Lucy Hicks

Monkeypox cases are declining in the United States and the United Kingdom, but experts are urging the public to continue efforts to stanch the spread of the virus. Continued transmission of monkeypox provides more opportunities for the virus to mutate, according to Philip Johnson, PhD, assistant professor of biology at the University of Maryland, College Park, and colleagues.

“Just because a disease like monkeypox appears to be controllable does not mean it will stay controllable,” the authors wrote in a correspondence published in The Lancet.

When case numbers are lower – and therefore less of a public health concern – viral transmission chains can be longer without causing alarm, Dr. Johnson explained. “The more generations of transmission, the more opportunities there are for mutations to occur,” he told this news organization. While it is difficult to anticipate how mutations can affect a virus, these changes in genetic code could be advantageous to the virus, making it more transmissible from human to human and therefore much more difficult to control.

This applies to any virus. The large Ebola outbreak from 2013 to 2016 is an example; a retrospective analysis found that specific amino acid changes in the Ebola virus increased growth in human cells and may have made the virus more infectious. More recently, the Delta and Omicron variants of SARS-CoV-2 each contained mutations that were associated with higher transmissibility. A recent study suggested that monkeypox appears to be mutating faster than expected, though it is not clear if these genetic mutations have changed the virus’ behavior.

Zoonotic infections, or viruses that originate from nonhuman animals, at first are expected to be less adapted to people, but that can change over time. When a virus continues to jump from animals to humans – as monkeypox has done since it was first identified in humans in 1970 – chances are it will gain a mutation that allows it to spread more effectively between people, said Rachel Roper, PhD, a professor of microbiology and immunology at East Carolina University, Greenville, N.C. She was not involved with The Lancet article.

“We discounted monkeypox; we didn’t pay much attention to it because it had not been that big of a problem,” she said in an interview. “We think this virus has been circulating now since 2017 and we really just realized it in May.”

Although monkeypox received global attention this past summer, the outbreak is now receiving less news coverage, and the public’s attention may be waning. Furthermore, the U.S. Congress just dropped billions of dollars from a short-term spending bill that would have provided additional COVID-19 and monkeypox funding.

Although new cases are trending downward, now is not the time to take our foot off the gas, Dr. Johnson and colleagues warned. “The epidemic is far from over, and continued drive toward elimination is essential,” the authors wrote. Because the virus exists in rodent populations in areas of central and west Africa, it is not possible to eradicate monkeypox as we did smallpox; however, “we could, through vaccination, eliminate any significant human to human transmission,” Dr. Johnson said.

Dr. Johnson also urges a more proactive approach to combating emerging infectious diseases in the future. “We wrote this article to raise awareness about the importance of dedicating resources to controlling these diseases all the way down to ideally elimination in the countries where they develop, and not just waiting until [these diseases] reach wealthier countries,” he said.

Dr. Roper agrees that a more global perspective is needed in monitoring and controlling zoonotic disease, but resources are limited. “The problem is there are a whole bunch of virus groups and a whole bunch of viruses jumping into humans all the time,” she said. “We can’t predict which virus group is going to be the next one with a big hit. I worked on SARS-CoV-1 back in 2003 to 2009, and I would have predicted that a virus from some other group would have jumped into humans next, before COVID hit,” she added.

Dr. Johnson acknowledged that it is hard to know where to focus public health resources, considering the hundreds of thousands of zoonotic viruses that may exist. He thought the best approach was to target emerging diseases that already appear to have extended transmission chains, “not just things that are hopping from animals to humans and sputtering out and disappearing, but diseases that appear to have any sustained human to human transmission.”

Dr. Johnson and Dr. Roper report no relevant financial relationships.

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

Monkeypox cases are declining in the United States and the United Kingdom, but experts are urging the public to continue efforts to stanch the spread of the virus. Continued transmission of monkeypox provides more opportunities for the virus to mutate, according to Philip Johnson, PhD, assistant professor of biology at the University of Maryland, College Park, and colleagues.

“Just because a disease like monkeypox appears to be controllable does not mean it will stay controllable,” the authors wrote in a correspondence published in The Lancet.

When case numbers are lower – and therefore less of a public health concern – viral transmission chains can be longer without causing alarm, Dr. Johnson explained. “The more generations of transmission, the more opportunities there are for mutations to occur,” he told this news organization. While it is difficult to anticipate how mutations can affect a virus, these changes in genetic code could be advantageous to the virus, making it more transmissible from human to human and therefore much more difficult to control.

This applies to any virus. The large Ebola outbreak from 2013 to 2016 is an example; a retrospective analysis found that specific amino acid changes in the Ebola virus increased growth in human cells and may have made the virus more infectious. More recently, the Delta and Omicron variants of SARS-CoV-2 each contained mutations that were associated with higher transmissibility. A recent study suggested that monkeypox appears to be mutating faster than expected, though it is not clear if these genetic mutations have changed the virus’ behavior.

Zoonotic infections, or viruses that originate from nonhuman animals, at first are expected to be less adapted to people, but that can change over time. When a virus continues to jump from animals to humans – as monkeypox has done since it was first identified in humans in 1970 – chances are it will gain a mutation that allows it to spread more effectively between people, said Rachel Roper, PhD, a professor of microbiology and immunology at East Carolina University, Greenville, N.C. She was not involved with The Lancet article.

“We discounted monkeypox; we didn’t pay much attention to it because it had not been that big of a problem,” she said in an interview. “We think this virus has been circulating now since 2017 and we really just realized it in May.”

Although monkeypox received global attention this past summer, the outbreak is now receiving less news coverage, and the public’s attention may be waning. Furthermore, the U.S. Congress just dropped billions of dollars from a short-term spending bill that would have provided additional COVID-19 and monkeypox funding.

Although new cases are trending downward, now is not the time to take our foot off the gas, Dr. Johnson and colleagues warned. “The epidemic is far from over, and continued drive toward elimination is essential,” the authors wrote. Because the virus exists in rodent populations in areas of central and west Africa, it is not possible to eradicate monkeypox as we did smallpox; however, “we could, through vaccination, eliminate any significant human to human transmission,” Dr. Johnson said.

Dr. Johnson also urges a more proactive approach to combating emerging infectious diseases in the future. “We wrote this article to raise awareness about the importance of dedicating resources to controlling these diseases all the way down to ideally elimination in the countries where they develop, and not just waiting until [these diseases] reach wealthier countries,” he said.

Dr. Roper agrees that a more global perspective is needed in monitoring and controlling zoonotic disease, but resources are limited. “The problem is there are a whole bunch of virus groups and a whole bunch of viruses jumping into humans all the time,” she said. “We can’t predict which virus group is going to be the next one with a big hit. I worked on SARS-CoV-1 back in 2003 to 2009, and I would have predicted that a virus from some other group would have jumped into humans next, before COVID hit,” she added.

Dr. Johnson acknowledged that it is hard to know where to focus public health resources, considering the hundreds of thousands of zoonotic viruses that may exist. He thought the best approach was to target emerging diseases that already appear to have extended transmission chains, “not just things that are hopping from animals to humans and sputtering out and disappearing, but diseases that appear to have any sustained human to human transmission.”

Dr. Johnson and Dr. Roper report no relevant financial relationships.

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

Monkeypox cases are declining in the United States and the United Kingdom, but experts are urging the public to continue efforts to stanch the spread of the virus. Continued transmission of monkeypox provides more opportunities for the virus to mutate, according to Philip Johnson, PhD, assistant professor of biology at the University of Maryland, College Park, and colleagues.

“Just because a disease like monkeypox appears to be controllable does not mean it will stay controllable,” the authors wrote in a correspondence published in The Lancet.

When case numbers are lower – and therefore less of a public health concern – viral transmission chains can be longer without causing alarm, Dr. Johnson explained. “The more generations of transmission, the more opportunities there are for mutations to occur,” he told this news organization. While it is difficult to anticipate how mutations can affect a virus, these changes in genetic code could be advantageous to the virus, making it more transmissible from human to human and therefore much more difficult to control.

This applies to any virus. The large Ebola outbreak from 2013 to 2016 is an example; a retrospective analysis found that specific amino acid changes in the Ebola virus increased growth in human cells and may have made the virus more infectious. More recently, the Delta and Omicron variants of SARS-CoV-2 each contained mutations that were associated with higher transmissibility. A recent study suggested that monkeypox appears to be mutating faster than expected, though it is not clear if these genetic mutations have changed the virus’ behavior.

Zoonotic infections, or viruses that originate from nonhuman animals, at first are expected to be less adapted to people, but that can change over time. When a virus continues to jump from animals to humans – as monkeypox has done since it was first identified in humans in 1970 – chances are it will gain a mutation that allows it to spread more effectively between people, said Rachel Roper, PhD, a professor of microbiology and immunology at East Carolina University, Greenville, N.C. She was not involved with The Lancet article.

“We discounted monkeypox; we didn’t pay much attention to it because it had not been that big of a problem,” she said in an interview. “We think this virus has been circulating now since 2017 and we really just realized it in May.”

Although monkeypox received global attention this past summer, the outbreak is now receiving less news coverage, and the public’s attention may be waning. Furthermore, the U.S. Congress just dropped billions of dollars from a short-term spending bill that would have provided additional COVID-19 and monkeypox funding.

Although new cases are trending downward, now is not the time to take our foot off the gas, Dr. Johnson and colleagues warned. “The epidemic is far from over, and continued drive toward elimination is essential,” the authors wrote. Because the virus exists in rodent populations in areas of central and west Africa, it is not possible to eradicate monkeypox as we did smallpox; however, “we could, through vaccination, eliminate any significant human to human transmission,” Dr. Johnson said.

Dr. Johnson also urges a more proactive approach to combating emerging infectious diseases in the future. “We wrote this article to raise awareness about the importance of dedicating resources to controlling these diseases all the way down to ideally elimination in the countries where they develop, and not just waiting until [these diseases] reach wealthier countries,” he said.

Dr. Roper agrees that a more global perspective is needed in monitoring and controlling zoonotic disease, but resources are limited. “The problem is there are a whole bunch of virus groups and a whole bunch of viruses jumping into humans all the time,” she said. “We can’t predict which virus group is going to be the next one with a big hit. I worked on SARS-CoV-1 back in 2003 to 2009, and I would have predicted that a virus from some other group would have jumped into humans next, before COVID hit,” she added.

Dr. Johnson acknowledged that it is hard to know where to focus public health resources, considering the hundreds of thousands of zoonotic viruses that may exist. He thought the best approach was to target emerging diseases that already appear to have extended transmission chains, “not just things that are hopping from animals to humans and sputtering out and disappearing, but diseases that appear to have any sustained human to human transmission.”

Dr. Johnson and Dr. Roper report no relevant financial relationships.

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

A recent uptick in severe respiratory illness in children may be tied to a strain of enterovirus that can cause a rare polio-like condition, according to a Health Network Alert advisory by the Centers for Disease Control and Prevention.

In August, health care providers and hospitals notified the CDC of an increase in severe respiratory illness in children who also tested positive for rhinovirus (RV) or enterovirus (EV). Additional testing revealed that some children were positive for EV-D68, which primarily causes acute respiratory illness. However, the virus has been associated with acute flaccid myelitis (AFM), a rare neurologic condition involving muscle weakness.

