briefing.

This week, President Joe Biden appointed a new White House monkeypox response team. Besides Mr. Fenton as the response coordinator, Demetre Daskalakis, MD, will serve as the White House national monkeypox response deputy coordinator. He is the director of the CDC’s Division of HIV Prevention.

“This virus is moving fast. This is a unique outbreak that is spreading faster than previous outbreaks,” Mr. Fenton told reporters Aug. 4. “That’s why the president asked me to explore everything we can do to combat monkeypox and protect communities at risk.”

This article was updated 8/4/22.

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

New COVID-19 vaccine boosters, targeting new Omicron strains of the virus, are expected to roll out across the United States in September – a month ahead of schedule, the Biden administration announced this week.

Moderna has signed a $1.74 billion federal contract to supply 66 million initial doses of the “bivalent” booster, which includes the original “ancestral” virus strain and elements of the Omicron BA.4 and BA.5 variants. Pfizer also announced a $3.2 billion U.S. agreement for another 105 million shots. Both vaccine suppliers have signed options to provide millions more boosters in the months ahead.

About 83.5% of Americans have received at least one COVID-19 shot, with 71.5% fully vaccinated with the initial series, 48% receiving one booster shot, and 31% two boosters, according to the CDC. With about 130,000 new COVID cases per day, and about 440 deaths, officials say the updated boosters may help rein in those figures by targeting the highly transmissible and widely circulating Omicron strains.

Federal health officials are still hammering out details of guidelines and recommendations of who should get the boosters, which are expected to come from the CDC and FDA. For now, authorities have decided not to expand eligibility for second boosters of the existing vaccines – now recommended only for adults over 50 and those 12 and older with immune deficiencies. Children 5 through 11 are advised to receive a single booster, 5 months after their initial vaccine series.

For a preview of what to expect from the CDC and FDA, this news organization spoke with Keri Althoff, PhD, an epidemiologist at Johns Hopkins University, Baltimore.
 

Q: Based on what we know now, who should be getting one of these new bivalent boosters?A: Of course, there is a process here regarding the specific recommendations, but it appears there will likely be a recommendation for all individuals to get this bivalent booster, similar to the first booster. And there will likely be a recommended time frame as to time since the last booster.

Right now, we have a recommendation for adults over the age of 50 or adults who are at higher risk for severe COVID-related illness [to get] a second booster. For them, there will probably be a timeline that says you should get the booster if you’re X amount of months or more from your second booster; or X amount of months or more from your first booster, if you’ve only had one.

Q: What about pregnant women or those being treated for chronic health conditions?A: I would imagine that once this bivalent booster becomes available, it will be recommended for all adults.

Q: And for children?A: That’s a good question. It’s something I have been digging into, [and] I think parents are really interested in this. Most kids, 5 and above, are supposed to be boosted with one shot right now, if they’re X amount of days from their primary vaccine series. Of course those 6 months to 4.99 years are not yet eligible [for boosters].

As a parent, I would love to see my children become eligible for the bivalent booster. It would be great if these boosters are conveying some additional protection that the kids could get access to before we send them off to school this fall. But there are questions as to whether or not that is going to happen.

Q: If you never received a booster, but only the preliminary vaccine series, do you need to get those earlier boosters before having the new bivalent booster shot?A: I don’t think they will likely make that a requirement – to restrict the bivalent booster only to those who are already boosted or up to date on their vaccines at the time the bivalent booster becomes available. But that will be up to the [CDC] vaccine recommendation committee to decide.

Q: Are there any new risks associated with these boosters, since they were developed so rapidly?A: No. We continue to monitor this technology, and with all the mRNA vaccines that have been delivered, you have seen all that monitoring play out with the detection, for example, of different forms of inflammation of the heart tissue and who that may impact. So, those monitoring systems work, and they work really, really well, so we can detect those things. And we know these vaccines are definitely safe.

Q: Some health experts are concerned “vaccine fatigue” will have an impact on the booster campaign. What’s your take?A: We have seen this fatigue in the proportion of individuals who are boosted with a first booster and even boosted with a second. But having those earlier boosters along with this new bivalent booster is important, because essentially, what we’re doing is really priming the immune system.

We’re trying to expedite the process of getting people’s immune system up to speed so that when the virus comes our way – as we know it will, because [of] these Omicron strains that are highly infectious and really whipping through our communities – we’re able to get the highest level of population immunity, you don’t end up in the hospital.

Q: What other challenges do you see in persuading Americans to get another round of boosters?A: One of the things that I’ve been hearing a lot, which I get very nervous about, is people saying: “Oh, I got fully vaccinated, I did or did not get the booster, and I had COVID anyway and it was really nothing, it didn’t feel like much to me, and so I’m not going to be boosted anymore.” We are not in a place quite yet where those guidelines are being rolled back in any way, shape, or form. We still have highly vulnerable people to severe disease and death in our communities, and we’re seeing hundreds of deaths every day.

There are consequences, even if it isn’t in severity of disease, meaning hospitalization and death. And let’s not let the actual quality of the vaccine being so successful that it can keep you out of the hospital. Don’t mistake that for “I don’t need another one.”

Q: Unlike the flu shot, which is reformulated each year to match circulating strains, the new COVID boosters offer protection against older strains as well as the newer ones. Why?A: It’s all about creating a broader immune response in individuals so that as more strains emerge, which they likely will, we can create a broader population immune response [to all strains]. Our individual bodies are seeing differences in these strains through vaccination that helps everyone stay healthy.

Q: There haven’t been clinical trials of these new mRNA boosters. How strong is the evidence that they will be effective against the emerging Omicron variants?A: There have been some studies – some great studies – looking at things like neutralizing antibodies, which we use as a surrogate for clinical trials. But that is not the same as studying the outcome of interest, which would be hospitalizations. So, part of the challenge is to be able to say: “Okay, this is what we know about the safety and effectiveness of the prior vaccines ... and how can we relate that to outcomes with these new boosters at an earlier stage [before] clinical data is available?”

Q: How long will the new boosters’ protections last – do we know yet?A: That timing is still a question, but of course what plays a big role in that is what COVID strains are circulating. If we prep these boosters that are Omicron specific, and then we have something totally new emerge ... we have to be more nimble because the variants are outpacing what we’re able to do.

This turns out to be a bit of a game of probability – the more infection we have, the more replication of the virus; the more replication, the more opportunity for mutations and subsequent variants.

Q: What about a combined flu-COVID vaccine; is that on the horizon?A: My children, who like most children do not like vaccines, always tell me: “Mom, why can’t they just put the influenza vaccine and the COVID vaccine into the same shot?” And I’m like: “Oh, from your lips to some scientist’s ears.”

At a time like this, where mRNA technology has totally disrupted what we can do with vaccines, in such a good way, I think we should push for the limits, because that would be incredible.

Q: If you’ve received a non-mRNA COVID vaccine, like those produced by Johnson & Johnson and Novavax, should you also get an mRNA booster?A: Right now, the CDC guidelines do state that if your primary vaccine series was not with an mRNA vaccine then being boosted with an mRNA is a fine thing to do, and it’s actually encouraged. So that’s not going to change with the bivalent booster.

Q: Is it okay to get a flu shot and a COVID booster at the same time, as the Centers for Disease Control and Prevention has recommended with past vaccines?A: I don’t anticipate there being recommendations against that. But I would also say watch for the recommendations that come out this fall on the bivalent boosters.

I do hope in the recommendations the CDC makes about the COVID boosters, they will say think about also getting your influenza vaccine, too. You could also get your COVID booster first, then by October get your influenza vaccine.

Q: Once you’re fully boosted, is it safe to stop wearing a mask, social distancing, avoiding crowded indoor spaces, and taking other precautions to avoid COVID-19?A: The virus is going to do what it does, which is infect whomever it can, and make them sick. So, if you see a lot of community transmission – you know who is ill with COVID in your kids’ schools, you know in your workplace and when people go out – that still signals there’s some increases in the circulation of virus. So, look at that to understand what your risk is.

If you know someone or have a colleague who is currently pregnant or immune suppressed, think about how you can protect them with mask-wearing, even if it’s just when you’re in one-on-one closed-door meetings with that individual.

So, your masking question is an important one, and it’s important for people to continue to hang onto those masks and wear them the week before you go see Grandma, for instance, to further reduce your risk so you don’t bring anything to here.

The high-level community risk nationwide is high right now. COVID is here.

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

New COVID-19 vaccine boosters, targeting new Omicron strains of the virus, are expected to roll out across the United States in September – a month ahead of schedule, the Biden administration announced this week.

Moderna has signed a $1.74 billion federal contract to supply 66 million initial doses of the “bivalent” booster, which includes the original “ancestral” virus strain and elements of the Omicron BA.4 and BA.5 variants. Pfizer also announced a $3.2 billion U.S. agreement for another 105 million shots. Both vaccine suppliers have signed options to provide millions more boosters in the months ahead.

About 83.5% of Americans have received at least one COVID-19 shot, with 71.5% fully vaccinated with the initial series, 48% receiving one booster shot, and 31% two boosters, according to the CDC. With about 130,000 new COVID cases per day, and about 440 deaths, officials say the updated boosters may help rein in those figures by targeting the highly transmissible and widely circulating Omicron strains.

Federal health officials are still hammering out details of guidelines and recommendations of who should get the boosters, which are expected to come from the CDC and FDA. For now, authorities have decided not to expand eligibility for second boosters of the existing vaccines – now recommended only for adults over 50 and those 12 and older with immune deficiencies. Children 5 through 11 are advised to receive a single booster, 5 months after their initial vaccine series.

For a preview of what to expect from the CDC and FDA, this news organization spoke with Keri Althoff, PhD, an epidemiologist at Johns Hopkins University, Baltimore.
 

Q: Based on what we know now, who should be getting one of these new bivalent boosters?A: Of course, there is a process here regarding the specific recommendations, but it appears there will likely be a recommendation for all individuals to get this bivalent booster, similar to the first booster. And there will likely be a recommended time frame as to time since the last booster.

Right now, we have a recommendation for adults over the age of 50 or adults who are at higher risk for severe COVID-related illness [to get] a second booster. For them, there will probably be a timeline that says you should get the booster if you’re X amount of months or more from your second booster; or X amount of months or more from your first booster, if you’ve only had one.

Q: What about pregnant women or those being treated for chronic health conditions?A: I would imagine that once this bivalent booster becomes available, it will be recommended for all adults.

