MDedge Psychiatry

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

The Omicron subvariant, BA.2, is not only more transmissible than the original Omicron strain, BA.1, but may cause more severe disease, a lab study from Japan says.

“Our multiscale investigations suggest that the risk of BA.2 for global health is potentially higher than that of BA.1,” the researchers said in the study published on the preprint server bioRxiv. The study has not been peer-reviewed.

The researchers infected hamsters with BA.1 and BA.2. The hamsters infected with BA.2 got sicker, with more lung damage and loss of body weight. Results were similar when mice were infected with BA.1 and BA.2.

“Infection experiments using hamsters show that BA.2 is more pathogenic than BA.1,” the study said.

BA.1 and BA.2 both appear to evade immunity created by COVID-19 vaccines, the study said. But a booster shot makes illness after infection 74% less likely, CNN said.

What’s more, therapeutic monoclonal antibodies used to treat people infected with COVID didn’t have much effect on BA.2. 

BA.2 was “almost completely resistant” to casirivimab and imdevimab and was 35 times more resistant to sotrovimab, compared to the original B.1.1 virus, the researchers wrote. 

“In summary, our data suggest the possibility that BA.2 would be the most concerned variant to global health,” the researchers wrote. “Currently, both BA.2 and BA.1 are recognised together as Omicron and these are almost undistinguishable. Based on our findings, we propose that BA.2 should be recognised as a unique variant of concern, and this SARS-CoV-2 variant should be monitored in depth.”

If the World Health Organization recognized BA.2 as a “unique variant of concern,” it would be given its own Greek letter.

But some scientists noted that findings in the lab don’t always reflect what’s happening in the real world of people.

“I think it’s always hard to translate differences in animal and cell culture models to what’s going on with regards to human disease,” Jeremy Kamil, PhD, an associate professor of microbiology and immunology at Louisiana State University Health Shreveport, told Newsweek. “That said, the differences do look real.”

“It might be, from a human’s perspective, a worse virus than BA.1 and might be able to transmit better and cause worse disease,” Daniel Rhoads, MD, section head of microbiology at the Cleveland Clinic in Ohio, told CNN. He reviewed the Japanese study but was not involved in it.

Another scientist who reviewed the study but was not involved in the research noted that human immune systems are evolving along with the COVID variants. 

“One of the caveats that we have to think about, as we get new variants that might seem more dangerous, is the fact that there’s two sides to the story,” Deborah Fuller, PhD, a virologist at the University of Washington School of Medicine, told CNN. “Our immune system is evolving as well. And so that’s pushing back on things.”

Scientists have already established that BA.2 is more transmissible than BA.1. The Omicron subvariant has been detected in 74 countries and 47 U.S. states, according to CNN. About 4% of Americans with COVID were infected with BA.2, the outlet reported, citing the CDC, but it’s now the dominant strain in other nations.

It’s not clear yet if BA.2 causes more severe illness in people. While BA.2 spreads faster than BA.1, there’s no evidence the subvariant makes people any sicker, an official with the World Health Organization said, according to CNBC.

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

The Omicron subvariant, BA.2, is not only more transmissible than the original Omicron strain, BA.1, but may cause more severe disease, a lab study from Japan says.

“Our multiscale investigations suggest that the risk of BA.2 for global health is potentially higher than that of BA.1,” the researchers said in the study published on the preprint server bioRxiv. The study has not been peer-reviewed.

The researchers infected hamsters with BA.1 and BA.2. The hamsters infected with BA.2 got sicker, with more lung damage and loss of body weight. Results were similar when mice were infected with BA.1 and BA.2.

“Infection experiments using hamsters show that BA.2 is more pathogenic than BA.1,” the study said.

BA.1 and BA.2 both appear to evade immunity created by COVID-19 vaccines, the study said. But a booster shot makes illness after infection 74% less likely, CNN said.

What’s more, therapeutic monoclonal antibodies used to treat people infected with COVID didn’t have much effect on BA.2. 

BA.2 was “almost completely resistant” to casirivimab and imdevimab and was 35 times more resistant to sotrovimab, compared to the original B.1.1 virus, the researchers wrote. 

“In summary, our data suggest the possibility that BA.2 would be the most concerned variant to global health,” the researchers wrote. “Currently, both BA.2 and BA.1 are recognised together as Omicron and these are almost undistinguishable. Based on our findings, we propose that BA.2 should be recognised as a unique variant of concern, and this SARS-CoV-2 variant should be monitored in depth.”

If the World Health Organization recognized BA.2 as a “unique variant of concern,” it would be given its own Greek letter.

But some scientists noted that findings in the lab don’t always reflect what’s happening in the real world of people.

“I think it’s always hard to translate differences in animal and cell culture models to what’s going on with regards to human disease,” Jeremy Kamil, PhD, an associate professor of microbiology and immunology at Louisiana State University Health Shreveport, told Newsweek. “That said, the differences do look real.”

“It might be, from a human’s perspective, a worse virus than BA.1 and might be able to transmit better and cause worse disease,” Daniel Rhoads, MD, section head of microbiology at the Cleveland Clinic in Ohio, told CNN. He reviewed the Japanese study but was not involved in it.

Another scientist who reviewed the study but was not involved in the research noted that human immune systems are evolving along with the COVID variants. 

“One of the caveats that we have to think about, as we get new variants that might seem more dangerous, is the fact that there’s two sides to the story,” Deborah Fuller, PhD, a virologist at the University of Washington School of Medicine, told CNN. “Our immune system is evolving as well. And so that’s pushing back on things.”

Scientists have already established that BA.2 is more transmissible than BA.1. The Omicron subvariant has been detected in 74 countries and 47 U.S. states, according to CNN. About 4% of Americans with COVID were infected with BA.2, the outlet reported, citing the CDC, but it’s now the dominant strain in other nations.

It’s not clear yet if BA.2 causes more severe illness in people. While BA.2 spreads faster than BA.1, there’s no evidence the subvariant makes people any sicker, an official with the World Health Organization said, according to CNBC.

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

The Omicron subvariant, BA.2, is not only more transmissible than the original Omicron strain, BA.1, but may cause more severe disease, a lab study from Japan says.