Also, in July and August 2022, surveillance networks reported an increase in EV-D68 activity compared with the same months in 2019, 2020, and 2021, the agency said in the alert. As of Aug. 30, the CDC has not received any reports of AFM beginning this year; however, spikes in EV-D68 typically come before cases of AFM, they said.

“Something we are always on the lookout for in the late summer and fall is AFM cases,” said Rick Malley, MD, of the division of infectious disease at Boston Children’s Hospital, in an interview with this news organization. “Unfortunately, we kind of expect them during enterovirus season,” he said. That season is thought to peak in the late summer and early fall.

Since the CDC began tracking AFM in August 2014, there have been 692 confirmed cases in the United States. AFM cases spiked in 2014, 2016, and 2018, mostly in young children. In 2021, there were 28 confirmed cases across 15 states. The CDC did not specify the age of those cases, but in 2018 – when EV-D68 most recently circulated at high levels – the median age of children who visited the emergency department or were hospitalized for EV-D68–associated respiratory illness was 3 years.

“[AFM] can be very severe and it can be very scary for the parents of children who have it,” Dr. Malley said, “but given the prevalence of enteroviruses in the community, you have to conclude it’s a relatively rare event in susceptible individuals. Why some get it and others don’t is unfortunately unclear at this moment.”

The CDC recommends that providers consider EV-D68 as a possible cause for acute, severe respiratory illness in children. If the cause of a respiratory illness in a severely ill patient is not clear, health professionals should test for RVs and EVs, if this is not already part of a typical diagnostic workflow, the agency said. Currently, there are no vaccines or specific treatments for RV or EV, and the CDC recommends supportive clinical management.

The advisory also urged providers to “strongly consider AFM in patients with acute flaccid limb weakness, especially after respiratory illness or fever, and between the months of August and November 2022.”

For any patient presenting with possible AFM, clinicians should collect samples from multiple sources, including cerebrospinal fluid, serum, stool, and a nasopharyngeal or oropharyngeal swab. Samples should be taken “as early as possible and preferably on the day of onset of limb weakness,” the alert said. There is currently no specific medicine for AFM, the agency said, though recommended interventions may vary for each patient.

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

A recent uptick in severe respiratory illness in children may be tied to a strain of enterovirus that can cause a rare polio-like condition, according to a Health Network Alert advisory by the Centers for Disease Control and Prevention.

In August, health care providers and hospitals notified the CDC of an increase in severe respiratory illness in children who also tested positive for rhinovirus (RV) or enterovirus (EV). Additional testing revealed that some children were positive for EV-D68, which primarily causes acute respiratory illness. However, the virus has been associated with acute flaccid myelitis (AFM), a rare neurologic condition involving muscle weakness.

Also, in July and August 2022, surveillance networks reported an increase in EV-D68 activity compared with the same months in 2019, 2020, and 2021, the agency said in the alert. As of Aug. 30, the CDC has not received any reports of AFM beginning this year; however, spikes in EV-D68 typically come before cases of AFM, they said.

“Something we are always on the lookout for in the late summer and fall is AFM cases,” said Rick Malley, MD, of the division of infectious disease at Boston Children’s Hospital, in an interview with this news organization. “Unfortunately, we kind of expect them during enterovirus season,” he said. That season is thought to peak in the late summer and early fall.

Since the CDC began tracking AFM in August 2014, there have been 692 confirmed cases in the United States. AFM cases spiked in 2014, 2016, and 2018, mostly in young children. In 2021, there were 28 confirmed cases across 15 states. The CDC did not specify the age of those cases, but in 2018 – when EV-D68 most recently circulated at high levels – the median age of children who visited the emergency department or were hospitalized for EV-D68–associated respiratory illness was 3 years.

“[AFM] can be very severe and it can be very scary for the parents of children who have it,” Dr. Malley said, “but given the prevalence of enteroviruses in the community, you have to conclude it’s a relatively rare event in susceptible individuals. Why some get it and others don’t is unfortunately unclear at this moment.”

The CDC recommends that providers consider EV-D68 as a possible cause for acute, severe respiratory illness in children. If the cause of a respiratory illness in a severely ill patient is not clear, health professionals should test for RVs and EVs, if this is not already part of a typical diagnostic workflow, the agency said. Currently, there are no vaccines or specific treatments for RV or EV, and the CDC recommends supportive clinical management.

The advisory also urged providers to “strongly consider AFM in patients with acute flaccid limb weakness, especially after respiratory illness or fever, and between the months of August and November 2022.”

For any patient presenting with possible AFM, clinicians should collect samples from multiple sources, including cerebrospinal fluid, serum, stool, and a nasopharyngeal or oropharyngeal swab. Samples should be taken “as early as possible and preferably on the day of onset of limb weakness,” the alert said. There is currently no specific medicine for AFM, the agency said, though recommended interventions may vary for each patient.

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

A recent uptick in severe respiratory illness in children may be tied to a strain of enterovirus that can cause a rare polio-like condition, according to a Health Network Alert advisory by the Centers for Disease Control and Prevention.

In August, health care providers and hospitals notified the CDC of an increase in severe respiratory illness in children who also tested positive for rhinovirus (RV) or enterovirus (EV). Additional testing revealed that some children were positive for EV-D68, which primarily causes acute respiratory illness. However, the virus has been associated with acute flaccid myelitis (AFM), a rare neurologic condition involving muscle weakness.

Also, in July and August 2022, surveillance networks reported an increase in EV-D68 activity compared with the same months in 2019, 2020, and 2021, the agency said in the alert. As of Aug. 30, the CDC has not received any reports of AFM beginning this year; however, spikes in EV-D68 typically come before cases of AFM, they said.

“Something we are always on the lookout for in the late summer and fall is AFM cases,” said Rick Malley, MD, of the division of infectious disease at Boston Children’s Hospital, in an interview with this news organization. “Unfortunately, we kind of expect them during enterovirus season,” he said. That season is thought to peak in the late summer and early fall.

Since the CDC began tracking AFM in August 2014, there have been 692 confirmed cases in the United States. AFM cases spiked in 2014, 2016, and 2018, mostly in young children. In 2021, there were 28 confirmed cases across 15 states. The CDC did not specify the age of those cases, but in 2018 – when EV-D68 most recently circulated at high levels – the median age of children who visited the emergency department or were hospitalized for EV-D68–associated respiratory illness was 3 years.

“[AFM] can be very severe and it can be very scary for the parents of children who have it,” Dr. Malley said, “but given the prevalence of enteroviruses in the community, you have to conclude it’s a relatively rare event in susceptible individuals. Why some get it and others don’t is unfortunately unclear at this moment.”

The CDC recommends that providers consider EV-D68 as a possible cause for acute, severe respiratory illness in children. If the cause of a respiratory illness in a severely ill patient is not clear, health professionals should test for RVs and EVs, if this is not already part of a typical diagnostic workflow, the agency said. Currently, there are no vaccines or specific treatments for RV or EV, and the CDC recommends supportive clinical management.

The advisory also urged providers to “strongly consider AFM in patients with acute flaccid limb weakness, especially after respiratory illness or fever, and between the months of August and November 2022.”

For any patient presenting with possible AFM, clinicians should collect samples from multiple sources, including cerebrospinal fluid, serum, stool, and a nasopharyngeal or oropharyngeal swab. Samples should be taken “as early as possible and preferably on the day of onset of limb weakness,” the alert said. There is currently no specific medicine for AFM, the agency said, though recommended interventions may vary for each patient.

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

New York Governor Kathy Hochul declared a state disaster emergency on Sept. 9 after the polio virus has been detected in another county. The order allows EMS workers, midwives, and pharmacists to administer the vaccine and permits physicians and nurse practitioners to issue standing orders for polio vaccines.

“On polio, we simply cannot roll the dice,” New York State Health Commissioner Dr. Mary T. Bassett said in a news release. “If you or your child are unvaccinated or not up to date with vaccinations, the risk of paralytic disease is real. I urge New Yorkers to not accept any risk at all.”

In July, an unvaccinated adult man in Rockland County, which is north of New York City, was diagnosed with polio virus. It was the first confirmed case of the virus in the United States since 2013.

New York state health officials have not announced any additional polio cases. Since as early as April, polio has also been detected in wastewater samples in New York City and in Rockland, Orange, and Sullivan counties. In August, the virus was detected in wastewater from Nassau County on Long Island.

New York’s statewide polio vaccination rate is 79%, and the New York State Department of Health is aiming for a rate over 90%, the announcement said. In some counties, vaccination rates are far below the state average, including Rockland County (60%), Orange County (59%), and Sullivan County (62%). Nassau County’s polio vaccination rate is similar to the state average.

“Polio immunization is safe and effective – protecting nearly all people against disease who receive the recommended doses,” Dr. Basset said; “Do not wait to vaccinate.”

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

New York Governor Kathy Hochul declared a state disaster emergency on Sept. 9 after the polio virus has been detected in another county. The order allows EMS workers, midwives, and pharmacists to administer the vaccine and permits physicians and nurse practitioners to issue standing orders for polio vaccines.

“On polio, we simply cannot roll the dice,” New York State Health Commissioner Dr. Mary T. Bassett said in a news release. “If you or your child are unvaccinated or not up to date with vaccinations, the risk of paralytic disease is real. I urge New Yorkers to not accept any risk at all.”

In July, an unvaccinated adult man in Rockland County, which is north of New York City, was diagnosed with polio virus. It was the first confirmed case of the virus in the United States since 2013.

New York state health officials have not announced any additional polio cases. Since as early as April, polio has also been detected in wastewater samples in New York City and in Rockland, Orange, and Sullivan counties. In August, the virus was detected in wastewater from Nassau County on Long Island.

New York’s statewide polio vaccination rate is 79%, and the New York State Department of Health is aiming for a rate over 90%, the announcement said. In some counties, vaccination rates are far below the state average, including Rockland County (60%), Orange County (59%), and Sullivan County (62%). Nassau County’s polio vaccination rate is similar to the state average.

“Polio immunization is safe and effective – protecting nearly all people against disease who receive the recommended doses,” Dr. Basset said; “Do not wait to vaccinate.”

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

New York Governor Kathy Hochul declared a state disaster emergency on Sept. 9 after the polio virus has been detected in another county. The order allows EMS workers, midwives, and pharmacists to administer the vaccine and permits physicians and nurse practitioners to issue standing orders for polio vaccines.

“On polio, we simply cannot roll the dice,” New York State Health Commissioner Dr. Mary T. Bassett said in a news release. “If you or your child are unvaccinated or not up to date with vaccinations, the risk of paralytic disease is real. I urge New Yorkers to not accept any risk at all.”

In July, an unvaccinated adult man in Rockland County, which is north of New York City, was diagnosed with polio virus. It was the first confirmed case of the virus in the United States since 2013.

New York state health officials have not announced any additional polio cases. Since as early as April, polio has also been detected in wastewater samples in New York City and in Rockland, Orange, and Sullivan counties. In August, the virus was detected in wastewater from Nassau County on Long Island.