Q: And for children?A: That’s a good question. It’s something I have been digging into, [and] I think parents are really interested in this. Most kids, 5 and above, are supposed to be boosted with one shot right now, if they’re X amount of days from their primary vaccine series. Of course those 6 months to 4.99 years are not yet eligible [for boosters].

As a parent, I would love to see my children become eligible for the bivalent booster. It would be great if these boosters are conveying some additional protection that the kids could get access to before we send them off to school this fall. But there are questions as to whether or not that is going to happen.

Q: If you never received a booster, but only the preliminary vaccine series, do you need to get those earlier boosters before having the new bivalent booster shot?A: I don’t think they will likely make that a requirement – to restrict the bivalent booster only to those who are already boosted or up to date on their vaccines at the time the bivalent booster becomes available. But that will be up to the [CDC] vaccine recommendation committee to decide.

Q: Are there any new risks associated with these boosters, since they were developed so rapidly?A: No. We continue to monitor this technology, and with all the mRNA vaccines that have been delivered, you have seen all that monitoring play out with the detection, for example, of different forms of inflammation of the heart tissue and who that may impact. So, those monitoring systems work, and they work really, really well, so we can detect those things. And we know these vaccines are definitely safe.

Q: Some health experts are concerned “vaccine fatigue” will have an impact on the booster campaign. What’s your take?A: We have seen this fatigue in the proportion of individuals who are boosted with a first booster and even boosted with a second. But having those earlier boosters along with this new bivalent booster is important, because essentially, what we’re doing is really priming the immune system.

We’re trying to expedite the process of getting people’s immune system up to speed so that when the virus comes our way – as we know it will, because [of] these Omicron strains that are highly infectious and really whipping through our communities – we’re able to get the highest level of population immunity, you don’t end up in the hospital.

Q: What other challenges do you see in persuading Americans to get another round of boosters?A: One of the things that I’ve been hearing a lot, which I get very nervous about, is people saying: “Oh, I got fully vaccinated, I did or did not get the booster, and I had COVID anyway and it was really nothing, it didn’t feel like much to me, and so I’m not going to be boosted anymore.” We are not in a place quite yet where those guidelines are being rolled back in any way, shape, or form. We still have highly vulnerable people to severe disease and death in our communities, and we’re seeing hundreds of deaths every day.

There are consequences, even if it isn’t in severity of disease, meaning hospitalization and death. And let’s not let the actual quality of the vaccine being so successful that it can keep you out of the hospital. Don’t mistake that for “I don’t need another one.”

Q: Unlike the flu shot, which is reformulated each year to match circulating strains, the new COVID boosters offer protection against older strains as well as the newer ones. Why?A: It’s all about creating a broader immune response in individuals so that as more strains emerge, which they likely will, we can create a broader population immune response [to all strains]. Our individual bodies are seeing differences in these strains through vaccination that helps everyone stay healthy.

Q: There haven’t been clinical trials of these new mRNA boosters. How strong is the evidence that they will be effective against the emerging Omicron variants?A: There have been some studies – some great studies – looking at things like neutralizing antibodies, which we use as a surrogate for clinical trials. But that is not the same as studying the outcome of interest, which would be hospitalizations. So, part of the challenge is to be able to say: “Okay, this is what we know about the safety and effectiveness of the prior vaccines ... and how can we relate that to outcomes with these new boosters at an earlier stage [before] clinical data is available?”

Q: How long will the new boosters’ protections last – do we know yet?A: That timing is still a question, but of course what plays a big role in that is what COVID strains are circulating. If we prep these boosters that are Omicron specific, and then we have something totally new emerge ... we have to be more nimble because the variants are outpacing what we’re able to do.

This turns out to be a bit of a game of probability – the more infection we have, the more replication of the virus; the more replication, the more opportunity for mutations and subsequent variants.

Q: What about a combined flu-COVID vaccine; is that on the horizon?A: My children, who like most children do not like vaccines, always tell me: “Mom, why can’t they just put the influenza vaccine and the COVID vaccine into the same shot?” And I’m like: “Oh, from your lips to some scientist’s ears.”

At a time like this, where mRNA technology has totally disrupted what we can do with vaccines, in such a good way, I think we should push for the limits, because that would be incredible.

Q: If you’ve received a non-mRNA COVID vaccine, like those produced by Johnson & Johnson and Novavax, should you also get an mRNA booster?A: Right now, the CDC guidelines do state that if your primary vaccine series was not with an mRNA vaccine then being boosted with an mRNA is a fine thing to do, and it’s actually encouraged. So that’s not going to change with the bivalent booster.

Q: Is it okay to get a flu shot and a COVID booster at the same time, as the Centers for Disease Control and Prevention has recommended with past vaccines?A: I don’t anticipate there being recommendations against that. But I would also say watch for the recommendations that come out this fall on the bivalent boosters.

I do hope in the recommendations the CDC makes about the COVID boosters, they will say think about also getting your influenza vaccine, too. You could also get your COVID booster first, then by October get your influenza vaccine.

Q: Once you’re fully boosted, is it safe to stop wearing a mask, social distancing, avoiding crowded indoor spaces, and taking other precautions to avoid COVID-19?A: The virus is going to do what it does, which is infect whomever it can, and make them sick. So, if you see a lot of community transmission – you know who is ill with COVID in your kids’ schools, you know in your workplace and when people go out – that still signals there’s some increases in the circulation of virus. So, look at that to understand what your risk is.

If you know someone or have a colleague who is currently pregnant or immune suppressed, think about how you can protect them with mask-wearing, even if it’s just when you’re in one-on-one closed-door meetings with that individual.

So, your masking question is an important one, and it’s important for people to continue to hang onto those masks and wear them the week before you go see Grandma, for instance, to further reduce your risk so you don’t bring anything to here.

The high-level community risk nationwide is high right now. COVID is here.

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

New COVID-19 vaccine boosters, targeting new Omicron strains of the virus, are expected to roll out across the United States in September – a month ahead of schedule, the Biden administration announced this week.

Moderna has signed a $1.74 billion federal contract to supply 66 million initial doses of the “bivalent” booster, which includes the original “ancestral” virus strain and elements of the Omicron BA.4 and BA.5 variants. Pfizer also announced a $3.2 billion U.S. agreement for another 105 million shots. Both vaccine suppliers have signed options to provide millions more boosters in the months ahead.

About 83.5% of Americans have received at least one COVID-19 shot, with 71.5% fully vaccinated with the initial series, 48% receiving one booster shot, and 31% two boosters, according to the CDC. With about 130,000 new COVID cases per day, and about 440 deaths, officials say the updated boosters may help rein in those figures by targeting the highly transmissible and widely circulating Omicron strains.

Federal health officials are still hammering out details of guidelines and recommendations of who should get the boosters, which are expected to come from the CDC and FDA. For now, authorities have decided not to expand eligibility for second boosters of the existing vaccines – now recommended only for adults over 50 and those 12 and older with immune deficiencies. Children 5 through 11 are advised to receive a single booster, 5 months after their initial vaccine series.

For a preview of what to expect from the CDC and FDA, this news organization spoke with Keri Althoff, PhD, an epidemiologist at Johns Hopkins University, Baltimore.
 

Q: Based on what we know now, who should be getting one of these new bivalent boosters?A: Of course, there is a process here regarding the specific recommendations, but it appears there will likely be a recommendation for all individuals to get this bivalent booster, similar to the first booster. And there will likely be a recommended time frame as to time since the last booster.

Right now, we have a recommendation for adults over the age of 50 or adults who are at higher risk for severe COVID-related illness [to get] a second booster. For them, there will probably be a timeline that says you should get the booster if you’re X amount of months or more from your second booster; or X amount of months or more from your first booster, if you’ve only had one.

Q: What about pregnant women or those being treated for chronic health conditions?A: I would imagine that once this bivalent booster becomes available, it will be recommended for all adults.

Q: And for children?A: That’s a good question. It’s something I have been digging into, [and] I think parents are really interested in this. Most kids, 5 and above, are supposed to be boosted with one shot right now, if they’re X amount of days from their primary vaccine series. Of course those 6 months to 4.99 years are not yet eligible [for boosters].

As a parent, I would love to see my children become eligible for the bivalent booster. It would be great if these boosters are conveying some additional protection that the kids could get access to before we send them off to school this fall. But there are questions as to whether or not that is going to happen.

Q: If you never received a booster, but only the preliminary vaccine series, do you need to get those earlier boosters before having the new bivalent booster shot?A: I don’t think they will likely make that a requirement – to restrict the bivalent booster only to those who are already boosted or up to date on their vaccines at the time the bivalent booster becomes available. But that will be up to the [CDC] vaccine recommendation committee to decide.

Q: Are there any new risks associated with these boosters, since they were developed so rapidly?A: No. We continue to monitor this technology, and with all the mRNA vaccines that have been delivered, you have seen all that monitoring play out with the detection, for example, of different forms of inflammation of the heart tissue and who that may impact. So, those monitoring systems work, and they work really, really well, so we can detect those things. And we know these vaccines are definitely safe.

Q: Some health experts are concerned “vaccine fatigue” will have an impact on the booster campaign. What’s your take?A: We have seen this fatigue in the proportion of individuals who are boosted with a first booster and even boosted with a second. But having those earlier boosters along with this new bivalent booster is important, because essentially, what we’re doing is really priming the immune system.

We’re trying to expedite the process of getting people’s immune system up to speed so that when the virus comes our way – as we know it will, because [of] these Omicron strains that are highly infectious and really whipping through our communities – we’re able to get the highest level of population immunity, you don’t end up in the hospital.

Q: What other challenges do you see in persuading Americans to get another round of boosters?A: One of the things that I’ve been hearing a lot, which I get very nervous about, is people saying: “Oh, I got fully vaccinated, I did or did not get the booster, and I had COVID anyway and it was really nothing, it didn’t feel like much to me, and so I’m not going to be boosted anymore.” We are not in a place quite yet where those guidelines are being rolled back in any way, shape, or form. We still have highly vulnerable people to severe disease and death in our communities, and we’re seeing hundreds of deaths every day.

There are consequences, even if it isn’t in severity of disease, meaning hospitalization and death. And let’s not let the actual quality of the vaccine being so successful that it can keep you out of the hospital. Don’t mistake that for “I don’t need another one.”

Q: Unlike the flu shot, which is reformulated each year to match circulating strains, the new COVID boosters offer protection against older strains as well as the newer ones. Why?A: It’s all about creating a broader immune response in individuals so that as more strains emerge, which they likely will, we can create a broader population immune response [to all strains]. Our individual bodies are seeing differences in these strains through vaccination that helps everyone stay healthy.