“Our multiscale investigations suggest that the risk of BA.2 for global health is potentially higher than that of BA.1,” the researchers said in the study published on the preprint server bioRxiv. The study has not been peer-reviewed.

The researchers infected hamsters with BA.1 and BA.2. The hamsters infected with BA.2 got sicker, with more lung damage and loss of body weight. Results were similar when mice were infected with BA.1 and BA.2.

“Infection experiments using hamsters show that BA.2 is more pathogenic than BA.1,” the study said.

BA.1 and BA.2 both appear to evade immunity created by COVID-19 vaccines, the study said. But a booster shot makes illness after infection 74% less likely, CNN said.

What’s more, therapeutic monoclonal antibodies used to treat people infected with COVID didn’t have much effect on BA.2. 

BA.2 was “almost completely resistant” to casirivimab and imdevimab and was 35 times more resistant to sotrovimab, compared to the original B.1.1 virus, the researchers wrote. 

“In summary, our data suggest the possibility that BA.2 would be the most concerned variant to global health,” the researchers wrote. “Currently, both BA.2 and BA.1 are recognised together as Omicron and these are almost undistinguishable. Based on our findings, we propose that BA.2 should be recognised as a unique variant of concern, and this SARS-CoV-2 variant should be monitored in depth.”

If the World Health Organization recognized BA.2 as a “unique variant of concern,” it would be given its own Greek letter.

But some scientists noted that findings in the lab don’t always reflect what’s happening in the real world of people.

“I think it’s always hard to translate differences in animal and cell culture models to what’s going on with regards to human disease,” Jeremy Kamil, PhD, an associate professor of microbiology and immunology at Louisiana State University Health Shreveport, told Newsweek. “That said, the differences do look real.”

“It might be, from a human’s perspective, a worse virus than BA.1 and might be able to transmit better and cause worse disease,” Daniel Rhoads, MD, section head of microbiology at the Cleveland Clinic in Ohio, told CNN. He reviewed the Japanese study but was not involved in it.

Another scientist who reviewed the study but was not involved in the research noted that human immune systems are evolving along with the COVID variants. 

“One of the caveats that we have to think about, as we get new variants that might seem more dangerous, is the fact that there’s two sides to the story,” Deborah Fuller, PhD, a virologist at the University of Washington School of Medicine, told CNN. “Our immune system is evolving as well. And so that’s pushing back on things.”

Scientists have already established that BA.2 is more transmissible than BA.1. The Omicron subvariant has been detected in 74 countries and 47 U.S. states, according to CNN. About 4% of Americans with COVID were infected with BA.2, the outlet reported, citing the CDC, but it’s now the dominant strain in other nations.

It’s not clear yet if BA.2 causes more severe illness in people. While BA.2 spreads faster than BA.1, there’s no evidence the subvariant makes people any sicker, an official with the World Health Organization said, according to CNBC.

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

Researchers point the finger squarely at starting salaries for physicians as the reason women earn less than their male peers in academic medicine, according to a new study. Worse still, the earning potential of women in most specialties is $214,440 (or 10%) less than their male colleagues over the course of the first 10 years of their careers in academic medicine.

Among the vast majority of subspecialties, women’s starting salaries and their salaries 10 years into their careers were lower than their male colleagues in academic medicine, per the study in JAMA Network Open.

Eva Catenaccio, MD, an epilepsy fellow at Children’s Hospital of Philadelphia and the lead author of the study, told this news organization that the gender disparities in earning potential are “pervasive in academic medicine.” These earnings disparities, which occur in nearly all subspecialties and can reach hundreds of thousands of dollars in the first 10 years of an academic physician’s career, “are largely the result of gender differences in annual salary that start immediately after training,” she said.

Changing the timing of academic promotion and equalizing starting salary and salary growth can help close the salary gap, said Dr. Catenaccio.

The study also reveals that women could face a 1-year delay in promotion from assistant to associate professor, compared with men. This delay could reduce female physicians’ earning potential by a 10-year median of $26,042 (or 2%), whereas failure to be promoted at all could decrease the 10-year earning potential by a median of $218,724 (or 13%).

Across medicine more broadly, male physicians continue to earn 35% more than their female colleagues, according to the 2021 Medscape Physician Compensation Report. The biggest differences in take-home pay exist between male and female specialists, per the report. On average, male physicians earn $376,000, while women’s take-home pay is $283,000.
 

Medical schools and hospital leaders have a role to play

The earning potential during the first 10 years of post-training employment by gender was the most dramatic in neurosurgery, orthopedic surgery, and cardiology, per the study. Three subspecialties where women and men have similar earning potential include pediatric nephrology, pediatric neurology, and pediatric rheumatology.

The coauthors note that it’s commonly understood that women don’t negotiate as often or as successfully as their male colleagues. A 2019 study in JAMA Surgery of 606 male and female surgery residents revealed that while residents of both genders shared similar career goals, women had lower future salary expectations and a significantly more negative view of the salary negotiation process.

Dr. Catenaccio and her coauthors acknowledge that negotiation skills and financial literacy should be taught during medical school and postgraduate training. “However, the onus for ensuring salary equity should not fall on the individual candidate alone; rather, departmental and hospital leadership should take responsibility to ensure uniform starting salaries and prevent gender-based inequalities,” they wrote in the study.

“We hope that this study encourages academic medical institutions to increase transparency and equity around compensation, particularly for junior faculty,” Dr. Catenaccio said in an interview. “This will require both ensuring equal starting salaries and providing periodic adjustments throughout individuals’ careers to prevent divergence in earning potential by gender or any other individual characteristics.”

Harold Simon, MD, MBA, vice chair for faculty for the department of pediatrics and professor of pediatrics and emergency medicine at Emory University, Atlanta, told this news organization that “[i]ncreased transparency around compensation can enable women to advocate for equitable pay. However, the burden for ensuring equity should not fall on individuals but instead must be the primary responsibility of academic institutions.”

Specifically, Dr. Simon advocates for hospital leaders to “ensure equity among providers including compensation [as] a crucial part of maintaining a diverse workforce and, ultimately, providing balanced access to health care for patients.”