New York’s statewide polio vaccination rate is 79%, and the New York State Department of Health is aiming for a rate over 90%, the announcement said. In some counties, vaccination rates are far below the state average, including Rockland County (60%), Orange County (59%), and Sullivan County (62%). Nassau County’s polio vaccination rate is similar to the state average.

“Polio immunization is safe and effective – protecting nearly all people against disease who receive the recommended doses,” Dr. Basset said; “Do not wait to vaccinate.”

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

Monkeypox cases in the United States continue to be rare in children younger than 15, women, and in individuals older than 60, according to new data released by the Centers for Disease Control and Prevention. Men aged 26-40 make up the highest proportion of cases.

The age distribution of cases is similar to those of sexually transmitted infections, said Monica Gandhi, MD, MPH, associate chief of the division of HIV, infectious diseases, and global medicine at the University of California, San Francisco. It is most common in younger to middle-aged age groups, and less common in children and older individuals. As of Aug. 21, only 17 children younger than 15 have been diagnosed with monkeypox in the United States, and women make up fewer than 1.5% of cases.

“This data should be very reassuring to parents and to children going to back to school,” Dr. Gandhi said in an interview. After 3 months of monitoring the virus, the data suggest that monkeypox is primarily spreading in networks of men who have sex with men (MSM) through sexual activity, “and that isn’t something we worry about with school-spread illness.”

In addition to the reassuring data about children and monkeypox, the CDC released laboratory testing data, a behavioral survey of MSM, patient data on the antiviral medication tecovirimat (TPOXX), and other case demographics and symptoms.

Though the number of positive monkeypox tests have continued to rise, the test-positivity rates have declined over the past month, data show. Since July 16, the positivity rate has dipped from 54% to 23%. This trend is likely because of an increase in testing availability, said Randolph Hubach, PhD, MPH, the director of the Sexual Health Research Lab at Purdue University, West Lafayette, Ind.

“We also saw this with COVID early on with testing: it was really limited to folks who were symptomatic,” he said in an interview . “As testing ramped up in accessibility, you had a lot more negative results, but because testing was more widely available, you were able to capture more positive results.”

The data also show that case numbers continue to grow in the United States, whereas in other countries that identified cases before the United States – Spain, the United Kingdom, and France, for example – cases have been leveling off, noted Dr. Gandhi.

The CDC also shared responses from a survey of gay, bisexual, and other MSM conducted from Aug. 5-15, about how they have changed their sexual behaviors in response to the monkeypox outbreak. Half of respondents reported reduced one-time sexual encounters, 49% reported reducing sex with partners met on dating apps or at sex venues, and 48% reported reducing their number of sex partners. These responses are “heartening to see,” Dr. Gandhi said, and shows that individuals are taking proactive steps to reduce their potential exposure risk to monkeypox.

More detailed demographic data showed that Black, Hispanic, or Latinx individuals make up an increasing proportion of cases in the United States. In May, 71% of people with reported monkeypox infection were White and 29% were Black. For the week of August 8-14, about a third (31%) of monkeypox cases were in White people, 32% were in Hispanic or Latinx people, and 33% were in Black people.

The most common symptoms of monkeypox were rash (98.6%), malaise (72.7%), fever (72.1%), and chills (68.9%). Rectal pain was reported in 43.9% of patients, and 25% had rectal bleeding.

The CDC also released information on 288 patients with monkeypox treated with TPOXX under compassionate use. The median age of patients was 37 and 98.9% were male. About 40% of recipients were White, 35% were Hispanic, and about 16% were Black. This information does not include every patient treated with TPOXX, the agency said, as providers can begin treatment before submitting paperwork. As of Aug. 18, the CDC had received 400 patient intake forms for TPOXX, according to its website.

The agency has yet to release data on vaccination rates, which Dr. Hubach is eager to see. Demographic information on who is receiving vaccinations, and where, can illuminate issues with access as vaccine eligibility continues to expand. “Vaccination is probably going to be the largest tool within our toolbox to try to inhibit disease acquisition and spread,” he said.

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

Monkeypox cases in the United States continue to be rare in children younger than 15, women, and in individuals older than 60, according to new data released by the Centers for Disease Control and Prevention. Men aged 26-40 make up the highest proportion of cases.

The age distribution of cases is similar to those of sexually transmitted infections, said Monica Gandhi, MD, MPH, associate chief of the division of HIV, infectious diseases, and global medicine at the University of California, San Francisco. It is most common in younger to middle-aged age groups, and less common in children and older individuals. As of Aug. 21, only 17 children younger than 15 have been diagnosed with monkeypox in the United States, and women make up fewer than 1.5% of cases.

“This data should be very reassuring to parents and to children going to back to school,” Dr. Gandhi said in an interview. After 3 months of monitoring the virus, the data suggest that monkeypox is primarily spreading in networks of men who have sex with men (MSM) through sexual activity, “and that isn’t something we worry about with school-spread illness.”

In addition to the reassuring data about children and monkeypox, the CDC released laboratory testing data, a behavioral survey of MSM, patient data on the antiviral medication tecovirimat (TPOXX), and other case demographics and symptoms.

Though the number of positive monkeypox tests have continued to rise, the test-positivity rates have declined over the past month, data show. Since July 16, the positivity rate has dipped from 54% to 23%. This trend is likely because of an increase in testing availability, said Randolph Hubach, PhD, MPH, the director of the Sexual Health Research Lab at Purdue University, West Lafayette, Ind.

“We also saw this with COVID early on with testing: it was really limited to folks who were symptomatic,” he said in an interview . “As testing ramped up in accessibility, you had a lot more negative results, but because testing was more widely available, you were able to capture more positive results.”

The data also show that case numbers continue to grow in the United States, whereas in other countries that identified cases before the United States – Spain, the United Kingdom, and France, for example – cases have been leveling off, noted Dr. Gandhi.

The CDC also shared responses from a survey of gay, bisexual, and other MSM conducted from Aug. 5-15, about how they have changed their sexual behaviors in response to the monkeypox outbreak. Half of respondents reported reduced one-time sexual encounters, 49% reported reducing sex with partners met on dating apps or at sex venues, and 48% reported reducing their number of sex partners. These responses are “heartening to see,” Dr. Gandhi said, and shows that individuals are taking proactive steps to reduce their potential exposure risk to monkeypox.

More detailed demographic data showed that Black, Hispanic, or Latinx individuals make up an increasing proportion of cases in the United States. In May, 71% of people with reported monkeypox infection were White and 29% were Black. For the week of August 8-14, about a third (31%) of monkeypox cases were in White people, 32% were in Hispanic or Latinx people, and 33% were in Black people.

The most common symptoms of monkeypox were rash (98.6%), malaise (72.7%), fever (72.1%), and chills (68.9%). Rectal pain was reported in 43.9% of patients, and 25% had rectal bleeding.

The CDC also released information on 288 patients with monkeypox treated with TPOXX under compassionate use. The median age of patients was 37 and 98.9% were male. About 40% of recipients were White, 35% were Hispanic, and about 16% were Black. This information does not include every patient treated with TPOXX, the agency said, as providers can begin treatment before submitting paperwork. As of Aug. 18, the CDC had received 400 patient intake forms for TPOXX, according to its website.

The agency has yet to release data on vaccination rates, which Dr. Hubach is eager to see. Demographic information on who is receiving vaccinations, and where, can illuminate issues with access as vaccine eligibility continues to expand. “Vaccination is probably going to be the largest tool within our toolbox to try to inhibit disease acquisition and spread,” he said.

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

Monkeypox cases in the United States continue to be rare in children younger than 15, women, and in individuals older than 60, according to new data released by the Centers for Disease Control and Prevention. Men aged 26-40 make up the highest proportion of cases.

The age distribution of cases is similar to those of sexually transmitted infections, said Monica Gandhi, MD, MPH, associate chief of the division of HIV, infectious diseases, and global medicine at the University of California, San Francisco. It is most common in younger to middle-aged age groups, and less common in children and older individuals. As of Aug. 21, only 17 children younger than 15 have been diagnosed with monkeypox in the United States, and women make up fewer than 1.5% of cases.

“This data should be very reassuring to parents and to children going to back to school,” Dr. Gandhi said in an interview. After 3 months of monitoring the virus, the data suggest that monkeypox is primarily spreading in networks of men who have sex with men (MSM) through sexual activity, “and that isn’t something we worry about with school-spread illness.”

In addition to the reassuring data about children and monkeypox, the CDC released laboratory testing data, a behavioral survey of MSM, patient data on the antiviral medication tecovirimat (TPOXX), and other case demographics and symptoms.

Though the number of positive monkeypox tests have continued to rise, the test-positivity rates have declined over the past month, data show. Since July 16, the positivity rate has dipped from 54% to 23%. This trend is likely because of an increase in testing availability, said Randolph Hubach, PhD, MPH, the director of the Sexual Health Research Lab at Purdue University, West Lafayette, Ind.

“We also saw this with COVID early on with testing: it was really limited to folks who were symptomatic,” he said in an interview . “As testing ramped up in accessibility, you had a lot more negative results, but because testing was more widely available, you were able to capture more positive results.”

The data also show that case numbers continue to grow in the United States, whereas in other countries that identified cases before the United States – Spain, the United Kingdom, and France, for example – cases have been leveling off, noted Dr. Gandhi.

The CDC also shared responses from a survey of gay, bisexual, and other MSM conducted from Aug. 5-15, about how they have changed their sexual behaviors in response to the monkeypox outbreak. Half of respondents reported reduced one-time sexual encounters, 49% reported reducing sex with partners met on dating apps or at sex venues, and 48% reported reducing their number of sex partners. These responses are “heartening to see,” Dr. Gandhi said, and shows that individuals are taking proactive steps to reduce their potential exposure risk to monkeypox.

More detailed demographic data showed that Black, Hispanic, or Latinx individuals make up an increasing proportion of cases in the United States. In May, 71% of people with reported monkeypox infection were White and 29% were Black. For the week of August 8-14, about a third (31%) of monkeypox cases were in White people, 32% were in Hispanic or Latinx people, and 33% were in Black people.

The most common symptoms of monkeypox were rash (98.6%), malaise (72.7%), fever (72.1%), and chills (68.9%). Rectal pain was reported in 43.9% of patients, and 25% had rectal bleeding.

The CDC also released information on 288 patients with monkeypox treated with TPOXX under compassionate use. The median age of patients was 37 and 98.9% were male. About 40% of recipients were White, 35% were Hispanic, and about 16% were Black. This information does not include every patient treated with TPOXX, the agency said, as providers can begin treatment before submitting paperwork. As of Aug. 18, the CDC had received 400 patient intake forms for TPOXX, according to its website.

The agency has yet to release data on vaccination rates, which Dr. Hubach is eager to see. Demographic information on who is receiving vaccinations, and where, can illuminate issues with access as vaccine eligibility continues to expand. “Vaccination is probably going to be the largest tool within our toolbox to try to inhibit disease acquisition and spread,” he said.

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

Fewer than 1 in 3 people infected with hepatitis C virus (HCV) begin receiving treatment within a year of their diagnosis, according to a new report by the Centers for Disease Control and Prevention.