Q: There haven’t been clinical trials of these new mRNA boosters. How strong is the evidence that they will be effective against the emerging Omicron variants?A: There have been some studies – some great studies – looking at things like neutralizing antibodies, which we use as a surrogate for clinical trials. But that is not the same as studying the outcome of interest, which would be hospitalizations. So, part of the challenge is to be able to say: “Okay, this is what we know about the safety and effectiveness of the prior vaccines ... and how can we relate that to outcomes with these new boosters at an earlier stage [before] clinical data is available?”

Q: How long will the new boosters’ protections last – do we know yet?A: That timing is still a question, but of course what plays a big role in that is what COVID strains are circulating. If we prep these boosters that are Omicron specific, and then we have something totally new emerge ... we have to be more nimble because the variants are outpacing what we’re able to do.

This turns out to be a bit of a game of probability – the more infection we have, the more replication of the virus; the more replication, the more opportunity for mutations and subsequent variants.

Q: What about a combined flu-COVID vaccine; is that on the horizon?A: My children, who like most children do not like vaccines, always tell me: “Mom, why can’t they just put the influenza vaccine and the COVID vaccine into the same shot?” And I’m like: “Oh, from your lips to some scientist’s ears.”

At a time like this, where mRNA technology has totally disrupted what we can do with vaccines, in such a good way, I think we should push for the limits, because that would be incredible.

Q: If you’ve received a non-mRNA COVID vaccine, like those produced by Johnson & Johnson and Novavax, should you also get an mRNA booster?A: Right now, the CDC guidelines do state that if your primary vaccine series was not with an mRNA vaccine then being boosted with an mRNA is a fine thing to do, and it’s actually encouraged. So that’s not going to change with the bivalent booster.

Q: Is it okay to get a flu shot and a COVID booster at the same time, as the Centers for Disease Control and Prevention has recommended with past vaccines?A: I don’t anticipate there being recommendations against that. But I would also say watch for the recommendations that come out this fall on the bivalent boosters.

I do hope in the recommendations the CDC makes about the COVID boosters, they will say think about also getting your influenza vaccine, too. You could also get your COVID booster first, then by October get your influenza vaccine.

Q: Once you’re fully boosted, is it safe to stop wearing a mask, social distancing, avoiding crowded indoor spaces, and taking other precautions to avoid COVID-19?A: The virus is going to do what it does, which is infect whomever it can, and make them sick. So, if you see a lot of community transmission – you know who is ill with COVID in your kids’ schools, you know in your workplace and when people go out – that still signals there’s some increases in the circulation of virus. So, look at that to understand what your risk is.

If you know someone or have a colleague who is currently pregnant or immune suppressed, think about how you can protect them with mask-wearing, even if it’s just when you’re in one-on-one closed-door meetings with that individual.

So, your masking question is an important one, and it’s important for people to continue to hang onto those masks and wear them the week before you go see Grandma, for instance, to further reduce your risk so you don’t bring anything to here.

The high-level community risk nationwide is high right now. COVID is here.

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

Human papillomavirus (HPV) vaccine given around the time women have surgery for precancerous cervical lesions might lead to a reduction in the risk of lesions returning, as well as other HPV-related diseases, but the effects of this remain unclear.

The authors of the new study, published in The BMJ, explained that women who have been treated for high-grade cervical intra-epithelial neoplasia (CIN) have a “lifelong residual high risk of cervical cancer and other malignancies related to HPV infection,” and some research suggests that giving a preventive HPV vaccine alongside treatment for CIN might help to “reduce the risk in these women.”

HPV vaccination is highly effective at preventing the development of precancerous cervical lesions, CIN, and in the U.K., HPV vaccination is offered to girls and boys around the age of 12 or 13.

Eluned Hughes, head of information and engagement at Jo’s Cervical Cancer Trust, said: “Recent evidence has found that cases of cervical cancer have fallen 87% since the introduction of the HPV vaccine program in U.K. schools in 2008.”

“However, women over the age of 27, for whom the vaccine was not available, remain at increased risk of cervical cancer,” she highlighted.
 

Significant risk of bias and scarcity of data

In the study, researchers set out to explore the efficacy of HPV vaccination on the risk of HPV infection and recurrent diseases related to HPV infection in individuals undergoing local surgical treatment of preinvasive genital disease.

The systematic review and meta-analysis, led by researchers at Imperial College London, screened data from PubMed (Medline), Scopus, Cochrane, Web of Science, and ClinicalTrials.gov from inception to March 31, 2021.

The researchers analyzed the results of 18 studies – two randomized controlled trials (RCTs), 12 observational studies, and four post-hoc analyses of RCTs.

The authors said that the two RCTs were classified as low risk of bias, while in the observational studies and post-hoc analyses, risk of bias was moderate for seven, serious for seven, and critical for two. Average length of follow-up was 36 months.

There was a reduction of 57% in the risk of recurrence of high-grade pre-invasive disease (CIN2+) in individuals who were vaccinated, compared with those who were not vaccinated. “The effect estimate was “even more pronounced” – a relative 74% reduction – when the risk of recurrence of CIN2+ was assessed for disease related to the two high-risk HPV types – HPV16 and HPV18,” explained the authors.

However, the researchers noted that these effects are unclear because of the “scarcity of data” and the “moderate to high overall risk of bias” of the available studies.
 

Quality of evidence inconclusive – more trials needed

With regards to CIN3, the risk of recurrence of was also reduced in patients who were vaccinated, but there was a high level of uncertainty about the quality of this evidence, cautioned the authors.

Evidence was also lacking on the benefit of HPV vaccination for recurrence of vulvar, vaginal, and anal lesions, as well as genital warts.

Analysis of the post-hoc studies from randomized controlled trial data with historic vaccination at randomization before the development of the disease reported inconsistent results, the authors said.

Several study limitations were acknowledged by the authors, including that most of the studies were observational, of low to moderate quality, and with relatively short follow-up times, which they pointed out prevented assessment of long-term effects. In addition, the average age of participants was not provided in most studies, and factors such as smoking – associated with a higher risk of recurrence – were not controlled for in many studies.

“HPV vaccination might reduce the risk of recurrence of CIN, in particular when related to HPV16 or HPV18, in women treated with local excision,” they concluded. However, they cautioned that “quality of evidence indicated that the data were inconclusive.”

“Large, appropriately powered, randomized controlled trials are required to establish the effectiveness of adjuvant HPV vaccination at the time of local surgical treatment of CIN,” they recommended.

“Given that the incidence of recurrence of high-grade disease is low in quality assured national screening programs, such as in the United Kingdom, absolute risks and a cost effectiveness analysis would be important in determining the implementation strategy of HPV vaccination after treatment,” the authors said.

Ms. Hughes said that the charity was pleased to see emerging research into the value of using the HPV vaccine to prevent the recurrence of cervical cell changes. She said that the charity looks forward to seeing “further large-scale studies into the effectiveness of this method.”

In the meantime, the charity encourages all women and other people with a cervix to attend their cervical screening and for young people to have the HPV vaccination when invited, as “these are the best tools we currently have to prevent cervical cancer,” she said.

A version of this article first appeared on Medscape UK.

Human papillomavirus (HPV) vaccine given around the time women have surgery for precancerous cervical lesions might lead to a reduction in the risk of lesions returning, as well as other HPV-related diseases, but the effects of this remain unclear.

The authors of the new study, published in The BMJ, explained that women who have been treated for high-grade cervical intra-epithelial neoplasia (CIN) have a “lifelong residual high risk of cervical cancer and other malignancies related to HPV infection,” and some research suggests that giving a preventive HPV vaccine alongside treatment for CIN might help to “reduce the risk in these women.”

HPV vaccination is highly effective at preventing the development of precancerous cervical lesions, CIN, and in the U.K., HPV vaccination is offered to girls and boys around the age of 12 or 13.

Eluned Hughes, head of information and engagement at Jo’s Cervical Cancer Trust, said: “Recent evidence has found that cases of cervical cancer have fallen 87% since the introduction of the HPV vaccine program in U.K. schools in 2008.”

“However, women over the age of 27, for whom the vaccine was not available, remain at increased risk of cervical cancer,” she highlighted.
 

Significant risk of bias and scarcity of data

In the study, researchers set out to explore the efficacy of HPV vaccination on the risk of HPV infection and recurrent diseases related to HPV infection in individuals undergoing local surgical treatment of preinvasive genital disease.

The systematic review and meta-analysis, led by researchers at Imperial College London, screened data from PubMed (Medline), Scopus, Cochrane, Web of Science, and ClinicalTrials.gov from inception to March 31, 2021.

The researchers analyzed the results of 18 studies – two randomized controlled trials (RCTs), 12 observational studies, and four post-hoc analyses of RCTs.

The authors said that the two RCTs were classified as low risk of bias, while in the observational studies and post-hoc analyses, risk of bias was moderate for seven, serious for seven, and critical for two. Average length of follow-up was 36 months.

There was a reduction of 57% in the risk of recurrence of high-grade pre-invasive disease (CIN2+) in individuals who were vaccinated, compared with those who were not vaccinated. “The effect estimate was “even more pronounced” – a relative 74% reduction – when the risk of recurrence of CIN2+ was assessed for disease related to the two high-risk HPV types – HPV16 and HPV18,” explained the authors.

However, the researchers noted that these effects are unclear because of the “scarcity of data” and the “moderate to high overall risk of bias” of the available studies.
 

Quality of evidence inconclusive – more trials needed

With regards to CIN3, the risk of recurrence of was also reduced in patients who were vaccinated, but there was a high level of uncertainty about the quality of this evidence, cautioned the authors.

Evidence was also lacking on the benefit of HPV vaccination for recurrence of vulvar, vaginal, and anal lesions, as well as genital warts.

Analysis of the post-hoc studies from randomized controlled trial data with historic vaccination at randomization before the development of the disease reported inconsistent results, the authors said.

Several study limitations were acknowledged by the authors, including that most of the studies were observational, of low to moderate quality, and with relatively short follow-up times, which they pointed out prevented assessment of long-term effects. In addition, the average age of participants was not provided in most studies, and factors such as smoking – associated with a higher risk of recurrence – were not controlled for in many studies.

“HPV vaccination might reduce the risk of recurrence of CIN, in particular when related to HPV16 or HPV18, in women treated with local excision,” they concluded. However, they cautioned that “quality of evidence indicated that the data were inconclusive.”