In addition, the authors call for periodic compensation evaluations and adjustments to help prevent gender-based salary differences among female and male physicians in academia. “This is absolutely necessary, both to develop future compensation plans and to address any pre-existing gender-based salary inequities for those women currently well into their careers,” they wrote in the study.

Data analysis was conducted from March to May 2021. Researchers used models to estimate the impacts of promotion timing and potential interventions, which include equalizing starting salaries and annual salary rates.

The study included compensation data for 24,593 female and 29,886 male academic physicians across 45 subspecialties. It relied on publicly available data from the Association of American Medical Colleges’ annual Medical School Faculty Salary Survey report.

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

Researchers point the finger squarely at starting salaries for physicians as the reason women earn less than their male peers in academic medicine, according to a new study. Worse still, the earning potential of women in most specialties is $214,440 (or 10%) less than their male colleagues over the course of the first 10 years of their careers in academic medicine.

Among the vast majority of subspecialties, women’s starting salaries and their salaries 10 years into their careers were lower than their male colleagues in academic medicine, per the study in JAMA Network Open.

Eva Catenaccio, MD, an epilepsy fellow at Children’s Hospital of Philadelphia and the lead author of the study, told this news organization that the gender disparities in earning potential are “pervasive in academic medicine.” These earnings disparities, which occur in nearly all subspecialties and can reach hundreds of thousands of dollars in the first 10 years of an academic physician’s career, “are largely the result of gender differences in annual salary that start immediately after training,” she said.

Changing the timing of academic promotion and equalizing starting salary and salary growth can help close the salary gap, said Dr. Catenaccio.

The study also reveals that women could face a 1-year delay in promotion from assistant to associate professor, compared with men. This delay could reduce female physicians’ earning potential by a 10-year median of $26,042 (or 2%), whereas failure to be promoted at all could decrease the 10-year earning potential by a median of $218,724 (or 13%).

Across medicine more broadly, male physicians continue to earn 35% more than their female colleagues, according to the 2021 Medscape Physician Compensation Report. The biggest differences in take-home pay exist between male and female specialists, per the report. On average, male physicians earn $376,000, while women’s take-home pay is $283,000.
 

Medical schools and hospital leaders have a role to play

The earning potential during the first 10 years of post-training employment by gender was the most dramatic in neurosurgery, orthopedic surgery, and cardiology, per the study. Three subspecialties where women and men have similar earning potential include pediatric nephrology, pediatric neurology, and pediatric rheumatology.

The coauthors note that it’s commonly understood that women don’t negotiate as often or as successfully as their male colleagues. A 2019 study in JAMA Surgery of 606 male and female surgery residents revealed that while residents of both genders shared similar career goals, women had lower future salary expectations and a significantly more negative view of the salary negotiation process.

Dr. Catenaccio and her coauthors acknowledge that negotiation skills and financial literacy should be taught during medical school and postgraduate training. “However, the onus for ensuring salary equity should not fall on the individual candidate alone; rather, departmental and hospital leadership should take responsibility to ensure uniform starting salaries and prevent gender-based inequalities,” they wrote in the study.

“We hope that this study encourages academic medical institutions to increase transparency and equity around compensation, particularly for junior faculty,” Dr. Catenaccio said in an interview. “This will require both ensuring equal starting salaries and providing periodic adjustments throughout individuals’ careers to prevent divergence in earning potential by gender or any other individual characteristics.”

Harold Simon, MD, MBA, vice chair for faculty for the department of pediatrics and professor of pediatrics and emergency medicine at Emory University, Atlanta, told this news organization that “[i]ncreased transparency around compensation can enable women to advocate for equitable pay. However, the burden for ensuring equity should not fall on individuals but instead must be the primary responsibility of academic institutions.”

Specifically, Dr. Simon advocates for hospital leaders to “ensure equity among providers including compensation [as] a crucial part of maintaining a diverse workforce and, ultimately, providing balanced access to health care for patients.”

In addition, the authors call for periodic compensation evaluations and adjustments to help prevent gender-based salary differences among female and male physicians in academia. “This is absolutely necessary, both to develop future compensation plans and to address any pre-existing gender-based salary inequities for those women currently well into their careers,” they wrote in the study.

Data analysis was conducted from March to May 2021. Researchers used models to estimate the impacts of promotion timing and potential interventions, which include equalizing starting salaries and annual salary rates.

The study included compensation data for 24,593 female and 29,886 male academic physicians across 45 subspecialties. It relied on publicly available data from the Association of American Medical Colleges’ annual Medical School Faculty Salary Survey report.

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

Researchers point the finger squarely at starting salaries for physicians as the reason women earn less than their male peers in academic medicine, according to a new study. Worse still, the earning potential of women in most specialties is $214,440 (or 10%) less than their male colleagues over the course of the first 10 years of their careers in academic medicine.

Among the vast majority of subspecialties, women’s starting salaries and their salaries 10 years into their careers were lower than their male colleagues in academic medicine, per the study in JAMA Network Open.

Eva Catenaccio, MD, an epilepsy fellow at Children’s Hospital of Philadelphia and the lead author of the study, told this news organization that the gender disparities in earning potential are “pervasive in academic medicine.” These earnings disparities, which occur in nearly all subspecialties and can reach hundreds of thousands of dollars in the first 10 years of an academic physician’s career, “are largely the result of gender differences in annual salary that start immediately after training,” she said.

Changing the timing of academic promotion and equalizing starting salary and salary growth can help close the salary gap, said Dr. Catenaccio.

The study also reveals that women could face a 1-year delay in promotion from assistant to associate professor, compared with men. This delay could reduce female physicians’ earning potential by a 10-year median of $26,042 (or 2%), whereas failure to be promoted at all could decrease the 10-year earning potential by a median of $218,724 (or 13%).

Across medicine more broadly, male physicians continue to earn 35% more than their female colleagues, according to the 2021 Medscape Physician Compensation Report. The biggest differences in take-home pay exist between male and female specialists, per the report. On average, male physicians earn $376,000, while women’s take-home pay is $283,000.
 

Medical schools and hospital leaders have a role to play

The earning potential during the first 10 years of post-training employment by gender was the most dramatic in neurosurgery, orthopedic surgery, and cardiology, per the study. Three subspecialties where women and men have similar earning potential include pediatric nephrology, pediatric neurology, and pediatric rheumatology.