Although HCV infection can be cured in more than 95% of patients with safe, oral medication, many barriers prevent people from receiving the care they need, experts say. These include insurance restrictions and the need for specialist visits.

“If we are going to make an impact against hepatitis C, we need to connect more people to treatments and reduce disparities of access to diagnosis and treatment,” said Carolyn Wester, MD, MPH, director of the CDC’s Division of Viral Hepatitis, during an Aug. 9 press call. “People shouldn’t have to jump over hurdles to access lifesaving treatments.”

The CDC report was published  in Vital Signs.

An estimated 2.2 million Americans are living with HCV infection. The most recent data indicate that new infections increased more than threefold from 2011 to 2019. HCV transmission usually occurs through contact with the blood of an infected person. Today, most people become infected with the virus by sharing needles, syringes, and other equipment used to inject drugs, according to the CDC.

The researchers used a nationwide administrative claims database to identify more than 47,600 adults diagnosed with HCV infection from Jan. 30, 2019 through Oct. 31, 2020. Most patients (79%) were Medicaid recipients, 7% were Medicare patients, and 14% had private insurance. CDC researchers found that just 23% of Medicaid recipients, 28% of Medicare patients, and 35% of patients with private insurance began receiving direct-acting antiviral agents (DAAs) within 360 days of receiving a positive HCV test result. Of those who did receive treatment, most (from 75% to 84%) began receiving treatment within 180 days of their diagnosis.

Among people on Medicaid plans, patients who lived in states with treatment restrictions were 23% less likely to receive timely treatment (adjusted odds ratio, 0.77; 95% confidence interval, 0.74-0.81), compared with those living in states with no restrictions. Medicaid patients who were Black or of another race other than White were also less likely than White patients to be treated for HCV within the same year as their diagnosis. The lowest rates of treatment were among adults younger than 40 years, regardless of insurance type. This age group had the highest rates of new infections.

Actual treatment percentages may be even smaller than the number captured in this study, because the study included patients with continuous insurance coverage, Dr. Wester said, “so in many ways, [these] are the individuals who are set up to have the best access to care and treatment.”

Dr. Wester mentioned several steps that could improve access to DAAs for patients with HCV infection:

• Provide treatment outside of specialist offices, such as primary care and community clinics, substance use treatment centers, and syringe services programs.
• Increase the number of primary care providers offering hepatitis C treatment.
• Provide treatment in as few visits as possible.
• Eliminate restrictions by insurance providers on treatment.

A ‘health injustice’

While DAA treatments are effective, they are also expensive. Generic medications cost around $24,000 for a 12-week course, and some brand-name drugs are estimated to cost more than three times that amount. Many insurance companies, therefore, have treatment restrictions in place, including the following:

• There must be evidence of liver fibrosis for a patient to be treated.
• The doctor prescribing treatment must be a liver specialist or an infectious disease specialist.
• The patient must meet sobriety requirements.
• Treatment requires preauthorization approval from insurance carriers.

These criteria prevent patients from getting the care that they need, said Jonathan Mermin, MD, MPH, director of the CDC’s National Center for HIV, Viral Hepatitis, STD, and TB Prevention, during the press call. “Restricting access to hepatitis C treatment turns an infectious disease into a health injustice,” he added.

Oluwaseun Falade-Nwulia, MBBS, MPH, an infectious disease specialist and assistant professor of medicine at the Johns Hopkins University School of Medicine, Baltimore, emphasized the importance of removing barriers to HCV treatment and expanding HCV care out of specialist offices. She noted that treatment for HCV infection should begin immediately after a patient’s diagnosis. Previously, guidelines recommended waiting 6 months from the time a patient was diagnosed with HCV to begin treatment to see whether the patient’s body could clear the infection on its own. Now, guidelines recommend that after a diagnosis of acute HCV, “HCV treatment should be initiated without awaiting spontaneous resolution.” But some insurance companies still ask for evidence that a patient has been infected for at least 6 months before approving therapy, Dr. Falade-Nwulia noted.

“We have a system that has so many structural barriers for patients who we know already have so many social determinants of health working against them to access any health care,” she said. “I think it’s doubly devastating that patients that can actually get to a provider and get a prescription may still not have access to [the medication] because of structural barriers, such as restrictions based on a need to prove chronicity.”

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

Fewer than 1 in 3 people infected with hepatitis C virus (HCV) begin receiving treatment within a year of their diagnosis, according to a new report by the Centers for Disease Control and Prevention.

Although HCV infection can be cured in more than 95% of patients with safe, oral medication, many barriers prevent people from receiving the care they need, experts say. These include insurance restrictions and the need for specialist visits.

“If we are going to make an impact against hepatitis C, we need to connect more people to treatments and reduce disparities of access to diagnosis and treatment,” said Carolyn Wester, MD, MPH, director of the CDC’s Division of Viral Hepatitis, during an Aug. 9 press call. “People shouldn’t have to jump over hurdles to access lifesaving treatments.”

The CDC report was published  in Vital Signs.

An estimated 2.2 million Americans are living with HCV infection. The most recent data indicate that new infections increased more than threefold from 2011 to 2019. HCV transmission usually occurs through contact with the blood of an infected person. Today, most people become infected with the virus by sharing needles, syringes, and other equipment used to inject drugs, according to the CDC.

The researchers used a nationwide administrative claims database to identify more than 47,600 adults diagnosed with HCV infection from Jan. 30, 2019 through Oct. 31, 2020. Most patients (79%) were Medicaid recipients, 7% were Medicare patients, and 14% had private insurance. CDC researchers found that just 23% of Medicaid recipients, 28% of Medicare patients, and 35% of patients with private insurance began receiving direct-acting antiviral agents (DAAs) within 360 days of receiving a positive HCV test result. Of those who did receive treatment, most (from 75% to 84%) began receiving treatment within 180 days of their diagnosis.

Among people on Medicaid plans, patients who lived in states with treatment restrictions were 23% less likely to receive timely treatment (adjusted odds ratio, 0.77; 95% confidence interval, 0.74-0.81), compared with those living in states with no restrictions. Medicaid patients who were Black or of another race other than White were also less likely than White patients to be treated for HCV within the same year as their diagnosis. The lowest rates of treatment were among adults younger than 40 years, regardless of insurance type. This age group had the highest rates of new infections.

Actual treatment percentages may be even smaller than the number captured in this study, because the study included patients with continuous insurance coverage, Dr. Wester said, “so in many ways, [these] are the individuals who are set up to have the best access to care and treatment.”

Dr. Wester mentioned several steps that could improve access to DAAs for patients with HCV infection:

• Provide treatment outside of specialist offices, such as primary care and community clinics, substance use treatment centers, and syringe services programs.
• Increase the number of primary care providers offering hepatitis C treatment.
• Provide treatment in as few visits as possible.
• Eliminate restrictions by insurance providers on treatment.

A ‘health injustice’

While DAA treatments are effective, they are also expensive. Generic medications cost around $24,000 for a 12-week course, and some brand-name drugs are estimated to cost more than three times that amount. Many insurance companies, therefore, have treatment restrictions in place, including the following:

• There must be evidence of liver fibrosis for a patient to be treated.
• The doctor prescribing treatment must be a liver specialist or an infectious disease specialist.
• The patient must meet sobriety requirements.
• Treatment requires preauthorization approval from insurance carriers.

These criteria prevent patients from getting the care that they need, said Jonathan Mermin, MD, MPH, director of the CDC’s National Center for HIV, Viral Hepatitis, STD, and TB Prevention, during the press call. “Restricting access to hepatitis C treatment turns an infectious disease into a health injustice,” he added.

Oluwaseun Falade-Nwulia, MBBS, MPH, an infectious disease specialist and assistant professor of medicine at the Johns Hopkins University School of Medicine, Baltimore, emphasized the importance of removing barriers to HCV treatment and expanding HCV care out of specialist offices. She noted that treatment for HCV infection should begin immediately after a patient’s diagnosis. Previously, guidelines recommended waiting 6 months from the time a patient was diagnosed with HCV to begin treatment to see whether the patient’s body could clear the infection on its own. Now, guidelines recommend that after a diagnosis of acute HCV, “HCV treatment should be initiated without awaiting spontaneous resolution.” But some insurance companies still ask for evidence that a patient has been infected for at least 6 months before approving therapy, Dr. Falade-Nwulia noted.

“We have a system that has so many structural barriers for patients who we know already have so many social determinants of health working against them to access any health care,” she said. “I think it’s doubly devastating that patients that can actually get to a provider and get a prescription may still not have access to [the medication] because of structural barriers, such as restrictions based on a need to prove chronicity.”

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

Fewer than 1 in 3 people infected with hepatitis C virus (HCV) begin receiving treatment within a year of their diagnosis, according to a new report by the Centers for Disease Control and Prevention.

Although HCV infection can be cured in more than 95% of patients with safe, oral medication, many barriers prevent people from receiving the care they need, experts say. These include insurance restrictions and the need for specialist visits.

“If we are going to make an impact against hepatitis C, we need to connect more people to treatments and reduce disparities of access to diagnosis and treatment,” said Carolyn Wester, MD, MPH, director of the CDC’s Division of Viral Hepatitis, during an Aug. 9 press call. “People shouldn’t have to jump over hurdles to access lifesaving treatments.”

The CDC report was published  in Vital Signs.

An estimated 2.2 million Americans are living with HCV infection. The most recent data indicate that new infections increased more than threefold from 2011 to 2019. HCV transmission usually occurs through contact with the blood of an infected person. Today, most people become infected with the virus by sharing needles, syringes, and other equipment used to inject drugs, according to the CDC.

The researchers used a nationwide administrative claims database to identify more than 47,600 adults diagnosed with HCV infection from Jan. 30, 2019 through Oct. 31, 2020. Most patients (79%) were Medicaid recipients, 7% were Medicare patients, and 14% had private insurance. CDC researchers found that just 23% of Medicaid recipients, 28% of Medicare patients, and 35% of patients with private insurance began receiving direct-acting antiviral agents (DAAs) within 360 days of receiving a positive HCV test result. Of those who did receive treatment, most (from 75% to 84%) began receiving treatment within 180 days of their diagnosis.

Among people on Medicaid plans, patients who lived in states with treatment restrictions were 23% less likely to receive timely treatment (adjusted odds ratio, 0.77; 95% confidence interval, 0.74-0.81), compared with those living in states with no restrictions. Medicaid patients who were Black or of another race other than White were also less likely than White patients to be treated for HCV within the same year as their diagnosis. The lowest rates of treatment were among adults younger than 40 years, regardless of insurance type. This age group had the highest rates of new infections.

Actual treatment percentages may be even smaller than the number captured in this study, because the study included patients with continuous insurance coverage, Dr. Wester said, “so in many ways, [these] are the individuals who are set up to have the best access to care and treatment.”

Dr. Wester mentioned several steps that could improve access to DAAs for patients with HCV infection:

• Provide treatment outside of specialist offices, such as primary care and community clinics, substance use treatment centers, and syringe services programs.
• Increase the number of primary care providers offering hepatitis C treatment.
• Provide treatment in as few visits as possible.
• Eliminate restrictions by insurance providers on treatment.