“Large, appropriately powered, randomized controlled trials are required to establish the effectiveness of adjuvant HPV vaccination at the time of local surgical treatment of CIN,” they recommended.

“Given that the incidence of recurrence of high-grade disease is low in quality assured national screening programs, such as in the United Kingdom, absolute risks and a cost effectiveness analysis would be important in determining the implementation strategy of HPV vaccination after treatment,” the authors said.

Ms. Hughes said that the charity was pleased to see emerging research into the value of using the HPV vaccine to prevent the recurrence of cervical cell changes. She said that the charity looks forward to seeing “further large-scale studies into the effectiveness of this method.”

In the meantime, the charity encourages all women and other people with a cervix to attend their cervical screening and for young people to have the HPV vaccination when invited, as “these are the best tools we currently have to prevent cervical cancer,” she said.

A version of this article first appeared on Medscape UK.

Human papillomavirus (HPV) vaccine given around the time women have surgery for precancerous cervical lesions might lead to a reduction in the risk of lesions returning, as well as other HPV-related diseases, but the effects of this remain unclear.

The authors of the new study, published in The BMJ, explained that women who have been treated for high-grade cervical intra-epithelial neoplasia (CIN) have a “lifelong residual high risk of cervical cancer and other malignancies related to HPV infection,” and some research suggests that giving a preventive HPV vaccine alongside treatment for CIN might help to “reduce the risk in these women.”

HPV vaccination is highly effective at preventing the development of precancerous cervical lesions, CIN, and in the U.K., HPV vaccination is offered to girls and boys around the age of 12 or 13.

Eluned Hughes, head of information and engagement at Jo’s Cervical Cancer Trust, said: “Recent evidence has found that cases of cervical cancer have fallen 87% since the introduction of the HPV vaccine program in U.K. schools in 2008.”

“However, women over the age of 27, for whom the vaccine was not available, remain at increased risk of cervical cancer,” she highlighted.
 

Significant risk of bias and scarcity of data

In the study, researchers set out to explore the efficacy of HPV vaccination on the risk of HPV infection and recurrent diseases related to HPV infection in individuals undergoing local surgical treatment of preinvasive genital disease.

The systematic review and meta-analysis, led by researchers at Imperial College London, screened data from PubMed (Medline), Scopus, Cochrane, Web of Science, and ClinicalTrials.gov from inception to March 31, 2021.

The researchers analyzed the results of 18 studies – two randomized controlled trials (RCTs), 12 observational studies, and four post-hoc analyses of RCTs.

The authors said that the two RCTs were classified as low risk of bias, while in the observational studies and post-hoc analyses, risk of bias was moderate for seven, serious for seven, and critical for two. Average length of follow-up was 36 months.

There was a reduction of 57% in the risk of recurrence of high-grade pre-invasive disease (CIN2+) in individuals who were vaccinated, compared with those who were not vaccinated. “The effect estimate was “even more pronounced” – a relative 74% reduction – when the risk of recurrence of CIN2+ was assessed for disease related to the two high-risk HPV types – HPV16 and HPV18,” explained the authors.

However, the researchers noted that these effects are unclear because of the “scarcity of data” and the “moderate to high overall risk of bias” of the available studies.
 

Quality of evidence inconclusive – more trials needed

With regards to CIN3, the risk of recurrence of was also reduced in patients who were vaccinated, but there was a high level of uncertainty about the quality of this evidence, cautioned the authors.

Evidence was also lacking on the benefit of HPV vaccination for recurrence of vulvar, vaginal, and anal lesions, as well as genital warts.

Analysis of the post-hoc studies from randomized controlled trial data with historic vaccination at randomization before the development of the disease reported inconsistent results, the authors said.

Several study limitations were acknowledged by the authors, including that most of the studies were observational, of low to moderate quality, and with relatively short follow-up times, which they pointed out prevented assessment of long-term effects. In addition, the average age of participants was not provided in most studies, and factors such as smoking – associated with a higher risk of recurrence – were not controlled for in many studies.

“HPV vaccination might reduce the risk of recurrence of CIN, in particular when related to HPV16 or HPV18, in women treated with local excision,” they concluded. However, they cautioned that “quality of evidence indicated that the data were inconclusive.”

“Large, appropriately powered, randomized controlled trials are required to establish the effectiveness of adjuvant HPV vaccination at the time of local surgical treatment of CIN,” they recommended.

“Given that the incidence of recurrence of high-grade disease is low in quality assured national screening programs, such as in the United Kingdom, absolute risks and a cost effectiveness analysis would be important in determining the implementation strategy of HPV vaccination after treatment,” the authors said.

Ms. Hughes said that the charity was pleased to see emerging research into the value of using the HPV vaccine to prevent the recurrence of cervical cell changes. She said that the charity looks forward to seeing “further large-scale studies into the effectiveness of this method.”

In the meantime, the charity encourages all women and other people with a cervix to attend their cervical screening and for young people to have the HPV vaccination when invited, as “these are the best tools we currently have to prevent cervical cancer,” she said.

A version of this article first appeared on Medscape UK.

In creating a guide about monkeypox for ob.gyns., Denise J. Jamieson, MD, MPH, turned to research she relied on during another outbreak of the disease nearly 20 years ago.

Dr. Jamieson, the James Robert McCord Professor and chair of the department of gynecology and obstetrics at Emory Healthcare, Atlanta, had been working for the Centers for Disease Control and Prevention in 2003 when doctors diagnosed monkeypox in several states.

That year, the virus was mainly transmitted by contact with pet prairie dogs, including in childcare and school settings. Of the approximately 70 suspected and confirmed cases, 55% occurred in female patients, according to one study .

Dr. Jamieson, an obstetrician with a focus on emerging infectious diseases, and colleagues at the agency published a commentary in Obstetrics & Gynecology highlighting the need for physicians to stay up to date with relevant information about the virus.

Fast forward to 2022: Dr. Jamieson – again with coauthors from the CDC – is delivering a similar message in the same journal about the need for clinicians to be prepared for this virus.

“Most ob.gyns. have never seen a case of monkeypox virus infection and may not be aware of testing, treatment, or pre-exposure or postexposure vaccine options,” she and her coauthors wrote in a primer published online.

But if a woman were to contract the virus, her ob.gyn. might well be the first clinician she called. “We are often the first people, the first physicians to see and evaluate women with various symptoms,” Dr. Jamieson said.

To promptly diagnose, treat, and prevent further spread of monkeypox, ob.gyns. need up-to-date information, Dr. Jamieson and colleagues said.

Based on data from related viruses like smallpox, monkeypox may be more severe in pregnant women and entail risk for adverse pregnancy outcomes, Dr. Jamieson said.
 

Outliers

So far this year, monkeypox has predominantly spread among men who have sex with men. Cases have occurred in women, however, some of whom have required hospitalization.

According to the CDC, as of July 25, 1,373 cases of monkeypox in the United States were in men and 13 in women. The total confirmed case count exceeded 5,800 as of Aug. 1. The agency recently announced that it planned to make the disease a reportable condition.

In the United Kingdom, which has been hit hard by the outbreak, researchers are keeping a close eye on the number of cases in women to assess how the disease is spreading.

At least one case of monkeypox in the United States has occurred in a pregnant woman who delivered. The mother and baby, who received immune globulin as a preventive measure, are doing well, according to health officials.  

“We know that infection can occur through placental transfer. In the case that we are aware of presently, it does not appear that the virus was transmitted,” said John T. Brooks, MD, the CDC’s chief medical officer in the division of HIV prevention, on a July 23 call with clinicians.

While monkeypox can be transmitted in utero and during sexual activity, it also can spread through any close contact with skin lesions or body fluids and possibly through touching contaminated items like clothing or linens, according to the CDC.
 

A preferred vaccine and antiviral in pregnancy

One monkeypox vaccine, Jynneos, is preferred for use during pregnancy, while another, ACAM2000, is contraindicated, the CDC advises.

Jynneos can be offered to people who are pregnant or breastfeeding who are eligible for vaccination based on confirmed or likely contact with cases, ideally within 4 days of exposure. People at high risk for exposure, such as laboratory workers, may receive the vaccine in advance.

Developmental toxicity studies in animals showed no evidence of harm with the Jynneos vaccine, Dr. Jamieson said.

ACAM2000, however, can cause fetal vaccinia and should not be used in people who are pregnant or breastfeeding, according to the CDC.

The Society for Maternal-Fetal Medicine notes that, if treatment for monkeypox is warranted, tecovirimat should be considered the first-line antiviral for pregnant, recently pregnant, and breastfeeding people, in line with CDC guidance.
 

Current outbreak ‘very different,’ but lessons apply

In 2003, some women exposed to monkeypox through contact with infected prairie dogs were pregnant – which is how Dr. Jamieson came to be involved in responding to the outbreak and studying the effects of the virus in pregnancy.

“When this resurfaced this year, of course it caught my attention,” Dr. Jamieson said. The extensive person-to-person transmission and far greater number of cases today make the current outbreak “very different” from the prior one, she said.

But key principles in managing the disease and understanding its potential risks in pregnancy – despite relatively limited information – remain the same.

“Whenever you are looking at an infectious disease, you want to think about, are pregnant persons more susceptible or more likely to have severe disease,” Dr. Jamieson said. Smallpox, a similar orthopoxvirus, “is more severe during pregnancy with a higher case fatality rate,” which is one reason for concern with monkeypox in this population.

In terms of pregnancy outcomes, researchers have data from only a handful of confirmed cases of monkeypox, which makes it difficult to draw conclusions, Dr. Jamieson said. A review of five cases from outside the United States in prior years found that three resulted in loss of the pregnancy. One resulted in preterm delivery of an infant who subsequently died. One child was apparently healthy and born at term.
 

Addition to the differential diagnosis

A separate team of researchers has proposed a clinical management algorithm for pregnant women with suspected exposure to monkeypox.

“Clinicians must maintain a high index of suspicion for monkeypox virus in any pregnant woman presenting with lymphadenopathy and vesiculopustular rash – including rash localized to the genital or perianal region – even if there are no apparent epidemiological links,” Pradip Dashraath, MBBS, National University Hospital, Singapore, and coauthors wrote in The Lancet.

Jamieson echoed the call for increased vigilance.

“As ob.gyns., people may present to us with genital lesions concerning for sexually transmitted infection. And it is important to include monkeypox in our differential,” Dr. Jamieson said. “We are trying to get the word out that it needs to be part of what you think about when you see a patient with genital ulcers.”