The coauthors note that it’s commonly understood that women don’t negotiate as often or as successfully as their male colleagues. A 2019 study in JAMA Surgery of 606 male and female surgery residents revealed that while residents of both genders shared similar career goals, women had lower future salary expectations and a significantly more negative view of the salary negotiation process.

Dr. Catenaccio and her coauthors acknowledge that negotiation skills and financial literacy should be taught during medical school and postgraduate training. “However, the onus for ensuring salary equity should not fall on the individual candidate alone; rather, departmental and hospital leadership should take responsibility to ensure uniform starting salaries and prevent gender-based inequalities,” they wrote in the study.

“We hope that this study encourages academic medical institutions to increase transparency and equity around compensation, particularly for junior faculty,” Dr. Catenaccio said in an interview. “This will require both ensuring equal starting salaries and providing periodic adjustments throughout individuals’ careers to prevent divergence in earning potential by gender or any other individual characteristics.”

Harold Simon, MD, MBA, vice chair for faculty for the department of pediatrics and professor of pediatrics and emergency medicine at Emory University, Atlanta, told this news organization that “[i]ncreased transparency around compensation can enable women to advocate for equitable pay. However, the burden for ensuring equity should not fall on individuals but instead must be the primary responsibility of academic institutions.”

Specifically, Dr. Simon advocates for hospital leaders to “ensure equity among providers including compensation [as] a crucial part of maintaining a diverse workforce and, ultimately, providing balanced access to health care for patients.”

In addition, the authors call for periodic compensation evaluations and adjustments to help prevent gender-based salary differences among female and male physicians in academia. “This is absolutely necessary, both to develop future compensation plans and to address any pre-existing gender-based salary inequities for those women currently well into their careers,” they wrote in the study.

Data analysis was conducted from March to May 2021. Researchers used models to estimate the impacts of promotion timing and potential interventions, which include equalizing starting salaries and annual salary rates.

The study included compensation data for 24,593 female and 29,886 male academic physicians across 45 subspecialties. It relied on publicly available data from the Association of American Medical Colleges’ annual Medical School Faculty Salary Survey report.

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

The substantial antidepressant effects of psilocybin-assisted therapy may be durable up to at least 1 year in some patients with major depressive disorder (MDD), new research indicates.

Two doses of psilocybin provided in the context of supportive therapy produced “large and stable” antidepressant effects throughout a 12-month follow-up period, report researchers with the Center for Psychedelic and Consciousness Research at Johns Hopkins University School of Medicine, Baltimore.

“We have not yet collected formal data past 1 year in our sample, [but] some participants in our study have stayed in touch and report continued improvements in mood,” study investigator Natalie Gukasyan, MD, told this news organization.

Johns Hopkins University School of Medicine

Enduring benefit

Preliminary data suggest that psilocybin-assisted treatment produces substantial and rapid antidepressant effects in patients with MDD, but the durability of the effects are unclear.

Investigators examined the efficacy and safety of psilocybin through 12 months in 24 adults who met criteria for a moderate to severe episode of MDD as defined by a score of 17 or greater on the GRID-Hamilton Depression Rating Scale (GRID-HAMD) assessed by blinded clinician raters.

Following 6-8 hours of preparatory meetings, participants received two doses of psilocybin at 20 mg/70 kg and 30 mg/70 kg spaced roughly 2 weeks apart. Psilocybin was administered in a comfortable room under supervision following established safety guidelines.

Depression, as measured by GRID-HAMD, decreased substantially after treatment and remained low through 12 months post-treatment, the investigators report.

For most participants, GRID-HAMD scores decreased from 22.8 at baseline to 8.7 at 1 week, 8.9 at 4 weeks, 9.3 at 3 months, 7 at 6 months, and 7.7 at 12 months after treatment.

“The effect size at 12 months was very large (Cohen d = 2.4). Likewise, high and stable rates of response and remission occurred throughout the follow-up period (75% response and 58% remission at 12 months),” the investigators note.

Two patient-rated measures of depression – the Quick Inventory of Depressive Symptoms (QIDS) and the Beck Depression Inventory II (BDI-II) – showed similar “large magnitude and stable” antidepressant effects on mean scores and on response and remission rates, they add.

Response and remission rates at 12 months on the QIDS were 79% and 67%, respectively, and 83% and 75%, respectively, on the BDI-II.

“Psilocybin not only produces significant and immediate effects, it also has a long duration, which suggests that it may be a uniquely useful new treatment for depression,” study investigator Roland Griffiths, PhD, founding director of the Center for Psychedelic and Consciousness Research, says in a statement.

“Compared to standard antidepressants, which must be taken for long stretches of time, psilocybin has the potential to enduringly relieve the symptoms of depression with one or two treatments,” Dr. Griffiths adds.
 

Better than ketamine?

There were no serious adverse events judged to be related to psilocybin during long-term follow-up. Depression symptoms were not significantly exacerbated in any participant, and there was no reported use of psilocybin or other psychedelic drug use during the follow-up period.

The finding that two doses of psilocybin provides antidepressant effects that last through at least 12 months is well beyond the duration of effects reported to date with ketamine, the investigators write.

“In general, treatment with ketamine requires a greater number of drug administrations, and it may be more challenging to get durable therapeutic efficacy without repeated dosing. The longer-term risks of repeated ketamine use are not well characterized,” Dr. Gukasyan told this news organization.

She noted that psilocybin and related compounds are still not available for clinical use under the controlled substances act.

“Some clinics are currently offering ketamine, or ketamine-assisted therapy in a manner that resembles the treatment approach used with psilocybin, but there is less high-quality research to support that practice,” she said.

The study was funded in part by a crowdsourced campaign organized by Tim Ferriss and by grants from the Riverstyx Foundation and Dave Morin. Other support was provided by a grant from the National Institutes of Health and the Center for Psychedelic and Consciousness Research. Dr. Gukasyan is an investigator for a multisite trial of psilocybin-assisted therapy for major depressive disorder sponsored by Usona Institute. A complete list of author disclosures is available with the original article.