A ‘health injustice’

While DAA treatments are effective, they are also expensive. Generic medications cost around $24,000 for a 12-week course, and some brand-name drugs are estimated to cost more than three times that amount. Many insurance companies, therefore, have treatment restrictions in place, including the following:

• There must be evidence of liver fibrosis for a patient to be treated.
• The doctor prescribing treatment must be a liver specialist or an infectious disease specialist.
• The patient must meet sobriety requirements.
• Treatment requires preauthorization approval from insurance carriers.

These criteria prevent patients from getting the care that they need, said Jonathan Mermin, MD, MPH, director of the CDC’s National Center for HIV, Viral Hepatitis, STD, and TB Prevention, during the press call. “Restricting access to hepatitis C treatment turns an infectious disease into a health injustice,” he added.

Oluwaseun Falade-Nwulia, MBBS, MPH, an infectious disease specialist and assistant professor of medicine at the Johns Hopkins University School of Medicine, Baltimore, emphasized the importance of removing barriers to HCV treatment and expanding HCV care out of specialist offices. She noted that treatment for HCV infection should begin immediately after a patient’s diagnosis. Previously, guidelines recommended waiting 6 months from the time a patient was diagnosed with HCV to begin treatment to see whether the patient’s body could clear the infection on its own. Now, guidelines recommend that after a diagnosis of acute HCV, “HCV treatment should be initiated without awaiting spontaneous resolution.” But some insurance companies still ask for evidence that a patient has been infected for at least 6 months before approving therapy, Dr. Falade-Nwulia noted.

“We have a system that has so many structural barriers for patients who we know already have so many social determinants of health working against them to access any health care,” she said. “I think it’s doubly devastating that patients that can actually get to a provider and get a prescription may still not have access to [the medication] because of structural barriers, such as restrictions based on a need to prove chronicity.”

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.

Single ulcers, anal lesions, and mouth sores are all unique symptoms of the current monkeypox outbreak, according to the largest international monkeypox case series to date. These findings underscore the need to broaden case definitions for the disease, researchers say.

“While we expected various skin problems and rashes, we also found that 1 in 10 people had only a single skin lesion in the genital area, and 15% had anal and/or rectal pain,” John Thornhill, MD, PhD, the lead author of the research, said in a press release. Dr. Thornhill is a consultant physician in sexual health and HIV and a clinical senior lecturer at Barts NHS Health Trust and Queen Mary University of London. “These different presentations highlight that monkeypox infections could be missed or easily confused with common sexually transmitted infections such as syphilis or herpes,” he said.

Since April 2022, more than 15,000 cases of monkeypox have been reported in 66 countries where the virus was previously not known to be present. The virus, a less severe cousin of smallpox, is endemic to areas of central and west Africa. In the current outbreak, infections have overwhelmingly been found in men who have sex with men.

In a study published in the New England Journal of Medicine, researchers reported clinical details and outcomes of 528 monkeypox infections across 16 countries. All the cases were diagnosed between April 27 and June 24, 2022. Ninety-five percent of the cases were suspected to have been transmitted through sexual activity, 98% of patients identified as gay or bisexual men, and 75% of the patients were White. The median age of patients in this case series was 38 years, and 90% of infections occurred in Europe. Forty-one percent of patients were HIV-positive, and 96% of these individuals were receiving antiretroviral therapy. Among patients whose HIV status was negative or unknown, 57% reported using preexposure prophylaxis against HIV. About 3 in 10 (29%) individuals tested positive for concurrent sexually transmitted infections.

Nearly three out of four patients (73%) had anogenital lesions, and 41% had mucosal lesions. Fifty-four patients had one genital lesion, and 64% had fewer than 10 lesions in total. Fever (62%), swollen lymph nodes (56%), lethargy (41%), and myalgia (31%) were commonly reported symptoms prior to the development of the rash. Seventy patients (13%) required hospitalization, most commonly for severe anorectal pain and soft-tissue superinfection. Just 5% of patients received monkeypox-specific treatment: intravenous or topical cidofovir (2%), tecovirimat (2%), and vaccinia immune globulin (<1%).

The study “importantly reinforces our current understanding that the overwhelming majority of cases have been sexually associated, predominantly in men who have sex with men,” Jeffrey Klausner, MD, PhD, an infectious disease specialist at the University of Southern California, Los Angeles, said in an interview with this news organization. He was not involved with the research. “Anyone can get monkeypox, but it is most effectively spread through what we call dense networks – where there is a frequent, close personal contact,” he said. “It just happens that gay men and other men who have sex with men have some of those networks.”

The fact that most lesions are present in the genital and anal region – which is unique to this outbreak – points to transmission of the infection during intimate contact, he noted. Still, there is not enough evidence to suggest that monkeypox is spread through sexual transmission. While most semen samples in the study tested positive for monkeypox viral DNA, it is not known whether there is enough virus present to cause transmission, Dr. Thornhill said. He noted that more research is needed.

Dr. Klausner also emphasized the importance of developing new tests to diagnose monkeypox earlier to prevent spread. The lab test for monkeypox requires a swab from a lesion, but this study showed that most patients had notable symptoms prior to developing the standard rash or lesions, he said. Reliable tests using saliva or throat swabs could help detect infections faster, he noted. Patients are thought to be most contagious when they develop lesions, Dr. Klausner said, so diagnosing patients before this stage would allow them to be isolated sooner.

The California-based lab company Flow Health announced a saliva-based PCR test for monkeypox on July 9, although the Food and Drug Administration cautioned that test results from other sample types beside lesion swabs may be inaccurate. “The FDA is not aware of clinical data supporting the use of other sample types, such as blood or saliva, for monkeypox virus testing,” the agency said in a statement on July 15. “Testing samples not taken from a lesion may lead to false test results.”

Dr. Klausner reports no relevant financial relationships.

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

Single ulcers, anal lesions, and mouth sores are all unique symptoms of the current monkeypox outbreak, according to the largest international monkeypox case series to date. These findings underscore the need to broaden case definitions for the disease, researchers say.

“While we expected various skin problems and rashes, we also found that 1 in 10 people had only a single skin lesion in the genital area, and 15% had anal and/or rectal pain,” John Thornhill, MD, PhD, the lead author of the research, said in a press release. Dr. Thornhill is a consultant physician in sexual health and HIV and a clinical senior lecturer at Barts NHS Health Trust and Queen Mary University of London. “These different presentations highlight that monkeypox infections could be missed or easily confused with common sexually transmitted infections such as syphilis or herpes,” he said.

Since April 2022, more than 15,000 cases of monkeypox have been reported in 66 countries where the virus was previously not known to be present. The virus, a less severe cousin of smallpox, is endemic to areas of central and west Africa. In the current outbreak, infections have overwhelmingly been found in men who have sex with men.

In a study published in the New England Journal of Medicine, researchers reported clinical details and outcomes of 528 monkeypox infections across 16 countries. All the cases were diagnosed between April 27 and June 24, 2022. Ninety-five percent of the cases were suspected to have been transmitted through sexual activity, 98% of patients identified as gay or bisexual men, and 75% of the patients were White. The median age of patients in this case series was 38 years, and 90% of infections occurred in Europe. Forty-one percent of patients were HIV-positive, and 96% of these individuals were receiving antiretroviral therapy. Among patients whose HIV status was negative or unknown, 57% reported using preexposure prophylaxis against HIV. About 3 in 10 (29%) individuals tested positive for concurrent sexually transmitted infections.

Nearly three out of four patients (73%) had anogenital lesions, and 41% had mucosal lesions. Fifty-four patients had one genital lesion, and 64% had fewer than 10 lesions in total. Fever (62%), swollen lymph nodes (56%), lethargy (41%), and myalgia (31%) were commonly reported symptoms prior to the development of the rash. Seventy patients (13%) required hospitalization, most commonly for severe anorectal pain and soft-tissue superinfection. Just 5% of patients received monkeypox-specific treatment: intravenous or topical cidofovir (2%), tecovirimat (2%), and vaccinia immune globulin (<1%).

The study “importantly reinforces our current understanding that the overwhelming majority of cases have been sexually associated, predominantly in men who have sex with men,” Jeffrey Klausner, MD, PhD, an infectious disease specialist at the University of Southern California, Los Angeles, said in an interview with this news organization. He was not involved with the research. “Anyone can get monkeypox, but it is most effectively spread through what we call dense networks – where there is a frequent, close personal contact,” he said. “It just happens that gay men and other men who have sex with men have some of those networks.”

The fact that most lesions are present in the genital and anal region – which is unique to this outbreak – points to transmission of the infection during intimate contact, he noted. Still, there is not enough evidence to suggest that monkeypox is spread through sexual transmission. While most semen samples in the study tested positive for monkeypox viral DNA, it is not known whether there is enough virus present to cause transmission, Dr. Thornhill said. He noted that more research is needed.

Dr. Klausner also emphasized the importance of developing new tests to diagnose monkeypox earlier to prevent spread. The lab test for monkeypox requires a swab from a lesion, but this study showed that most patients had notable symptoms prior to developing the standard rash or lesions, he said. Reliable tests using saliva or throat swabs could help detect infections faster, he noted. Patients are thought to be most contagious when they develop lesions, Dr. Klausner said, so diagnosing patients before this stage would allow them to be isolated sooner.

The California-based lab company Flow Health announced a saliva-based PCR test for monkeypox on July 9, although the Food and Drug Administration cautioned that test results from other sample types beside lesion swabs may be inaccurate. “The FDA is not aware of clinical data supporting the use of other sample types, such as blood or saliva, for monkeypox virus testing,” the agency said in a statement on July 15. “Testing samples not taken from a lesion may lead to false test results.”

Dr. Klausner reports no relevant financial relationships.

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

Single ulcers, anal lesions, and mouth sores are all unique symptoms of the current monkeypox outbreak, according to the largest international monkeypox case series to date. These findings underscore the need to broaden case definitions for the disease, researchers say.

“While we expected various skin problems and rashes, we also found that 1 in 10 people had only a single skin lesion in the genital area, and 15% had anal and/or rectal pain,” John Thornhill, MD, PhD, the lead author of the research, said in a press release. Dr. Thornhill is a consultant physician in sexual health and HIV and a clinical senior lecturer at Barts NHS Health Trust and Queen Mary University of London. “These different presentations highlight that monkeypox infections could be missed or easily confused with common sexually transmitted infections such as syphilis or herpes,” he said.

Since April 2022, more than 15,000 cases of monkeypox have been reported in 66 countries where the virus was previously not known to be present. The virus, a less severe cousin of smallpox, is endemic to areas of central and west Africa. In the current outbreak, infections have overwhelmingly been found in men who have sex with men.

In a study published in the New England Journal of Medicine, researchers reported clinical details and outcomes of 528 monkeypox infections across 16 countries. All the cases were diagnosed between April 27 and June 24, 2022. Ninety-five percent of the cases were suspected to have been transmitted through sexual activity, 98% of patients identified as gay or bisexual men, and 75% of the patients were White. The median age of patients in this case series was 38 years, and 90% of infections occurred in Europe. Forty-one percent of patients were HIV-positive, and 96% of these individuals were receiving antiretroviral therapy. Among patients whose HIV status was negative or unknown, 57% reported using preexposure prophylaxis against HIV. About 3 in 10 (29%) individuals tested positive for concurrent sexually transmitted infections.