Health care professionals have acquired monkeypox through contact with patients or fomites, so clinicians should be sure to use appropriate precautions when evaluating patients who might have monkeypox, Dr. Jamieson added. Appropriate protective measures include wearing a gown, gloves, eye protection, and an N95.

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

In creating a guide about monkeypox for ob.gyns., Denise J. Jamieson, MD, MPH, turned to research she relied on during another outbreak of the disease nearly 20 years ago.

Dr. Jamieson, the James Robert McCord Professor and chair of the department of gynecology and obstetrics at Emory Healthcare, Atlanta, had been working for the Centers for Disease Control and Prevention in 2003 when doctors diagnosed monkeypox in several states.

That year, the virus was mainly transmitted by contact with pet prairie dogs, including in childcare and school settings. Of the approximately 70 suspected and confirmed cases, 55% occurred in female patients, according to one study .

Dr. Jamieson, an obstetrician with a focus on emerging infectious diseases, and colleagues at the agency published a commentary in Obstetrics & Gynecology highlighting the need for physicians to stay up to date with relevant information about the virus.

Fast forward to 2022: Dr. Jamieson – again with coauthors from the CDC – is delivering a similar message in the same journal about the need for clinicians to be prepared for this virus.

“Most ob.gyns. have never seen a case of monkeypox virus infection and may not be aware of testing, treatment, or pre-exposure or postexposure vaccine options,” she and her coauthors wrote in a primer published online.

But if a woman were to contract the virus, her ob.gyn. might well be the first clinician she called. “We are often the first people, the first physicians to see and evaluate women with various symptoms,” Dr. Jamieson said.

To promptly diagnose, treat, and prevent further spread of monkeypox, ob.gyns. need up-to-date information, Dr. Jamieson and colleagues said.

Based on data from related viruses like smallpox, monkeypox may be more severe in pregnant women and entail risk for adverse pregnancy outcomes, Dr. Jamieson said.
 

Outliers

So far this year, monkeypox has predominantly spread among men who have sex with men. Cases have occurred in women, however, some of whom have required hospitalization.

According to the CDC, as of July 25, 1,373 cases of monkeypox in the United States were in men and 13 in women. The total confirmed case count exceeded 5,800 as of Aug. 1. The agency recently announced that it planned to make the disease a reportable condition.

In the United Kingdom, which has been hit hard by the outbreak, researchers are keeping a close eye on the number of cases in women to assess how the disease is spreading.

At least one case of monkeypox in the United States has occurred in a pregnant woman who delivered. The mother and baby, who received immune globulin as a preventive measure, are doing well, according to health officials.  

“We know that infection can occur through placental transfer. In the case that we are aware of presently, it does not appear that the virus was transmitted,” said John T. Brooks, MD, the CDC’s chief medical officer in the division of HIV prevention, on a July 23 call with clinicians.

While monkeypox can be transmitted in utero and during sexual activity, it also can spread through any close contact with skin lesions or body fluids and possibly through touching contaminated items like clothing or linens, according to the CDC.
 

A preferred vaccine and antiviral in pregnancy

One monkeypox vaccine, Jynneos, is preferred for use during pregnancy, while another, ACAM2000, is contraindicated, the CDC advises.

Jynneos can be offered to people who are pregnant or breastfeeding who are eligible for vaccination based on confirmed or likely contact with cases, ideally within 4 days of exposure. People at high risk for exposure, such as laboratory workers, may receive the vaccine in advance.

Developmental toxicity studies in animals showed no evidence of harm with the Jynneos vaccine, Dr. Jamieson said.

ACAM2000, however, can cause fetal vaccinia and should not be used in people who are pregnant or breastfeeding, according to the CDC.

The Society for Maternal-Fetal Medicine notes that, if treatment for monkeypox is warranted, tecovirimat should be considered the first-line antiviral for pregnant, recently pregnant, and breastfeeding people, in line with CDC guidance.
 

Current outbreak ‘very different,’ but lessons apply

In 2003, some women exposed to monkeypox through contact with infected prairie dogs were pregnant – which is how Dr. Jamieson came to be involved in responding to the outbreak and studying the effects of the virus in pregnancy.

“When this resurfaced this year, of course it caught my attention,” Dr. Jamieson said. The extensive person-to-person transmission and far greater number of cases today make the current outbreak “very different” from the prior one, she said.

But key principles in managing the disease and understanding its potential risks in pregnancy – despite relatively limited information – remain the same.

“Whenever you are looking at an infectious disease, you want to think about, are pregnant persons more susceptible or more likely to have severe disease,” Dr. Jamieson said. Smallpox, a similar orthopoxvirus, “is more severe during pregnancy with a higher case fatality rate,” which is one reason for concern with monkeypox in this population.

In terms of pregnancy outcomes, researchers have data from only a handful of confirmed cases of monkeypox, which makes it difficult to draw conclusions, Dr. Jamieson said. A review of five cases from outside the United States in prior years found that three resulted in loss of the pregnancy. One resulted in preterm delivery of an infant who subsequently died. One child was apparently healthy and born at term.
 

Addition to the differential diagnosis

A separate team of researchers has proposed a clinical management algorithm for pregnant women with suspected exposure to monkeypox.

“Clinicians must maintain a high index of suspicion for monkeypox virus in any pregnant woman presenting with lymphadenopathy and vesiculopustular rash – including rash localized to the genital or perianal region – even if there are no apparent epidemiological links,” Pradip Dashraath, MBBS, National University Hospital, Singapore, and coauthors wrote in The Lancet.

Jamieson echoed the call for increased vigilance.

“As ob.gyns., people may present to us with genital lesions concerning for sexually transmitted infection. And it is important to include monkeypox in our differential,” Dr. Jamieson said. “We are trying to get the word out that it needs to be part of what you think about when you see a patient with genital ulcers.”

Health care professionals have acquired monkeypox through contact with patients or fomites, so clinicians should be sure to use appropriate precautions when evaluating patients who might have monkeypox, Dr. Jamieson added. Appropriate protective measures include wearing a gown, gloves, eye protection, and an N95.

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

In creating a guide about monkeypox for ob.gyns., Denise J. Jamieson, MD, MPH, turned to research she relied on during another outbreak of the disease nearly 20 years ago.

Dr. Jamieson, the James Robert McCord Professor and chair of the department of gynecology and obstetrics at Emory Healthcare, Atlanta, had been working for the Centers for Disease Control and Prevention in 2003 when doctors diagnosed monkeypox in several states.

That year, the virus was mainly transmitted by contact with pet prairie dogs, including in childcare and school settings. Of the approximately 70 suspected and confirmed cases, 55% occurred in female patients, according to one study .

Dr. Jamieson, an obstetrician with a focus on emerging infectious diseases, and colleagues at the agency published a commentary in Obstetrics & Gynecology highlighting the need for physicians to stay up to date with relevant information about the virus.

Fast forward to 2022: Dr. Jamieson – again with coauthors from the CDC – is delivering a similar message in the same journal about the need for clinicians to be prepared for this virus.

“Most ob.gyns. have never seen a case of monkeypox virus infection and may not be aware of testing, treatment, or pre-exposure or postexposure vaccine options,” she and her coauthors wrote in a primer published online.

But if a woman were to contract the virus, her ob.gyn. might well be the first clinician she called. “We are often the first people, the first physicians to see and evaluate women with various symptoms,” Dr. Jamieson said.

To promptly diagnose, treat, and prevent further spread of monkeypox, ob.gyns. need up-to-date information, Dr. Jamieson and colleagues said.

Based on data from related viruses like smallpox, monkeypox may be more severe in pregnant women and entail risk for adverse pregnancy outcomes, Dr. Jamieson said.
 

Outliers

So far this year, monkeypox has predominantly spread among men who have sex with men. Cases have occurred in women, however, some of whom have required hospitalization.

According to the CDC, as of July 25, 1,373 cases of monkeypox in the United States were in men and 13 in women. The total confirmed case count exceeded 5,800 as of Aug. 1. The agency recently announced that it planned to make the disease a reportable condition.

In the United Kingdom, which has been hit hard by the outbreak, researchers are keeping a close eye on the number of cases in women to assess how the disease is spreading.

At least one case of monkeypox in the United States has occurred in a pregnant woman who delivered. The mother and baby, who received immune globulin as a preventive measure, are doing well, according to health officials.  

“We know that infection can occur through placental transfer. In the case that we are aware of presently, it does not appear that the virus was transmitted,” said John T. Brooks, MD, the CDC’s chief medical officer in the division of HIV prevention, on a July 23 call with clinicians.

While monkeypox can be transmitted in utero and during sexual activity, it also can spread through any close contact with skin lesions or body fluids and possibly through touching contaminated items like clothing or linens, according to the CDC.
 

A preferred vaccine and antiviral in pregnancy

One monkeypox vaccine, Jynneos, is preferred for use during pregnancy, while another, ACAM2000, is contraindicated, the CDC advises.

Jynneos can be offered to people who are pregnant or breastfeeding who are eligible for vaccination based on confirmed or likely contact with cases, ideally within 4 days of exposure. People at high risk for exposure, such as laboratory workers, may receive the vaccine in advance.

Developmental toxicity studies in animals showed no evidence of harm with the Jynneos vaccine, Dr. Jamieson said.

ACAM2000, however, can cause fetal vaccinia and should not be used in people who are pregnant or breastfeeding, according to the CDC.

The Society for Maternal-Fetal Medicine notes that, if treatment for monkeypox is warranted, tecovirimat should be considered the first-line antiviral for pregnant, recently pregnant, and breastfeeding people, in line with CDC guidance.
 

Current outbreak ‘very different,’ but lessons apply

In 2003, some women exposed to monkeypox through contact with infected prairie dogs were pregnant – which is how Dr. Jamieson came to be involved in responding to the outbreak and studying the effects of the virus in pregnancy.

“When this resurfaced this year, of course it caught my attention,” Dr. Jamieson said. The extensive person-to-person transmission and far greater number of cases today make the current outbreak “very different” from the prior one, she said.

But key principles in managing the disease and understanding its potential risks in pregnancy – despite relatively limited information – remain the same.

“Whenever you are looking at an infectious disease, you want to think about, are pregnant persons more susceptible or more likely to have severe disease,” Dr. Jamieson said. Smallpox, a similar orthopoxvirus, “is more severe during pregnancy with a higher case fatality rate,” which is one reason for concern with monkeypox in this population.

In terms of pregnancy outcomes, researchers have data from only a handful of confirmed cases of monkeypox, which makes it difficult to draw conclusions, Dr. Jamieson said. A review of five cases from outside the United States in prior years found that three resulted in loss of the pregnancy. One resulted in preterm delivery of an infant who subsequently died. One child was apparently healthy and born at term.
 