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

The substantial antidepressant effects of psilocybin-assisted therapy may be durable up to at least 1 year in some patients with major depressive disorder (MDD), new research indicates.

Two doses of psilocybin provided in the context of supportive therapy produced “large and stable” antidepressant effects throughout a 12-month follow-up period, report researchers with the Center for Psychedelic and Consciousness Research at Johns Hopkins University School of Medicine, Baltimore.

“We have not yet collected formal data past 1 year in our sample, [but] some participants in our study have stayed in touch and report continued improvements in mood,” study investigator Natalie Gukasyan, MD, told this news organization.

Johns Hopkins University School of Medicine

Enduring benefit

Preliminary data suggest that psilocybin-assisted treatment produces substantial and rapid antidepressant effects in patients with MDD, but the durability of the effects are unclear.

Investigators examined the efficacy and safety of psilocybin through 12 months in 24 adults who met criteria for a moderate to severe episode of MDD as defined by a score of 17 or greater on the GRID-Hamilton Depression Rating Scale (GRID-HAMD) assessed by blinded clinician raters.

Following 6-8 hours of preparatory meetings, participants received two doses of psilocybin at 20 mg/70 kg and 30 mg/70 kg spaced roughly 2 weeks apart. Psilocybin was administered in a comfortable room under supervision following established safety guidelines.

Depression, as measured by GRID-HAMD, decreased substantially after treatment and remained low through 12 months post-treatment, the investigators report.

For most participants, GRID-HAMD scores decreased from 22.8 at baseline to 8.7 at 1 week, 8.9 at 4 weeks, 9.3 at 3 months, 7 at 6 months, and 7.7 at 12 months after treatment.

“The effect size at 12 months was very large (Cohen d = 2.4). Likewise, high and stable rates of response and remission occurred throughout the follow-up period (75% response and 58% remission at 12 months),” the investigators note.

Two patient-rated measures of depression – the Quick Inventory of Depressive Symptoms (QIDS) and the Beck Depression Inventory II (BDI-II) – showed similar “large magnitude and stable” antidepressant effects on mean scores and on response and remission rates, they add.

Response and remission rates at 12 months on the QIDS were 79% and 67%, respectively, and 83% and 75%, respectively, on the BDI-II.

“Psilocybin not only produces significant and immediate effects, it also has a long duration, which suggests that it may be a uniquely useful new treatment for depression,” study investigator Roland Griffiths, PhD, founding director of the Center for Psychedelic and Consciousness Research, says in a statement.

“Compared to standard antidepressants, which must be taken for long stretches of time, psilocybin has the potential to enduringly relieve the symptoms of depression with one or two treatments,” Dr. Griffiths adds.
 

Better than ketamine?

There were no serious adverse events judged to be related to psilocybin during long-term follow-up. Depression symptoms were not significantly exacerbated in any participant, and there was no reported use of psilocybin or other psychedelic drug use during the follow-up period.

The finding that two doses of psilocybin provides antidepressant effects that last through at least 12 months is well beyond the duration of effects reported to date with ketamine, the investigators write.

“In general, treatment with ketamine requires a greater number of drug administrations, and it may be more challenging to get durable therapeutic efficacy without repeated dosing. The longer-term risks of repeated ketamine use are not well characterized,” Dr. Gukasyan told this news organization.

She noted that psilocybin and related compounds are still not available for clinical use under the controlled substances act.

“Some clinics are currently offering ketamine, or ketamine-assisted therapy in a manner that resembles the treatment approach used with psilocybin, but there is less high-quality research to support that practice,” she said.

The study was funded in part by a crowdsourced campaign organized by Tim Ferriss and by grants from the Riverstyx Foundation and Dave Morin. Other support was provided by a grant from the National Institutes of Health and the Center for Psychedelic and Consciousness Research. Dr. Gukasyan is an investigator for a multisite trial of psilocybin-assisted therapy for major depressive disorder sponsored by Usona Institute. A complete list of author disclosures is available with the original article.

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

The substantial antidepressant effects of psilocybin-assisted therapy may be durable up to at least 1 year in some patients with major depressive disorder (MDD), new research indicates.

Two doses of psilocybin provided in the context of supportive therapy produced “large and stable” antidepressant effects throughout a 12-month follow-up period, report researchers with the Center for Psychedelic and Consciousness Research at Johns Hopkins University School of Medicine, Baltimore.

“We have not yet collected formal data past 1 year in our sample, [but] some participants in our study have stayed in touch and report continued improvements in mood,” study investigator Natalie Gukasyan, MD, told this news organization.

Johns Hopkins University School of Medicine

Enduring benefit

Preliminary data suggest that psilocybin-assisted treatment produces substantial and rapid antidepressant effects in patients with MDD, but the durability of the effects are unclear.

Investigators examined the efficacy and safety of psilocybin through 12 months in 24 adults who met criteria for a moderate to severe episode of MDD as defined by a score of 17 or greater on the GRID-Hamilton Depression Rating Scale (GRID-HAMD) assessed by blinded clinician raters.

Following 6-8 hours of preparatory meetings, participants received two doses of psilocybin at 20 mg/70 kg and 30 mg/70 kg spaced roughly 2 weeks apart. Psilocybin was administered in a comfortable room under supervision following established safety guidelines.

Depression, as measured by GRID-HAMD, decreased substantially after treatment and remained low through 12 months post-treatment, the investigators report.

For most participants, GRID-HAMD scores decreased from 22.8 at baseline to 8.7 at 1 week, 8.9 at 4 weeks, 9.3 at 3 months, 7 at 6 months, and 7.7 at 12 months after treatment.

“The effect size at 12 months was very large (Cohen d = 2.4). Likewise, high and stable rates of response and remission occurred throughout the follow-up period (75% response and 58% remission at 12 months),” the investigators note.

Two patient-rated measures of depression – the Quick Inventory of Depressive Symptoms (QIDS) and the Beck Depression Inventory II (BDI-II) – showed similar “large magnitude and stable” antidepressant effects on mean scores and on response and remission rates, they add.

Response and remission rates at 12 months on the QIDS were 79% and 67%, respectively, and 83% and 75%, respectively, on the BDI-II.