Nearly three out of four patients (73%) had anogenital lesions, and 41% had mucosal lesions. Fifty-four patients had one genital lesion, and 64% had fewer than 10 lesions in total. Fever (62%), swollen lymph nodes (56%), lethargy (41%), and myalgia (31%) were commonly reported symptoms prior to the development of the rash. Seventy patients (13%) required hospitalization, most commonly for severe anorectal pain and soft-tissue superinfection. Just 5% of patients received monkeypox-specific treatment: intravenous or topical cidofovir (2%), tecovirimat (2%), and vaccinia immune globulin (<1%).

The study “importantly reinforces our current understanding that the overwhelming majority of cases have been sexually associated, predominantly in men who have sex with men,” Jeffrey Klausner, MD, PhD, an infectious disease specialist at the University of Southern California, Los Angeles, said in an interview with this news organization. He was not involved with the research. “Anyone can get monkeypox, but it is most effectively spread through what we call dense networks – where there is a frequent, close personal contact,” he said. “It just happens that gay men and other men who have sex with men have some of those networks.”

The fact that most lesions are present in the genital and anal region – which is unique to this outbreak – points to transmission of the infection during intimate contact, he noted. Still, there is not enough evidence to suggest that monkeypox is spread through sexual transmission. While most semen samples in the study tested positive for monkeypox viral DNA, it is not known whether there is enough virus present to cause transmission, Dr. Thornhill said. He noted that more research is needed.

Dr. Klausner also emphasized the importance of developing new tests to diagnose monkeypox earlier to prevent spread. The lab test for monkeypox requires a swab from a lesion, but this study showed that most patients had notable symptoms prior to developing the standard rash or lesions, he said. Reliable tests using saliva or throat swabs could help detect infections faster, he noted. Patients are thought to be most contagious when they develop lesions, Dr. Klausner said, so diagnosing patients before this stage would allow them to be isolated sooner.

The California-based lab company Flow Health announced a saliva-based PCR test for monkeypox on July 9, although the Food and Drug Administration cautioned that test results from other sample types beside lesion swabs may be inaccurate. “The FDA is not aware of clinical data supporting the use of other sample types, such as blood or saliva, for monkeypox virus testing,” the agency said in a statement on July 15. “Testing samples not taken from a lesion may lead to false test results.”

Dr. Klausner reports no relevant financial relationships.

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

While two new studies reiterate a possible relationship between adenovirus 41 and acute hepatitis of unknown cause in children, whether these infections are significant or merely bystanders remains unclear.

In both studies – one conducted in Alabama and the other conducted in the United Kingdom – researchers found that 90% of children with acute hepatitis of unknown cause tested positive for adenovirus 41. The virus subtype is not an uncommon infection, but it usually causes gastroenteritis in children.

“Across the world, adenovirus continues to be a common signal” in these pediatric hepatitis cases, said Helena Gutierrez, MD, the medical director of the Pediatric Liver Transplant Program at the University of Alabama at Birmingham, in an interview. She led one of the studies. More data are necessary to understand what role this virus may play in these cases, she said.

In November, the Alabama Department of Public Health and the U.S. Centers for Disease Control and Prevention began investigating a cluster of severe pediatric hepatitis cases at the Children’s of Alabama hospital in Birmingham. These children also tested positive for adenovirus. In April, the United Kingdom announced they were investigating similar cases, and the CDC expanded their search nationally. As of July 8, 1,010 cases in 35 countries have been reported to the World Health Organization. There are 263 confirmed cases in the United Kingdom and 332 cases under investigation by the CDC in the United States, according to the most recent counts.

The two studies, both published in the New England Journal of Medicine, provide additional clinical data on a number of these mysterious hepatitis cases. Dr. Gutierrez’s study looked at nine children admitted for hepatitis of unknown origin between October 1 and February 28. Patients had a median age of 2 years 11 months and two required liver transplants, and there were no deaths.

Eight out of nine patients (89%) tested positive for adenovirus, and all five of the samples that were of sufficient quality for gene sequencing tested positive for adenovirus 41. None of the six liver biopsies performed found signs of adenovirus infection, but the liver tissue samples of three patients tested positive for adenovirus via PCR.

The second study involved 44 children referred to a liver transplantation center in the United Kingdom between January 1 and April 11, 2022. The median age for patients was 4 years. Six children required liver transplants, and there were no deaths. Of the 30 patients who underwent molecular adenovirus testing, 27 (90%) were positive for adenovirus 41. Liver samples of nine children (3 from biopsies and 6 from explanted livers) all tested negative for adenovirus antibodies.

In both studies, however, the median adenovirus viral load of patients needing a transplant was much higher than the viral loads in children who did not require liver transplants.

Although most of the clinical features and test results of these cases suggest that adenovirus may be involved, the negative results in histology are “intriguing,” Chayarani Kelgeri, MD, a consultant pediatric hepatologist at the Birmingham Women’s and Children’s Hospital, U.K., said in an email. She is the lead author of the U.K. study. “Whether this is because the liver injury we see is an aftermath of the viral infection, the mechanism of injury is immune mediated, and if other cofactors are involved is being explored,” she added. “Further investigations being undertaken by UK Health Security Agency will add to our understanding of this illness.”

Although there is a high adenovirus positivity rate amongst these cases, there is not enough evidence yet to say adenovirus 41 is a new cause of pediatric hepatitis in previously healthy children, said Saul Karpen, MD, PhD, the division chief of pediatric gastroenterology, hepatology, and nutrition at Emory University School of Medicine, Atlanta. He wrote an editorial accompanying the two NEJM studies.

The CDC has not yet found an increase in pediatric hepatitis cases, according to a recent analysis, though the United Kingdom has found an uptick in cases this year, he told this news organization. Also, the cases highlighted in both articles showed no histological evidence of adenovirus in liver biopsies. “That’s completely opposite of what we generally see in adenoviral hepatitis that can be quite severe,” he said, adding that in general, there are detectable viral particles and antigens in affected livers.

“These two important reports indicate to those inside and outside the field of pediatric hepatology that registries and clinical studies of acute hepatitis in children are sorely needed,” Dr. Karpen writes in the editorial; “It is likely that with greater attention to collecting data on cases and biospecimens from children with acute hepatitis, we will be able to determine whether this one virus, human adenovirus 41, is of relevance to this important and serious condition in children.”

Dr. Gutierrez, Dr. Kelgeri, and Dr. Karpen report no relevant financial relationships.

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

While two new studies reiterate a possible relationship between adenovirus 41 and acute hepatitis of unknown cause in children, whether these infections are significant or merely bystanders remains unclear.

In both studies – one conducted in Alabama and the other conducted in the United Kingdom – researchers found that 90% of children with acute hepatitis of unknown cause tested positive for adenovirus 41. The virus subtype is not an uncommon infection, but it usually causes gastroenteritis in children.

“Across the world, adenovirus continues to be a common signal” in these pediatric hepatitis cases, said Helena Gutierrez, MD, the medical director of the Pediatric Liver Transplant Program at the University of Alabama at Birmingham, in an interview. She led one of the studies. More data are necessary to understand what role this virus may play in these cases, she said.

In November, the Alabama Department of Public Health and the U.S. Centers for Disease Control and Prevention began investigating a cluster of severe pediatric hepatitis cases at the Children’s of Alabama hospital in Birmingham. These children also tested positive for adenovirus. In April, the United Kingdom announced they were investigating similar cases, and the CDC expanded their search nationally. As of July 8, 1,010 cases in 35 countries have been reported to the World Health Organization. There are 263 confirmed cases in the United Kingdom and 332 cases under investigation by the CDC in the United States, according to the most recent counts.

The two studies, both published in the New England Journal of Medicine, provide additional clinical data on a number of these mysterious hepatitis cases. Dr. Gutierrez’s study looked at nine children admitted for hepatitis of unknown origin between October 1 and February 28. Patients had a median age of 2 years 11 months and two required liver transplants, and there were no deaths.

Eight out of nine patients (89%) tested positive for adenovirus, and all five of the samples that were of sufficient quality for gene sequencing tested positive for adenovirus 41. None of the six liver biopsies performed found signs of adenovirus infection, but the liver tissue samples of three patients tested positive for adenovirus via PCR.

The second study involved 44 children referred to a liver transplantation center in the United Kingdom between January 1 and April 11, 2022. The median age for patients was 4 years. Six children required liver transplants, and there were no deaths. Of the 30 patients who underwent molecular adenovirus testing, 27 (90%) were positive for adenovirus 41. Liver samples of nine children (3 from biopsies and 6 from explanted livers) all tested negative for adenovirus antibodies.

In both studies, however, the median adenovirus viral load of patients needing a transplant was much higher than the viral loads in children who did not require liver transplants.

Although most of the clinical features and test results of these cases suggest that adenovirus may be involved, the negative results in histology are “intriguing,” Chayarani Kelgeri, MD, a consultant pediatric hepatologist at the Birmingham Women’s and Children’s Hospital, U.K., said in an email. She is the lead author of the U.K. study. “Whether this is because the liver injury we see is an aftermath of the viral infection, the mechanism of injury is immune mediated, and if other cofactors are involved is being explored,” she added. “Further investigations being undertaken by UK Health Security Agency will add to our understanding of this illness.”

Although there is a high adenovirus positivity rate amongst these cases, there is not enough evidence yet to say adenovirus 41 is a new cause of pediatric hepatitis in previously healthy children, said Saul Karpen, MD, PhD, the division chief of pediatric gastroenterology, hepatology, and nutrition at Emory University School of Medicine, Atlanta. He wrote an editorial accompanying the two NEJM studies.

The CDC has not yet found an increase in pediatric hepatitis cases, according to a recent analysis, though the United Kingdom has found an uptick in cases this year, he told this news organization. Also, the cases highlighted in both articles showed no histological evidence of adenovirus in liver biopsies. “That’s completely opposite of what we generally see in adenoviral hepatitis that can be quite severe,” he said, adding that in general, there are detectable viral particles and antigens in affected livers.

“These two important reports indicate to those inside and outside the field of pediatric hepatology that registries and clinical studies of acute hepatitis in children are sorely needed,” Dr. Karpen writes in the editorial; “It is likely that with greater attention to collecting data on cases and biospecimens from children with acute hepatitis, we will be able to determine whether this one virus, human adenovirus 41, is of relevance to this important and serious condition in children.”

Dr. Gutierrez, Dr. Kelgeri, and Dr. Karpen report no relevant financial relationships.

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

While two new studies reiterate a possible relationship between adenovirus 41 and acute hepatitis of unknown cause in children, whether these infections are significant or merely bystanders remains unclear.

In both studies – one conducted in Alabama and the other conducted in the United Kingdom – researchers found that 90% of children with acute hepatitis of unknown cause tested positive for adenovirus 41. The virus subtype is not an uncommon infection, but it usually causes gastroenteritis in children.