Addition to the differential diagnosis

A separate team of researchers has proposed a clinical management algorithm for pregnant women with suspected exposure to monkeypox.

“Clinicians must maintain a high index of suspicion for monkeypox virus in any pregnant woman presenting with lymphadenopathy and vesiculopustular rash – including rash localized to the genital or perianal region – even if there are no apparent epidemiological links,” Pradip Dashraath, MBBS, National University Hospital, Singapore, and coauthors wrote in The Lancet.

Jamieson echoed the call for increased vigilance.

“As ob.gyns., people may present to us with genital lesions concerning for sexually transmitted infection. And it is important to include monkeypox in our differential,” Dr. Jamieson said. “We are trying to get the word out that it needs to be part of what you think about when you see a patient with genital ulcers.”

Health care professionals have acquired monkeypox through contact with patients or fomites, so clinicians should be sure to use appropriate precautions when evaluating patients who might have monkeypox, Dr. Jamieson added. Appropriate protective measures include wearing a gown, gloves, eye protection, and an N95.

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

More than 780,000 doses of the JYNNEOS monkeypox vaccine will be available in the United States beginning July 29, the Department of Health & Human Services announced on July 28 in a press call.

HHS Secretary Xavier Becerra urged local and state public health departments to use these doses for preventive vaccination efforts to stay ahead of the virus and end the outbreak, noting that the HHS and Centers for Disease Control and Prevention do not control how vaccines are distributed at state and local levels. “We don’t have the authority to tell them what to do,” he said during the call. “We need them to work with us.”

As of July 28, there were 4,907 reported cases of monkeypox in the United States and officials expect cases will continue to rise in the coming weeks.

HHS already has distributed more 338,000 doses to states and jurisdictions, but the vaccine remains in high demand. The vaccine is manufactured by the small Danish company Bavarian Nordic. These additional 786,000 doses were previously stored at a plant in Denmark, awaiting the completion of an inspection and authorization of the vaccine plant by the Food and Drug Administration. The agency announced on July 27 that both the vaccine doses and the manufacturing plant met standards.

With the announcement of these additional doses, the vaccine allocation plan is also being updated to take into account two important factors: the number of people at high risk in a jurisdiction and the number of new cases reported since the last vaccine allocation.

“This update gives greater weight to prioritizing vaccines to areas with the greatest number of people at risk, which includes men who have sex with men who have HIV or who are eligible for HIV pre-exposure prophylaxis, while still considering where we are seeing cases increase,” said Capt. Jennifer McQuiston, DVM, deputy director of the division of high consequence pathogens and pathology at the CDC.

Capt.McQuiston also provided additional demographic information on the U.S. outbreak. The median age of people with confirmed cases is 35 years old, with a range from 17 to 76. (This does not include the two cases in children reported on July 22.) Of the cases where sex at birth was provided, 99% were individuals assigned male sex at birth. In cases with reported ethnicity and race, 37% were non-Hispanic White people, 31% were Hispanic/Latino, 27% were Black or African American, and 4% were of Asian descent. The most common symptoms were rash – present in 99% of cases – malaise, fever, and swollen lymph nodes.

HHS and CDC did not have data on how many people have received at least one dose of the monkeypox vaccine. When asked how many people need to be fully vaccinated against monkeypox to contain the outbreak, Mr. Becerra did not provide an estimate but implied that preventive vaccination could help limit the number of vaccines needed and expressed optimism about quelling the outbreak in the United States. “We believe that we have done everything we can at the federal level to work with our state and local partners and communities affected to make sure we can stay ahead of this and end this outbreak,” he said, “but everybody’s got to do their part.”

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

More than 780,000 doses of the JYNNEOS monkeypox vaccine will be available in the United States beginning July 29, the Department of Health & Human Services announced on July 28 in a press call.

HHS Secretary Xavier Becerra urged local and state public health departments to use these doses for preventive vaccination efforts to stay ahead of the virus and end the outbreak, noting that the HHS and Centers for Disease Control and Prevention do not control how vaccines are distributed at state and local levels. “We don’t have the authority to tell them what to do,” he said during the call. “We need them to work with us.”

As of July 28, there were 4,907 reported cases of monkeypox in the United States and officials expect cases will continue to rise in the coming weeks.

HHS already has distributed more 338,000 doses to states and jurisdictions, but the vaccine remains in high demand. The vaccine is manufactured by the small Danish company Bavarian Nordic. These additional 786,000 doses were previously stored at a plant in Denmark, awaiting the completion of an inspection and authorization of the vaccine plant by the Food and Drug Administration. The agency announced on July 27 that both the vaccine doses and the manufacturing plant met standards.

With the announcement of these additional doses, the vaccine allocation plan is also being updated to take into account two important factors: the number of people at high risk in a jurisdiction and the number of new cases reported since the last vaccine allocation.

“This update gives greater weight to prioritizing vaccines to areas with the greatest number of people at risk, which includes men who have sex with men who have HIV or who are eligible for HIV pre-exposure prophylaxis, while still considering where we are seeing cases increase,” said Capt. Jennifer McQuiston, DVM, deputy director of the division of high consequence pathogens and pathology at the CDC.

Capt.McQuiston also provided additional demographic information on the U.S. outbreak. The median age of people with confirmed cases is 35 years old, with a range from 17 to 76. (This does not include the two cases in children reported on July 22.) Of the cases where sex at birth was provided, 99% were individuals assigned male sex at birth. In cases with reported ethnicity and race, 37% were non-Hispanic White people, 31% were Hispanic/Latino, 27% were Black or African American, and 4% were of Asian descent. The most common symptoms were rash – present in 99% of cases – malaise, fever, and swollen lymph nodes.

HHS and CDC did not have data on how many people have received at least one dose of the monkeypox vaccine. When asked how many people need to be fully vaccinated against monkeypox to contain the outbreak, Mr. Becerra did not provide an estimate but implied that preventive vaccination could help limit the number of vaccines needed and expressed optimism about quelling the outbreak in the United States. “We believe that we have done everything we can at the federal level to work with our state and local partners and communities affected to make sure we can stay ahead of this and end this outbreak,” he said, “but everybody’s got to do their part.”

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

More than 780,000 doses of the JYNNEOS monkeypox vaccine will be available in the United States beginning July 29, the Department of Health & Human Services announced on July 28 in a press call.

HHS Secretary Xavier Becerra urged local and state public health departments to use these doses for preventive vaccination efforts to stay ahead of the virus and end the outbreak, noting that the HHS and Centers for Disease Control and Prevention do not control how vaccines are distributed at state and local levels. “We don’t have the authority to tell them what to do,” he said during the call. “We need them to work with us.”

As of July 28, there were 4,907 reported cases of monkeypox in the United States and officials expect cases will continue to rise in the coming weeks.

HHS already has distributed more 338,000 doses to states and jurisdictions, but the vaccine remains in high demand. The vaccine is manufactured by the small Danish company Bavarian Nordic. These additional 786,000 doses were previously stored at a plant in Denmark, awaiting the completion of an inspection and authorization of the vaccine plant by the Food and Drug Administration. The agency announced on July 27 that both the vaccine doses and the manufacturing plant met standards.

With the announcement of these additional doses, the vaccine allocation plan is also being updated to take into account two important factors: the number of people at high risk in a jurisdiction and the number of new cases reported since the last vaccine allocation.

“This update gives greater weight to prioritizing vaccines to areas with the greatest number of people at risk, which includes men who have sex with men who have HIV or who are eligible for HIV pre-exposure prophylaxis, while still considering where we are seeing cases increase,” said Capt. Jennifer McQuiston, DVM, deputy director of the division of high consequence pathogens and pathology at the CDC.

Capt.McQuiston also provided additional demographic information on the U.S. outbreak. The median age of people with confirmed cases is 35 years old, with a range from 17 to 76. (This does not include the two cases in children reported on July 22.) Of the cases where sex at birth was provided, 99% were individuals assigned male sex at birth. In cases with reported ethnicity and race, 37% were non-Hispanic White people, 31% were Hispanic/Latino, 27% were Black or African American, and 4% were of Asian descent. The most common symptoms were rash – present in 99% of cases – malaise, fever, and swollen lymph nodes.

HHS and CDC did not have data on how many people have received at least one dose of the monkeypox vaccine. When asked how many people need to be fully vaccinated against monkeypox to contain the outbreak, Mr. Becerra did not provide an estimate but implied that preventive vaccination could help limit the number of vaccines needed and expressed optimism about quelling the outbreak in the United States. “We believe that we have done everything we can at the federal level to work with our state and local partners and communities affected to make sure we can stay ahead of this and end this outbreak,” he said, “but everybody’s got to do their part.”

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

The World Health Organization’s Strategic Advisory Group of Experts on Immunization (SAGE) has changed the recommendation for vaccines against human papillomavirus (HPV).

From the available evidence, SAGE has concluded that a single dose of vaccine offers solid protection against HPV, comparable to that achieved with two-dose schedules.

This could be a “game-changer for the prevention of the disease,” as it would allow “more doses of the life-saving jab reach more girls,” the WHO declared in a press release.

SAGE recommends updating HPV dose schedules as follows:

• One- or two-dose schedule for the primary target of girls aged 9-14 years.
• One- or two-dose schedule for young women aged 15-20.
• Two doses with a 6-month interval for women older than 21.

The HPV vaccine is highly effective for the prevention of HPV serotypes 16 and 18, which cause 70% of cases of cervical cancer, said Alejandro Cravioto, MD, PhD, SAGE chair, in a statement.

“SAGE urges all countries to introduce HPV vaccines and prioritize multi-age cohort catch up of missed and older cohorts of girls. These recommendations will enable more girls and women to be vaccinated and thus preventing them from having cervical cancer and all its consequences over the course of their lifetimes,” he added.

For individuals who are immunocompromised, including those with HIV, three doses of the vaccine should be given if feasible, and if not, then at least two doses. There is limited evidence regarding the efficacy of a single dose in this group, the advisory group noted.
 

Policy makers need to make changes

Now that the WHO has deemed that one dose of HPV vaccine is sufficient, policy makers should make changes, say experts in a recent editorial comment published in The Lancet Oncology.

“Policy makers should consider modifying their HPV immunization schedules for girls aged 9-14 years from a two-dose regimen to a one-dose regimen,” wrote Jeff D’Souza, PhD, Institute for Better Health, Trillium Health Partners, Mississauga, Ont., and David Nderitu, PhD, Egerton University, Nakuru County, Kenya.