“Psilocybin not only produces significant and immediate effects, it also has a long duration, which suggests that it may be a uniquely useful new treatment for depression,” study investigator Roland Griffiths, PhD, founding director of the Center for Psychedelic and Consciousness Research, says in a statement.

“Compared to standard antidepressants, which must be taken for long stretches of time, psilocybin has the potential to enduringly relieve the symptoms of depression with one or two treatments,” Dr. Griffiths adds.
 

Better than ketamine?

There were no serious adverse events judged to be related to psilocybin during long-term follow-up. Depression symptoms were not significantly exacerbated in any participant, and there was no reported use of psilocybin or other psychedelic drug use during the follow-up period.

The finding that two doses of psilocybin provides antidepressant effects that last through at least 12 months is well beyond the duration of effects reported to date with ketamine, the investigators write.

“In general, treatment with ketamine requires a greater number of drug administrations, and it may be more challenging to get durable therapeutic efficacy without repeated dosing. The longer-term risks of repeated ketamine use are not well characterized,” Dr. Gukasyan told this news organization.

She noted that psilocybin and related compounds are still not available for clinical use under the controlled substances act.

“Some clinics are currently offering ketamine, or ketamine-assisted therapy in a manner that resembles the treatment approach used with psilocybin, but there is less high-quality research to support that practice,” she said.

The study was funded in part by a crowdsourced campaign organized by Tim Ferriss and by grants from the Riverstyx Foundation and Dave Morin. Other support was provided by a grant from the National Institutes of Health and the Center for Psychedelic and Consciousness Research. Dr. Gukasyan is an investigator for a multisite trial of psilocybin-assisted therapy for major depressive disorder sponsored by Usona Institute. A complete list of author disclosures is available with the original article.

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

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.

Childhood-onset insomnia is a chronic problem in 43% of children, based on 15-year follow-up data from approximately 500 individuals.

Difficulty initiating or maintaining sleep (DIMS) is the most frequently reported insomnia symptom in children and teens, but longitudinal data on the trajectory of insomnia symptoms from childhood into adulthood are limited, Julio Fernandez-Mendoza, PhD, of Penn State University, Hershey, and colleagues wrote.

Previous studies have shown varying results, notably on the effect of objective short sleep duration (OSSD), they said. The extent to which the effect of OSSD on insomnia trajectories, and whether OSSD affects the development of insomnia in the transition to adulthood remains uncertain.

In a study published in Pediatrics, the researchers reviewed data from 502 children who enrolled at age 5-12 years between 2000 and 2005. The participants underwent laboratory polysomnography visits at baseline; 421 had a second laboratory visit between 2010 and 2013 (median age, 16 years), and 502 completed a structured self-reported survey between 2018 and 2021 at a median age of 24 years. At the first visit, 118 children met criteria for insomnia, defined as parent reports of often/moderate or very often/severe DIMS and/or use of over-the-counter or prescription sleep medications for DIMS. At the second visit, 120 children met the definition for insomnia.

Among children with insomnia symptoms at baseline, 53.7% had persistence of insomnia symptoms in adolescence and 61.9% had symptoms in young adulthood; 46.3% and 38.1% remitted at these times.

Among children with insomnia symptoms at adolescence, 57.5% and 42.5% had persistence and remittance, respectively, in young adulthood.

In children with insomnia at baseline, therefore, the most frequent developmental trajectory was persistence (43.3%) followed by remission (26.9% since childhood and 11.2% since adolescence) and a waxing and waning pattern (18.6%), the researchers said.

Among children with normal sleep at baseline, 69.7% retained normal sleep patterns in adolescence and 63.3% retained normal sleep in young adulthood; 30.3% and 36.7% developed insomnia in adolescence and young adulthood, respectively.

Overall, adult insomnia was reported by 22.0% and 20.8% of individuals with childhood and adolescent insomnia, respectively. In a multivariate analysis, the odds of adult insomnia were 2.6 times and 5.5 times higher among those with histories of short-sleeping in childhood and adolescence, respectively.

“The most common developmental trajectory for insomnia symptoms was that of persistence from childhood through young adulthood,” the researchers wrote in their discussion of the study.

“These 15-year longitudinal findings across three developmental stages indicate that insomnia symptoms should not be expected to developmentally remit in at least 40% of children and that adolescence is a critical developmental period for the adverse prognosis of the insomnia with short sleep duration phenotype,” they emphasized.

The study findings were limited by several factors including the collection of OSSD and other sleep data via a 1-night, 9-hour polysomnography, which might not be representative of habitual sleep at home, the researchers noted. Other limitations include the lack of polysomnography data to accompany the young adult survey and the inability to validate insomnia in young adults via strict diagnostic criteria.

However, the results reveal that the persistence of childhood insomnia is higher than suggested in previous studies, and that these children and adolescents, especially short sleepers, are at significantly increased risk of adult insomnia, the researchers concluded.

“Early sleep interventions are a priority, as clinicians should not expect insomnia symptoms to developmentally remit in a high proportion of children, although objective sleep measures may be indicated in adolescence to identify those with poorer long-term prognosis,” they said.

Pandemic prompts interest in sleep issues

The current study is important at this time because sleep disruptions in children and adolescents have increased over the course of the COVID-19 pandemic, Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was especially surprised to see that adolescent insomnia will most likely not remit in young adulthood, as she had considered it a disorder of adolescence.

The study highlights the need for early intervention to manage insomnia in children. However, there are several barriers to such intervention. “Parents [of young children] are overwhelmed and just need sleep themselves, so they don’t always have the energy to work on good sleep habits in their children,” she said. Improving sleep habits in adolescents requires overcoming the barrier of the young patients’ attitudes. “For adolescents, they need to buy into the change.”

However, the take-home message for clinicians is that it is important to work to overcome these barriers and improve sleep in children and teens, because the longitudinal data suggest that the problem is “likely to persist and unlikely to remit,” for many, she said.

As for additional studies, “I would like to see more research done on neurologic and psychological causes of insomnia,” Dr. Kinsella said.