“Across the world, adenovirus continues to be a common signal” in these pediatric hepatitis cases, said Helena Gutierrez, MD, the medical director of the Pediatric Liver Transplant Program at the University of Alabama at Birmingham, in an interview. She led one of the studies. More data are necessary to understand what role this virus may play in these cases, she said.

In November, the Alabama Department of Public Health and the U.S. Centers for Disease Control and Prevention began investigating a cluster of severe pediatric hepatitis cases at the Children’s of Alabama hospital in Birmingham. These children also tested positive for adenovirus. In April, the United Kingdom announced they were investigating similar cases, and the CDC expanded their search nationally. As of July 8, 1,010 cases in 35 countries have been reported to the World Health Organization. There are 263 confirmed cases in the United Kingdom and 332 cases under investigation by the CDC in the United States, according to the most recent counts.

The two studies, both published in the New England Journal of Medicine, provide additional clinical data on a number of these mysterious hepatitis cases. Dr. Gutierrez’s study looked at nine children admitted for hepatitis of unknown origin between October 1 and February 28. Patients had a median age of 2 years 11 months and two required liver transplants, and there were no deaths.

Eight out of nine patients (89%) tested positive for adenovirus, and all five of the samples that were of sufficient quality for gene sequencing tested positive for adenovirus 41. None of the six liver biopsies performed found signs of adenovirus infection, but the liver tissue samples of three patients tested positive for adenovirus via PCR.

The second study involved 44 children referred to a liver transplantation center in the United Kingdom between January 1 and April 11, 2022. The median age for patients was 4 years. Six children required liver transplants, and there were no deaths. Of the 30 patients who underwent molecular adenovirus testing, 27 (90%) were positive for adenovirus 41. Liver samples of nine children (3 from biopsies and 6 from explanted livers) all tested negative for adenovirus antibodies.

In both studies, however, the median adenovirus viral load of patients needing a transplant was much higher than the viral loads in children who did not require liver transplants.

Although most of the clinical features and test results of these cases suggest that adenovirus may be involved, the negative results in histology are “intriguing,” Chayarani Kelgeri, MD, a consultant pediatric hepatologist at the Birmingham Women’s and Children’s Hospital, U.K., said in an email. She is the lead author of the U.K. study. “Whether this is because the liver injury we see is an aftermath of the viral infection, the mechanism of injury is immune mediated, and if other cofactors are involved is being explored,” she added. “Further investigations being undertaken by UK Health Security Agency will add to our understanding of this illness.”

Although there is a high adenovirus positivity rate amongst these cases, there is not enough evidence yet to say adenovirus 41 is a new cause of pediatric hepatitis in previously healthy children, said Saul Karpen, MD, PhD, the division chief of pediatric gastroenterology, hepatology, and nutrition at Emory University School of Medicine, Atlanta. He wrote an editorial accompanying the two NEJM studies.

The CDC has not yet found an increase in pediatric hepatitis cases, according to a recent analysis, though the United Kingdom has found an uptick in cases this year, he told this news organization. Also, the cases highlighted in both articles showed no histological evidence of adenovirus in liver biopsies. “That’s completely opposite of what we generally see in adenoviral hepatitis that can be quite severe,” he said, adding that in general, there are detectable viral particles and antigens in affected livers.

“These two important reports indicate to those inside and outside the field of pediatric hepatology that registries and clinical studies of acute hepatitis in children are sorely needed,” Dr. Karpen writes in the editorial; “It is likely that with greater attention to collecting data on cases and biospecimens from children with acute hepatitis, we will be able to determine whether this one virus, human adenovirus 41, is of relevance to this important and serious condition in children.”

Dr. Gutierrez, Dr. Kelgeri, and Dr. Karpen report no relevant financial relationships.

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

The monkeypox virus is evolving 6-12 times faster than would be expected, according to a new study.

The virus is thought to have a single origin, the genetic data suggests, and is a likely descendant of the strain involved in the 2017-2018 monkeypox outbreak in Nigeria. It’s not clear if these mutations have aided the transmissibility of the virus among people or have any other clinical implications, João Paulo Gomes, PhD, from Portugal’s National Institute of Health, Lisbon, said in an email.

Since the monkeypox outbreak began in May, nearly 7,000 cases of monkeypox have been reported across 52 countries and territories. As of July 5, there were 560 cases in the United States. So far, there have been no deaths.

Orthopoxviruses – the genus to which monkeypox belongs – are large DNA viruses that usually only gain one or two mutations every year. (For comparison, SARS-CoV-2 gains around two mutations every month.) One would expect 5 to 10 mutations in the 2022 monkeypox virus, compared with the 2017 strain, Dr. Gomes said.

In the study, Dr. Gomes and colleagues analyzed 15 monkeypox DNA sequences made available by Portugal and the National Center for Biotechnology Information, Bethesda, Md., between May 20 and May 27, 2022. The analysis revealed that this most recent strain differed by 50 single-nucleotide polymorphisms, compared with previous strains of the virus in 2017-2018.

“This is far beyond what we would expect, specifically for orthopoxvirus,” Andrew Lover, PhD, an epidemiologist at the University of Massachusetts Amherst School of Public Health & Health Sciences, told this news organization. He was not involved with the research. “That suggests [the virus] is trying to figure out the best way to deal with a new host species,” he added.

Rodents are thought to be the natural hosts of the monkeypox virus, he explained, and, in 2022, the infection transferred to humans. “Moving into a new species can ‘turbocharge’ mutations as the virus adapts to a new biological environment,” he explained, though it is not clear if the new mutations Dr. Gomes’s team detected help the 2022 virus spread more easily among people.

Researchers also found that the 2022 virus belonged in clade 3 of the virus, which is part of the less-lethal West-African clade. While the West-African clade has a fatality rate of less than 1%, the Central African clade has a fatality rate of over 10%.

The rapid changes in the viral genome could be driven by a family of proteins thought to play a role in antiviral immunity: apolipoprotein B mRNA editing enzyme, catalytic polypeptide-like 3 (APOBEC3). These enzymes can make changes to a viral genome, Dr. Gomes explained, “but sometimes the system is not ‘well regulated,’ and the changes in the genome are not detrimental to the virus.” These APOBEC3-driven mutations have a signature pattern, he said, which was also detected in most of the 50 new mutations Dr. Gomes’s team identified.

However, it is not known if these mutations have clinical implications, Dr. Lover said.

The 2022 monkeypox virus does appear to behave differently than previous strains of the virus, he noted. In the current outbreak, sexual transmission appears to be very common, which is not the case for previous outbreaks, he said. Also, while monkeypox traditionally presents with a rash that can spread to all parts of the body, there have been several instances of patients presenting with just a few “very innocuous lesions,” he added.

Dr. Gomes hopes that specialized lab groups will now be able to tease out whether there is a connection between these identified mutations and changes in the behavior of the virus, including transmissibility.

While none of the findings in this analysis raises any serious concerns, the study “suggests there [are] definitely gaps in our knowledge about monkeypox,” Dr. Lover said. As for the global health response, he said, “We probably should err on the side of caution. ... There are clearly things that we absolutely don’t understand here, in terms of how quickly mutations are popping up.”

Dr. Gomes and Dr. Lover report no relevant financial relationships.

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

The monkeypox virus is evolving 6-12 times faster than would be expected, according to a new study.

The virus is thought to have a single origin, the genetic data suggests, and is a likely descendant of the strain involved in the 2017-2018 monkeypox outbreak in Nigeria. It’s not clear if these mutations have aided the transmissibility of the virus among people or have any other clinical implications, João Paulo Gomes, PhD, from Portugal’s National Institute of Health, Lisbon, said in an email.

Since the monkeypox outbreak began in May, nearly 7,000 cases of monkeypox have been reported across 52 countries and territories. As of July 5, there were 560 cases in the United States. So far, there have been no deaths.

Orthopoxviruses – the genus to which monkeypox belongs – are large DNA viruses that usually only gain one or two mutations every year. (For comparison, SARS-CoV-2 gains around two mutations every month.) One would expect 5 to 10 mutations in the 2022 monkeypox virus, compared with the 2017 strain, Dr. Gomes said.

In the study, Dr. Gomes and colleagues analyzed 15 monkeypox DNA sequences made available by Portugal and the National Center for Biotechnology Information, Bethesda, Md., between May 20 and May 27, 2022. The analysis revealed that this most recent strain differed by 50 single-nucleotide polymorphisms, compared with previous strains of the virus in 2017-2018.

“This is far beyond what we would expect, specifically for orthopoxvirus,” Andrew Lover, PhD, an epidemiologist at the University of Massachusetts Amherst School of Public Health & Health Sciences, told this news organization. He was not involved with the research. “That suggests [the virus] is trying to figure out the best way to deal with a new host species,” he added.

Rodents are thought to be the natural hosts of the monkeypox virus, he explained, and, in 2022, the infection transferred to humans. “Moving into a new species can ‘turbocharge’ mutations as the virus adapts to a new biological environment,” he explained, though it is not clear if the new mutations Dr. Gomes’s team detected help the 2022 virus spread more easily among people.

Researchers also found that the 2022 virus belonged in clade 3 of the virus, which is part of the less-lethal West-African clade. While the West-African clade has a fatality rate of less than 1%, the Central African clade has a fatality rate of over 10%.

The rapid changes in the viral genome could be driven by a family of proteins thought to play a role in antiviral immunity: apolipoprotein B mRNA editing enzyme, catalytic polypeptide-like 3 (APOBEC3). These enzymes can make changes to a viral genome, Dr. Gomes explained, “but sometimes the system is not ‘well regulated,’ and the changes in the genome are not detrimental to the virus.” These APOBEC3-driven mutations have a signature pattern, he said, which was also detected in most of the 50 new mutations Dr. Gomes’s team identified.

However, it is not known if these mutations have clinical implications, Dr. Lover said.

The 2022 monkeypox virus does appear to behave differently than previous strains of the virus, he noted. In the current outbreak, sexual transmission appears to be very common, which is not the case for previous outbreaks, he said. Also, while monkeypox traditionally presents with a rash that can spread to all parts of the body, there have been several instances of patients presenting with just a few “very innocuous lesions,” he added.

Dr. Gomes hopes that specialized lab groups will now be able to tease out whether there is a connection between these identified mutations and changes in the behavior of the virus, including transmissibility.

While none of the findings in this analysis raises any serious concerns, the study “suggests there [are] definitely gaps in our knowledge about monkeypox,” Dr. Lover said. As for the global health response, he said, “We probably should err on the side of caution. ... There are clearly things that we absolutely don’t understand here, in terms of how quickly mutations are popping up.”

Dr. Gomes and Dr. Lover report no relevant financial relationships.

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

The monkeypox virus is evolving 6-12 times faster than would be expected, according to a new study.

The virus is thought to have a single origin, the genetic data suggests, and is a likely descendant of the strain involved in the 2017-2018 monkeypox outbreak in Nigeria. It’s not clear if these mutations have aided the transmissibility of the virus among people or have any other clinical implications, João Paulo Gomes, PhD, from Portugal’s National Institute of Health, Lisbon, said in an email.