Policy makers also need to consider reorienting their efforts on cervical cancer screening and treatment, and they should ensure that all girls globally have access to an effective HPV vaccination schedule, they add.

The editorialists also make a radical proposal.

Existing supply constraints of the HPV vaccine at the country level are expected to continue for the next 3 years, and the vast majority of new cervical cancer cases and related deaths occur in low- and middle-income countries (LMICs).

To overcome these problems, they suggest that “high-income countries that currently offer two-dose regimens to girls aged 9-14 years should consider opting for a one-dose vaccination schedule, and give any excess of vaccines to countries in greater need of them.”
 

Two doses in high-income countries

But it is unclear whether high-income countries are ready to move to a one-dose schedule.

Approached for comment, Maurie Markman, MD, president of medicine and science at Cancer Treatment Centers of America, Philadelphia, told this news organization that while he can’t say for certain, he suspects that the United States will be slower to accept this recommendation for a single dose of HPV vaccine “as a component of a ‘standard-of-care’ approach.”

However, it “might formally acknowledge that if an individual/parent will only accept a single vaccine dose (or ultimately refuses to return for a recommended second dose), this will be considered a favorable outcome, both for the individual and society.

“I do not know if regulatory bodies in the United States will accept the existing studies performed to address the one-dose vaccination strategy to rather dramatically change the approach in our country,” he said. “The issue would be that if a single dose was stated to be a clinically acceptable option in the United States, it would rapidly become the standard approach, and the regulators would want to be as certain as possible that this would not have a negative effect on what is now recognized to be a remarkably safe and effective cancer prevention effort.”

Another expert who was approached for comment, Stephanie V. Blank, MD, professor of gynecologic oncology at the Icahn School of Medicine at Mount Sinai, New York, said: “In higher-resourced countries, two doses are still preferred, as they are more effective than one.

“The modeling on which the SAGE recommendation is based is all from studies in LMICs and other modeling studies,” she added.

At present, the Centers for Disease Control and Prevention recommends a two-dose schedule of HPV vaccines for individuals who receive the first dose before their 15th birthday. The three-dose schedule is recommended for those who receive the first dose on or after their 15th birthday and for people with certain immunocompromising conditions.

Studies have shown that two doses of HPV vaccine given to children aged 9-14 years provide as good or better protection than three doses given to older adolescents or young adults.

But even with a two-dose schedule, the WHO reports that uptake of the vaccine has been slow, and coverage is much lower than their 90% target. In 2020, global coverage with two doses was only 13%.

Factors that have influenced the slow uptake and low coverage of HPV vaccines include supply challenges, programmatic challenges, and costs related to delivering a two-dose regimen to older girls who are not typically included in childhood vaccination programs. The relatively high cost of HPV vaccines has also been problematic, particularly for middle-income countries.
 

Trials of one-dose schedules

The one-dose vaccine schedule has garnered a lot of interest, with several studies showing efficacy.

The KEN SHE trial, based in Kenya, showed that a single dose of the HPV vaccine was highly effective at preventing oncogenic infection, rivaling the protection offered by multidose regimens. Vaccine efficacy was 97.5% (P < .001) against HPV 16/18 for both the bivalent and monovalent vaccines, which is “comparable to that seen in multidose vaccine trials,” the researchers noted.

A study in India found that efficacy against persistent HPV 16 and 18 infection among participants evaluable for the endpoint was 95.4% for the single dose, 93.1% for the two-dose schedule, and 93.3% for the three-dose series.

Commenting on this trial in India in a recent interview with this news organization, Geoffroy Canlorbe, MD, PhD, of the department of gynecologic and breast surgery and oncology, Pitié-Salpêtrière Hospital, Paris, said the findings from India would need “to be confirmed by other studies.” The results were nonetheless “excellent news for developing countries where there are challenges when it comes to access to vaccination.”

Speaking at the 45th Congress of the French Society for Colposcopy and Cervical and Vaginal Diseases, he emphasized that at this stage, the findings “cannot be extrapolated” to France. HPV vaccination coverage is low in France (it is estimated that the rate is 23.7%, placing the country 28th of 31 countries in Europe), and he recommended continuing with the two- or three-dose schedule for the time being.

“This poor coverage has nothing to do with health care–related logistical or organizational issues; instead, it has to do with people’s mistrust when it comes to vaccination. Here, people who get the first dose get the subsequent ones,” said Dr. Canlorbe. “The very fact of getting two to three doses allows the person’s body to increase the production of antibodies and get a longer-lasting response to the vaccine.”
 

Ethics of the vaccine

In their editorial, Dr. D’Souza and Dr. Nderitu note that there are ethical considerations with the HPV vaccine that can “help guide deliberations, covering nonmaleficence, beneficence, health equity, stewardship, and solidarity.”

It would be inequitable and unjustifiable, they write, to offer a two-dose regimen to girls aged 9-14 years without also introducing multi-age cohort catch-up campaigns or programs for women who do not have access. “When it comes to an effective HPV vaccination schedule, no woman or girl should be left behind,” they say.

To achieve the goal of eliminating cervical cancer, “countries must ensure that 90% of girls are vaccinated, 70% of women are screened, and 90% of women with precancerous lesions receive treatment and care,” they write. “Given resource constraints, particularly in low-middle income countries, policy makers have a responsibility to ensure that resources are used in an optimal manner that promotes the right to health of all individuals.”

Thus, countries that are lagging far behind in cervical cancer education, screening, and treatment should consider opting for a one-dose regimen for girls aged 9-14 years, as well as using additional resources to close the gap in these other areas.

Dr. Markman has relationships with Genentech, AstraZeneca, Celgene, Clovis, and Amgen; he is also a regular contributor to Medscape Oncology with the Markamn on Oncology video column. Dr. D’Souza and Dr. Nderitu have disclosed no relevant financial relationships.

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

The World Health Organization’s Strategic Advisory Group of Experts on Immunization (SAGE) has changed the recommendation for vaccines against human papillomavirus (HPV).

From the available evidence, SAGE has concluded that a single dose of vaccine offers solid protection against HPV, comparable to that achieved with two-dose schedules.

This could be a “game-changer for the prevention of the disease,” as it would allow “more doses of the life-saving jab reach more girls,” the WHO declared in a press release.

SAGE recommends updating HPV dose schedules as follows:

• One- or two-dose schedule for the primary target of girls aged 9-14 years.
• One- or two-dose schedule for young women aged 15-20.
• Two doses with a 6-month interval for women older than 21.

The HPV vaccine is highly effective for the prevention of HPV serotypes 16 and 18, which cause 70% of cases of cervical cancer, said Alejandro Cravioto, MD, PhD, SAGE chair, in a statement.

“SAGE urges all countries to introduce HPV vaccines and prioritize multi-age cohort catch up of missed and older cohorts of girls. These recommendations will enable more girls and women to be vaccinated and thus preventing them from having cervical cancer and all its consequences over the course of their lifetimes,” he added.

For individuals who are immunocompromised, including those with HIV, three doses of the vaccine should be given if feasible, and if not, then at least two doses. There is limited evidence regarding the efficacy of a single dose in this group, the advisory group noted.
 

Policy makers need to make changes

Now that the WHO has deemed that one dose of HPV vaccine is sufficient, policy makers should make changes, say experts in a recent editorial comment published in The Lancet Oncology.

“Policy makers should consider modifying their HPV immunization schedules for girls aged 9-14 years from a two-dose regimen to a one-dose regimen,” wrote Jeff D’Souza, PhD, Institute for Better Health, Trillium Health Partners, Mississauga, Ont., and David Nderitu, PhD, Egerton University, Nakuru County, Kenya.

Policy makers also need to consider reorienting their efforts on cervical cancer screening and treatment, and they should ensure that all girls globally have access to an effective HPV vaccination schedule, they add.

The editorialists also make a radical proposal.

Existing supply constraints of the HPV vaccine at the country level are expected to continue for the next 3 years, and the vast majority of new cervical cancer cases and related deaths occur in low- and middle-income countries (LMICs).

To overcome these problems, they suggest that “high-income countries that currently offer two-dose regimens to girls aged 9-14 years should consider opting for a one-dose vaccination schedule, and give any excess of vaccines to countries in greater need of them.”
 

Two doses in high-income countries

But it is unclear whether high-income countries are ready to move to a one-dose schedule.

Approached for comment, Maurie Markman, MD, president of medicine and science at Cancer Treatment Centers of America, Philadelphia, told this news organization that while he can’t say for certain, he suspects that the United States will be slower to accept this recommendation for a single dose of HPV vaccine “as a component of a ‘standard-of-care’ approach.”

However, it “might formally acknowledge that if an individual/parent will only accept a single vaccine dose (or ultimately refuses to return for a recommended second dose), this will be considered a favorable outcome, both for the individual and society.

“I do not know if regulatory bodies in the United States will accept the existing studies performed to address the one-dose vaccination strategy to rather dramatically change the approach in our country,” he said. “The issue would be that if a single dose was stated to be a clinically acceptable option in the United States, it would rapidly become the standard approach, and the regulators would want to be as certain as possible that this would not have a negative effect on what is now recognized to be a remarkably safe and effective cancer prevention effort.”

Another expert who was approached for comment, Stephanie V. Blank, MD, professor of gynecologic oncology at the Icahn School of Medicine at Mount Sinai, New York, said: “In higher-resourced countries, two doses are still preferred, as they are more effective than one.

“The modeling on which the SAGE recommendation is based is all from studies in LMICs and other modeling studies,” she added.

At present, the Centers for Disease Control and Prevention recommends a two-dose schedule of HPV vaccines for individuals who receive the first dose before their 15th birthday. The three-dose schedule is recommended for those who receive the first dose on or after their 15th birthday and for people with certain immunocompromising conditions.

Studies have shown that two doses of HPV vaccine given to children aged 9-14 years provide as good or better protection than three doses given to older adolescents or young adults.

But even with a two-dose schedule, the WHO reports that uptake of the vaccine has been slow, and coverage is much lower than their 90% target. In 2020, global coverage with two doses was only 13%.

Factors that have influenced the slow uptake and low coverage of HPV vaccines include supply challenges, programmatic challenges, and costs related to delivering a two-dose regimen to older girls who are not typically included in childhood vaccination programs. The relatively high cost of HPV vaccines has also been problematic, particularly for middle-income countries.
 

Trials of one-dose schedules

The one-dose vaccine schedule has garnered a lot of interest, with several studies showing efficacy.