The study was supported in part by grants from the National Heart, Lung, and Blood Institute; National Institute of Mental Health; and the National Center for Advancing Translational Sciences of the National Institutes of Health. The researchers had no financial conflicts to disclose. Dr. Kinsella had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

Childhood-onset insomnia is a chronic problem in 43% of children, based on 15-year follow-up data from approximately 500 individuals.

Difficulty initiating or maintaining sleep (DIMS) is the most frequently reported insomnia symptom in children and teens, but longitudinal data on the trajectory of insomnia symptoms from childhood into adulthood are limited, Julio Fernandez-Mendoza, PhD, of Penn State University, Hershey, and colleagues wrote.

Previous studies have shown varying results, notably on the effect of objective short sleep duration (OSSD), they said. The extent to which the effect of OSSD on insomnia trajectories, and whether OSSD affects the development of insomnia in the transition to adulthood remains uncertain.

In a study published in Pediatrics, the researchers reviewed data from 502 children who enrolled at age 5-12 years between 2000 and 2005. The participants underwent laboratory polysomnography visits at baseline; 421 had a second laboratory visit between 2010 and 2013 (median age, 16 years), and 502 completed a structured self-reported survey between 2018 and 2021 at a median age of 24 years. At the first visit, 118 children met criteria for insomnia, defined as parent reports of often/moderate or very often/severe DIMS and/or use of over-the-counter or prescription sleep medications for DIMS. At the second visit, 120 children met the definition for insomnia.

Among children with insomnia symptoms at baseline, 53.7% had persistence of insomnia symptoms in adolescence and 61.9% had symptoms in young adulthood; 46.3% and 38.1% remitted at these times.

Among children with insomnia symptoms at adolescence, 57.5% and 42.5% had persistence and remittance, respectively, in young adulthood.

In children with insomnia at baseline, therefore, the most frequent developmental trajectory was persistence (43.3%) followed by remission (26.9% since childhood and 11.2% since adolescence) and a waxing and waning pattern (18.6%), the researchers said.

Among children with normal sleep at baseline, 69.7% retained normal sleep patterns in adolescence and 63.3% retained normal sleep in young adulthood; 30.3% and 36.7% developed insomnia in adolescence and young adulthood, respectively.

Overall, adult insomnia was reported by 22.0% and 20.8% of individuals with childhood and adolescent insomnia, respectively. In a multivariate analysis, the odds of adult insomnia were 2.6 times and 5.5 times higher among those with histories of short-sleeping in childhood and adolescence, respectively.

“The most common developmental trajectory for insomnia symptoms was that of persistence from childhood through young adulthood,” the researchers wrote in their discussion of the study.

“These 15-year longitudinal findings across three developmental stages indicate that insomnia symptoms should not be expected to developmentally remit in at least 40% of children and that adolescence is a critical developmental period for the adverse prognosis of the insomnia with short sleep duration phenotype,” they emphasized.

The study findings were limited by several factors including the collection of OSSD and other sleep data via a 1-night, 9-hour polysomnography, which might not be representative of habitual sleep at home, the researchers noted. Other limitations include the lack of polysomnography data to accompany the young adult survey and the inability to validate insomnia in young adults via strict diagnostic criteria.

However, the results reveal that the persistence of childhood insomnia is higher than suggested in previous studies, and that these children and adolescents, especially short sleepers, are at significantly increased risk of adult insomnia, the researchers concluded.

“Early sleep interventions are a priority, as clinicians should not expect insomnia symptoms to developmentally remit in a high proportion of children, although objective sleep measures may be indicated in adolescence to identify those with poorer long-term prognosis,” they said.

Pandemic prompts interest in sleep issues

The current study is important at this time because sleep disruptions in children and adolescents have increased over the course of the COVID-19 pandemic, Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was especially surprised to see that adolescent insomnia will most likely not remit in young adulthood, as she had considered it a disorder of adolescence.

The study highlights the need for early intervention to manage insomnia in children. However, there are several barriers to such intervention. “Parents [of young children] are overwhelmed and just need sleep themselves, so they don’t always have the energy to work on good sleep habits in their children,” she said. Improving sleep habits in adolescents requires overcoming the barrier of the young patients’ attitudes. “For adolescents, they need to buy into the change.”

However, the take-home message for clinicians is that it is important to work to overcome these barriers and improve sleep in children and teens, because the longitudinal data suggest that the problem is “likely to persist and unlikely to remit,” for many, she said.

As for additional studies, “I would like to see more research done on neurologic and psychological causes of insomnia,” Dr. Kinsella said.

The study was supported in part by grants from the National Heart, Lung, and Blood Institute; National Institute of Mental Health; and the National Center for Advancing Translational Sciences of the National Institutes of Health. The researchers had no financial conflicts to disclose. Dr. Kinsella had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

Childhood-onset insomnia is a chronic problem in 43% of children, based on 15-year follow-up data from approximately 500 individuals.

Difficulty initiating or maintaining sleep (DIMS) is the most frequently reported insomnia symptom in children and teens, but longitudinal data on the trajectory of insomnia symptoms from childhood into adulthood are limited, Julio Fernandez-Mendoza, PhD, of Penn State University, Hershey, and colleagues wrote.

Previous studies have shown varying results, notably on the effect of objective short sleep duration (OSSD), they said. The extent to which the effect of OSSD on insomnia trajectories, and whether OSSD affects the development of insomnia in the transition to adulthood remains uncertain.

In a study published in Pediatrics, the researchers reviewed data from 502 children who enrolled at age 5-12 years between 2000 and 2005. The participants underwent laboratory polysomnography visits at baseline; 421 had a second laboratory visit between 2010 and 2013 (median age, 16 years), and 502 completed a structured self-reported survey between 2018 and 2021 at a median age of 24 years. At the first visit, 118 children met criteria for insomnia, defined as parent reports of often/moderate or very often/severe DIMS and/or use of over-the-counter or prescription sleep medications for DIMS. At the second visit, 120 children met the definition for insomnia.

Among children with insomnia symptoms at baseline, 53.7% had persistence of insomnia symptoms in adolescence and 61.9% had symptoms in young adulthood; 46.3% and 38.1% remitted at these times.

Among children with insomnia symptoms at adolescence, 57.5% and 42.5% had persistence and remittance, respectively, in young adulthood.