Since the monkeypox outbreak began in May, nearly 7,000 cases of monkeypox have been reported across 52 countries and territories. As of July 5, there were 560 cases in the United States. So far, there have been no deaths.

Orthopoxviruses – the genus to which monkeypox belongs – are large DNA viruses that usually only gain one or two mutations every year. (For comparison, SARS-CoV-2 gains around two mutations every month.) One would expect 5 to 10 mutations in the 2022 monkeypox virus, compared with the 2017 strain, Dr. Gomes said.

In the study, Dr. Gomes and colleagues analyzed 15 monkeypox DNA sequences made available by Portugal and the National Center for Biotechnology Information, Bethesda, Md., between May 20 and May 27, 2022. The analysis revealed that this most recent strain differed by 50 single-nucleotide polymorphisms, compared with previous strains of the virus in 2017-2018.

“This is far beyond what we would expect, specifically for orthopoxvirus,” Andrew Lover, PhD, an epidemiologist at the University of Massachusetts Amherst School of Public Health & Health Sciences, told this news organization. He was not involved with the research. “That suggests [the virus] is trying to figure out the best way to deal with a new host species,” he added.

Rodents are thought to be the natural hosts of the monkeypox virus, he explained, and, in 2022, the infection transferred to humans. “Moving into a new species can ‘turbocharge’ mutations as the virus adapts to a new biological environment,” he explained, though it is not clear if the new mutations Dr. Gomes’s team detected help the 2022 virus spread more easily among people.

Researchers also found that the 2022 virus belonged in clade 3 of the virus, which is part of the less-lethal West-African clade. While the West-African clade has a fatality rate of less than 1%, the Central African clade has a fatality rate of over 10%.

The rapid changes in the viral genome could be driven by a family of proteins thought to play a role in antiviral immunity: apolipoprotein B mRNA editing enzyme, catalytic polypeptide-like 3 (APOBEC3). These enzymes can make changes to a viral genome, Dr. Gomes explained, “but sometimes the system is not ‘well regulated,’ and the changes in the genome are not detrimental to the virus.” These APOBEC3-driven mutations have a signature pattern, he said, which was also detected in most of the 50 new mutations Dr. Gomes’s team identified.

However, it is not known if these mutations have clinical implications, Dr. Lover said.

The 2022 monkeypox virus does appear to behave differently than previous strains of the virus, he noted. In the current outbreak, sexual transmission appears to be very common, which is not the case for previous outbreaks, he said. Also, while monkeypox traditionally presents with a rash that can spread to all parts of the body, there have been several instances of patients presenting with just a few “very innocuous lesions,” he added.

Dr. Gomes hopes that specialized lab groups will now be able to tease out whether there is a connection between these identified mutations and changes in the behavior of the virus, including transmissibility.

While none of the findings in this analysis raises any serious concerns, the study “suggests there [are] definitely gaps in our knowledge about monkeypox,” Dr. Lover said. As for the global health response, he said, “We probably should err on the side of caution. ... There are clearly things that we absolutely don’t understand here, in terms of how quickly mutations are popping up.”

Dr. Gomes and Dr. Lover report no relevant financial relationships.

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

The White House is scaling up its response to the monkeypox outbreak, expanding access to vaccines to more at-risk individuals, officials said in a press call. More than 56,000 doses of the monkeypox vaccine JYNNEOS will be made available immediately, and more than 240,000 doses will be allocated in the coming weeks.

“The administration’s current strategy is focused on containing the outbreak by providing vaccines to those most in need to prevent further spread of monkeypox in the communities most impacted,” CDC Director Rochelle Walensky, MD, MPH, said on a June 28 press call. “As additional supply becomes available, we will further expand our efforts making vaccines available to a wider population.”

As of June 28, there were 4,700 detected cases of monkeypox globally in 49 countries. Since the first U.S. case of monkeypox was identified on May 17, there have been 306 confirmed cases across 28 jurisdictions.

Prior to this announcement, vaccination against monkeypox was recommended only for people with known exposures to the virus. Now, the vaccine is available to people who are likely to be exposed to the virus, including:

• People who have had close physical contact with someone diagnosed with monkeypox.
• People with a sexual partner diagnosed with monkeypox.
• Men who have sex with men who have had multiple sex partners in a venue where monkeypox was identified.

The JYNNEOS vaccine is administered in two doses, delivered 28 days apart. People will have maximum immunity 2 weeks after the second dose. People should be vaccinated within 2 weeks of a possible monkeypox exposure, Dr. Walensky said, adding, “The sooner you can get vaccinated after exposure, the better.”

The U.S. Department of Health and Human Services will immediately allocate the 56,000 JYNNEOS doses across the country, prioritizing jurisdictions to areas of high transmission. A second vaccine, ACAM2000, can also be requested, but it has a greater risk for serious side effects and is not appropriate for immunocompromised individuals or people with heart disease. In the coming weeks, 240,000 JYNNEOS doses will be made available for second doses as well as first doses “as the vaccine strategy broadens,” said David Boucher, director of infectious disease preparedness and response for HHS. There are currently 800,000 JYNNEOS doses that have been manufactured and approved for release, he said, and awaiting inspection by the Food and Drug Administration, which should be completed in the beginning of July.

At the same time, the administration is focusing on increasing access to testing. Monkeypox testing is now available in 78 state public health labs in 48 states that can collectively conduct 10,000 tests per week. In addition, the administration announced on June 23 that HHS began shipping monkeypox tests to five commercial lab companies to expand testing capacity as well as make testing more accessible.

“We continue to work very closely with the community and with public health partners and clinicians to increase awareness of the monkey pox outbreak and to facilitate adequate capacity and equitable access to testing,” Dr. Walensky said. “I strongly encourage all health care providers to have a high clinical suspicion for monkeypox among their patients. Patients presenting with a suspicious rash should be tested.”

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

The White House is scaling up its response to the monkeypox outbreak, expanding access to vaccines to more at-risk individuals, officials said in a press call. More than 56,000 doses of the monkeypox vaccine JYNNEOS will be made available immediately, and more than 240,000 doses will be allocated in the coming weeks.

“The administration’s current strategy is focused on containing the outbreak by providing vaccines to those most in need to prevent further spread of monkeypox in the communities most impacted,” CDC Director Rochelle Walensky, MD, MPH, said on a June 28 press call. “As additional supply becomes available, we will further expand our efforts making vaccines available to a wider population.”

As of June 28, there were 4,700 detected cases of monkeypox globally in 49 countries. Since the first U.S. case of monkeypox was identified on May 17, there have been 306 confirmed cases across 28 jurisdictions.

Prior to this announcement, vaccination against monkeypox was recommended only for people with known exposures to the virus. Now, the vaccine is available to people who are likely to be exposed to the virus, including:

• People who have had close physical contact with someone diagnosed with monkeypox.
• People with a sexual partner diagnosed with monkeypox.
• Men who have sex with men who have had multiple sex partners in a venue where monkeypox was identified.

The JYNNEOS vaccine is administered in two doses, delivered 28 days apart. People will have maximum immunity 2 weeks after the second dose. People should be vaccinated within 2 weeks of a possible monkeypox exposure, Dr. Walensky said, adding, “The sooner you can get vaccinated after exposure, the better.”

The U.S. Department of Health and Human Services will immediately allocate the 56,000 JYNNEOS doses across the country, prioritizing jurisdictions to areas of high transmission. A second vaccine, ACAM2000, can also be requested, but it has a greater risk for serious side effects and is not appropriate for immunocompromised individuals or people with heart disease. In the coming weeks, 240,000 JYNNEOS doses will be made available for second doses as well as first doses “as the vaccine strategy broadens,” said David Boucher, director of infectious disease preparedness and response for HHS. There are currently 800,000 JYNNEOS doses that have been manufactured and approved for release, he said, and awaiting inspection by the Food and Drug Administration, which should be completed in the beginning of July.

At the same time, the administration is focusing on increasing access to testing. Monkeypox testing is now available in 78 state public health labs in 48 states that can collectively conduct 10,000 tests per week. In addition, the administration announced on June 23 that HHS began shipping monkeypox tests to five commercial lab companies to expand testing capacity as well as make testing more accessible.

“We continue to work very closely with the community and with public health partners and clinicians to increase awareness of the monkey pox outbreak and to facilitate adequate capacity and equitable access to testing,” Dr. Walensky said. “I strongly encourage all health care providers to have a high clinical suspicion for monkeypox among their patients. Patients presenting with a suspicious rash should be tested.”

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

The White House is scaling up its response to the monkeypox outbreak, expanding access to vaccines to more at-risk individuals, officials said in a press call. More than 56,000 doses of the monkeypox vaccine JYNNEOS will be made available immediately, and more than 240,000 doses will be allocated in the coming weeks.

“The administration’s current strategy is focused on containing the outbreak by providing vaccines to those most in need to prevent further spread of monkeypox in the communities most impacted,” CDC Director Rochelle Walensky, MD, MPH, said on a June 28 press call. “As additional supply becomes available, we will further expand our efforts making vaccines available to a wider population.”

As of June 28, there were 4,700 detected cases of monkeypox globally in 49 countries. Since the first U.S. case of monkeypox was identified on May 17, there have been 306 confirmed cases across 28 jurisdictions.

Prior to this announcement, vaccination against monkeypox was recommended only for people with known exposures to the virus. Now, the vaccine is available to people who are likely to be exposed to the virus, including:

• People who have had close physical contact with someone diagnosed with monkeypox.
• People with a sexual partner diagnosed with monkeypox.
• Men who have sex with men who have had multiple sex partners in a venue where monkeypox was identified.

The JYNNEOS vaccine is administered in two doses, delivered 28 days apart. People will have maximum immunity 2 weeks after the second dose. People should be vaccinated within 2 weeks of a possible monkeypox exposure, Dr. Walensky said, adding, “The sooner you can get vaccinated after exposure, the better.”

The U.S. Department of Health and Human Services will immediately allocate the 56,000 JYNNEOS doses across the country, prioritizing jurisdictions to areas of high transmission. A second vaccine, ACAM2000, can also be requested, but it has a greater risk for serious side effects and is not appropriate for immunocompromised individuals or people with heart disease. In the coming weeks, 240,000 JYNNEOS doses will be made available for second doses as well as first doses “as the vaccine strategy broadens,” said David Boucher, director of infectious disease preparedness and response for HHS. There are currently 800,000 JYNNEOS doses that have been manufactured and approved for release, he said, and awaiting inspection by the Food and Drug Administration, which should be completed in the beginning of July.

At the same time, the administration is focusing on increasing access to testing. Monkeypox testing is now available in 78 state public health labs in 48 states that can collectively conduct 10,000 tests per week. In addition, the administration announced on June 23 that HHS began shipping monkeypox tests to five commercial lab companies to expand testing capacity as well as make testing more accessible.

“We continue to work very closely with the community and with public health partners and clinicians to increase awareness of the monkey pox outbreak and to facilitate adequate capacity and equitable access to testing,” Dr. Walensky said. “I strongly encourage all health care providers to have a high clinical suspicion for monkeypox among their patients. Patients presenting with a suspicious rash should be tested.”

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