The KEN SHE trial, based in Kenya, showed that a single dose of the HPV vaccine was highly effective at preventing oncogenic infection, rivaling the protection offered by multidose regimens. Vaccine efficacy was 97.5% (P < .001) against HPV 16/18 for both the bivalent and monovalent vaccines, which is “comparable to that seen in multidose vaccine trials,” the researchers noted.

A study in India found that efficacy against persistent HPV 16 and 18 infection among participants evaluable for the endpoint was 95.4% for the single dose, 93.1% for the two-dose schedule, and 93.3% for the three-dose series.

Commenting on this trial in India in a recent interview with this news organization, Geoffroy Canlorbe, MD, PhD, of the department of gynecologic and breast surgery and oncology, Pitié-Salpêtrière Hospital, Paris, said the findings from India would need “to be confirmed by other studies.” The results were nonetheless “excellent news for developing countries where there are challenges when it comes to access to vaccination.”

Speaking at the 45th Congress of the French Society for Colposcopy and Cervical and Vaginal Diseases, he emphasized that at this stage, the findings “cannot be extrapolated” to France. HPV vaccination coverage is low in France (it is estimated that the rate is 23.7%, placing the country 28th of 31 countries in Europe), and he recommended continuing with the two- or three-dose schedule for the time being.

“This poor coverage has nothing to do with health care–related logistical or organizational issues; instead, it has to do with people’s mistrust when it comes to vaccination. Here, people who get the first dose get the subsequent ones,” said Dr. Canlorbe. “The very fact of getting two to three doses allows the person’s body to increase the production of antibodies and get a longer-lasting response to the vaccine.”
 

Ethics of the vaccine

In their editorial, Dr. D’Souza and Dr. Nderitu note that there are ethical considerations with the HPV vaccine that can “help guide deliberations, covering nonmaleficence, beneficence, health equity, stewardship, and solidarity.”

It would be inequitable and unjustifiable, they write, to offer a two-dose regimen to girls aged 9-14 years without also introducing multi-age cohort catch-up campaigns or programs for women who do not have access. “When it comes to an effective HPV vaccination schedule, no woman or girl should be left behind,” they say.

To achieve the goal of eliminating cervical cancer, “countries must ensure that 90% of girls are vaccinated, 70% of women are screened, and 90% of women with precancerous lesions receive treatment and care,” they write. “Given resource constraints, particularly in low-middle income countries, policy makers have a responsibility to ensure that resources are used in an optimal manner that promotes the right to health of all individuals.”

Thus, countries that are lagging far behind in cervical cancer education, screening, and treatment should consider opting for a one-dose regimen for girls aged 9-14 years, as well as using additional resources to close the gap in these other areas.

Dr. Markman has relationships with Genentech, AstraZeneca, Celgene, Clovis, and Amgen; he is also a regular contributor to Medscape Oncology with the Markamn on Oncology video column. Dr. D’Souza and Dr. Nderitu have disclosed no relevant financial relationships.

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

The World Health Organization’s Strategic Advisory Group of Experts on Immunization (SAGE) has changed the recommendation for vaccines against human papillomavirus (HPV).

From the available evidence, SAGE has concluded that a single dose of vaccine offers solid protection against HPV, comparable to that achieved with two-dose schedules.

This could be a “game-changer for the prevention of the disease,” as it would allow “more doses of the life-saving jab reach more girls,” the WHO declared in a press release.

SAGE recommends updating HPV dose schedules as follows:

• One- or two-dose schedule for the primary target of girls aged 9-14 years.
• One- or two-dose schedule for young women aged 15-20.
• Two doses with a 6-month interval for women older than 21.

The HPV vaccine is highly effective for the prevention of HPV serotypes 16 and 18, which cause 70% of cases of cervical cancer, said Alejandro Cravioto, MD, PhD, SAGE chair, in a statement.

“SAGE urges all countries to introduce HPV vaccines and prioritize multi-age cohort catch up of missed and older cohorts of girls. These recommendations will enable more girls and women to be vaccinated and thus preventing them from having cervical cancer and all its consequences over the course of their lifetimes,” he added.

For individuals who are immunocompromised, including those with HIV, three doses of the vaccine should be given if feasible, and if not, then at least two doses. There is limited evidence regarding the efficacy of a single dose in this group, the advisory group noted.
 

Policy makers need to make changes

Now that the WHO has deemed that one dose of HPV vaccine is sufficient, policy makers should make changes, say experts in a recent editorial comment published in The Lancet Oncology.

“Policy makers should consider modifying their HPV immunization schedules for girls aged 9-14 years from a two-dose regimen to a one-dose regimen,” wrote Jeff D’Souza, PhD, Institute for Better Health, Trillium Health Partners, Mississauga, Ont., and David Nderitu, PhD, Egerton University, Nakuru County, Kenya.

Policy makers also need to consider reorienting their efforts on cervical cancer screening and treatment, and they should ensure that all girls globally have access to an effective HPV vaccination schedule, they add.

The editorialists also make a radical proposal.

Existing supply constraints of the HPV vaccine at the country level are expected to continue for the next 3 years, and the vast majority of new cervical cancer cases and related deaths occur in low- and middle-income countries (LMICs).

To overcome these problems, they suggest that “high-income countries that currently offer two-dose regimens to girls aged 9-14 years should consider opting for a one-dose vaccination schedule, and give any excess of vaccines to countries in greater need of them.”
 

Two doses in high-income countries

But it is unclear whether high-income countries are ready to move to a one-dose schedule.

Approached for comment, Maurie Markman, MD, president of medicine and science at Cancer Treatment Centers of America, Philadelphia, told this news organization that while he can’t say for certain, he suspects that the United States will be slower to accept this recommendation for a single dose of HPV vaccine “as a component of a ‘standard-of-care’ approach.”

However, it “might formally acknowledge that if an individual/parent will only accept a single vaccine dose (or ultimately refuses to return for a recommended second dose), this will be considered a favorable outcome, both for the individual and society.

“I do not know if regulatory bodies in the United States will accept the existing studies performed to address the one-dose vaccination strategy to rather dramatically change the approach in our country,” he said. “The issue would be that if a single dose was stated to be a clinically acceptable option in the United States, it would rapidly become the standard approach, and the regulators would want to be as certain as possible that this would not have a negative effect on what is now recognized to be a remarkably safe and effective cancer prevention effort.”

Another expert who was approached for comment, Stephanie V. Blank, MD, professor of gynecologic oncology at the Icahn School of Medicine at Mount Sinai, New York, said: “In higher-resourced countries, two doses are still preferred, as they are more effective than one.

“The modeling on which the SAGE recommendation is based is all from studies in LMICs and other modeling studies,” she added.

At present, the Centers for Disease Control and Prevention recommends a two-dose schedule of HPV vaccines for individuals who receive the first dose before their 15th birthday. The three-dose schedule is recommended for those who receive the first dose on or after their 15th birthday and for people with certain immunocompromising conditions.

Studies have shown that two doses of HPV vaccine given to children aged 9-14 years provide as good or better protection than three doses given to older adolescents or young adults.

But even with a two-dose schedule, the WHO reports that uptake of the vaccine has been slow, and coverage is much lower than their 90% target. In 2020, global coverage with two doses was only 13%.

Factors that have influenced the slow uptake and low coverage of HPV vaccines include supply challenges, programmatic challenges, and costs related to delivering a two-dose regimen to older girls who are not typically included in childhood vaccination programs. The relatively high cost of HPV vaccines has also been problematic, particularly for middle-income countries.
 

Trials of one-dose schedules

The one-dose vaccine schedule has garnered a lot of interest, with several studies showing efficacy.

The KEN SHE trial, based in Kenya, showed that a single dose of the HPV vaccine was highly effective at preventing oncogenic infection, rivaling the protection offered by multidose regimens. Vaccine efficacy was 97.5% (P < .001) against HPV 16/18 for both the bivalent and monovalent vaccines, which is “comparable to that seen in multidose vaccine trials,” the researchers noted.

A study in India found that efficacy against persistent HPV 16 and 18 infection among participants evaluable for the endpoint was 95.4% for the single dose, 93.1% for the two-dose schedule, and 93.3% for the three-dose series.

Commenting on this trial in India in a recent interview with this news organization, Geoffroy Canlorbe, MD, PhD, of the department of gynecologic and breast surgery and oncology, Pitié-Salpêtrière Hospital, Paris, said the findings from India would need “to be confirmed by other studies.” The results were nonetheless “excellent news for developing countries where there are challenges when it comes to access to vaccination.”

Speaking at the 45th Congress of the French Society for Colposcopy and Cervical and Vaginal Diseases, he emphasized that at this stage, the findings “cannot be extrapolated” to France. HPV vaccination coverage is low in France (it is estimated that the rate is 23.7%, placing the country 28th of 31 countries in Europe), and he recommended continuing with the two- or three-dose schedule for the time being.

“This poor coverage has nothing to do with health care–related logistical or organizational issues; instead, it has to do with people’s mistrust when it comes to vaccination. Here, people who get the first dose get the subsequent ones,” said Dr. Canlorbe. “The very fact of getting two to three doses allows the person’s body to increase the production of antibodies and get a longer-lasting response to the vaccine.”
 

Ethics of the vaccine

In their editorial, Dr. D’Souza and Dr. Nderitu note that there are ethical considerations with the HPV vaccine that can “help guide deliberations, covering nonmaleficence, beneficence, health equity, stewardship, and solidarity.”

It would be inequitable and unjustifiable, they write, to offer a two-dose regimen to girls aged 9-14 years without also introducing multi-age cohort catch-up campaigns or programs for women who do not have access. “When it comes to an effective HPV vaccination schedule, no woman or girl should be left behind,” they say.

To achieve the goal of eliminating cervical cancer, “countries must ensure that 90% of girls are vaccinated, 70% of women are screened, and 90% of women with precancerous lesions receive treatment and care,” they write. “Given resource constraints, particularly in low-middle income countries, policy makers have a responsibility to ensure that resources are used in an optimal manner that promotes the right to health of all individuals.”

Thus, countries that are lagging far behind in cervical cancer education, screening, and treatment should consider opting for a one-dose regimen for girls aged 9-14 years, as well as using additional resources to close the gap in these other areas.

Dr. Markman has relationships with Genentech, AstraZeneca, Celgene, Clovis, and Amgen; he is also a regular contributor to Medscape Oncology with the Markamn on Oncology video column. Dr. D’Souza and Dr. Nderitu have disclosed no relevant financial relationships.

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