In children with insomnia at baseline, therefore, the most frequent developmental trajectory was persistence (43.3%) followed by remission (26.9% since childhood and 11.2% since adolescence) and a waxing and waning pattern (18.6%), the researchers said.

Among children with normal sleep at baseline, 69.7% retained normal sleep patterns in adolescence and 63.3% retained normal sleep in young adulthood; 30.3% and 36.7% developed insomnia in adolescence and young adulthood, respectively.

Overall, adult insomnia was reported by 22.0% and 20.8% of individuals with childhood and adolescent insomnia, respectively. In a multivariate analysis, the odds of adult insomnia were 2.6 times and 5.5 times higher among those with histories of short-sleeping in childhood and adolescence, respectively.

“The most common developmental trajectory for insomnia symptoms was that of persistence from childhood through young adulthood,” the researchers wrote in their discussion of the study.

“These 15-year longitudinal findings across three developmental stages indicate that insomnia symptoms should not be expected to developmentally remit in at least 40% of children and that adolescence is a critical developmental period for the adverse prognosis of the insomnia with short sleep duration phenotype,” they emphasized.

The study findings were limited by several factors including the collection of OSSD and other sleep data via a 1-night, 9-hour polysomnography, which might not be representative of habitual sleep at home, the researchers noted. Other limitations include the lack of polysomnography data to accompany the young adult survey and the inability to validate insomnia in young adults via strict diagnostic criteria.

However, the results reveal that the persistence of childhood insomnia is higher than suggested in previous studies, and that these children and adolescents, especially short sleepers, are at significantly increased risk of adult insomnia, the researchers concluded.

“Early sleep interventions are a priority, as clinicians should not expect insomnia symptoms to developmentally remit in a high proportion of children, although objective sleep measures may be indicated in adolescence to identify those with poorer long-term prognosis,” they said.

Pandemic prompts interest in sleep issues

The current study is important at this time because sleep disruptions in children and adolescents have increased over the course of the COVID-19 pandemic, Karalyn Kinsella, MD, a pediatrician in private practice in Cheshire, Conn., said in an interview.

Dr. Kinsella said she was especially surprised to see that adolescent insomnia will most likely not remit in young adulthood, as she had considered it a disorder of adolescence.

The study highlights the need for early intervention to manage insomnia in children. However, there are several barriers to such intervention. “Parents [of young children] are overwhelmed and just need sleep themselves, so they don’t always have the energy to work on good sleep habits in their children,” she said. Improving sleep habits in adolescents requires overcoming the barrier of the young patients’ attitudes. “For adolescents, they need to buy into the change.”

However, the take-home message for clinicians is that it is important to work to overcome these barriers and improve sleep in children and teens, because the longitudinal data suggest that the problem is “likely to persist and unlikely to remit,” for many, she said.

As for additional studies, “I would like to see more research done on neurologic and psychological causes of insomnia,” Dr. Kinsella said.

The study was supported in part by grants from the National Heart, Lung, and Blood Institute; National Institute of Mental Health; and the National Center for Advancing Translational Sciences of the National Institutes of Health. The researchers had no financial conflicts to disclose. Dr. Kinsella had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

Loss of smell. Fatigue. Mental health challenges. Difficulty breathing and other lower respiratory diseases. Fluid and electrolyte disorders. Cardiac dysrhythmia and other nonspecific chest pains. Trouble with urination. Diabetes?

Statistically, these are the conditions that defined post-acute SARS-CoV-2 (PASC) infection, or long COVID, for 28,118 people who tested positive for SARS-CoV-2 by PCR before the Omicron wave. The data, presented at the Conference on Retroviruses and Opportunistic Infections, can be used to guide diagnoses of long COVID, and may be the guide soon at Kaiser Permanente offices, Michael Horberg, MD, executive director of research, community benefit, and Medicaid strategy at the Mid-Atlantic Permanente Research Institute, said in an interview.

Medscape Illustration/Dreamstime/Getty Images

More than 1 in 10

About one in four people who’d had COVID reported symptoms they thought might be long COVID, but through the analysis, they found that only 13% actually developed new conditions that could be categorized as long COVID.

“When you start controlling for all those chronic conditions, a lot of symptoms fall out,” Dr. Horberg told this news organization. “Plus, when you start comparing to the COVID-negative population, especially in the first 30 days of your positive diagnosis, actually, the COVID-negative patients have essentially almost the same amount, sometimes more.”

For instance, in the first month after diagnosis, though people with COVID reported anxiety symptoms after their diagnoses, people who’d never had COVID were coming in even more often with that symptom. And although gastrointestinal disorders were common in people who’d had COVID, they were just as likely in people who had not. Nausea and vomiting were actually 19% more common in people without COVID than in those with it. And people without COVID were nearly twice as likely to develop nutritional and endocrine disorders.

In the longer run, people who’d had COVID were 25% more likely to develop dysrhythmias, 20% more likely to develop diabetes, 60% more likely to develop fatigue, 21% more likely to develop genitourinary conditions, 39% more likely to develop chest pains, and a full 3.88 times more likely to develop trouble with olfaction.

And although people who’d had COVID were numerically 5% more likely to develop both abdominal pain and vertigo, 4% more likely to develop nervous system disorders, and 1% more likely to develop anxiety disorders longer term, none of those reached statistical significance.

The only diagnosis that doesn’t make sense to Dr. Horberg is diabetes.

“At this point I don’t think it’s been fully explained,” Dr. Horberg said. “I don’t think COVID is affecting the pancreas. But I do think that these are people who probably sought medical care, who hadn’t been seeking medical care and that the findings of diabetes were incidental diagnoses.”

Still, Dr. Horberg isn’t saying never on that. “As they say, more research is needed,” he added.
 

Ready to define long COVID?

As an intensive care unit physician and pulmonologist, Michael Risbano, MD, assistant professor of medicine at the University of Pittsburgh, has seen a lot of COVID. As the co-manager of the medical system’s post-COVID clinic, he’s also seen a lot of people coming in for help with what could be long COVID. When he saw the data from Dr. Horberg’s presentation, at first it seemed to confirm what he’d already known. But then he looked further.

“Well, this is actually making sense,” Dr. Risbano thought. At his clinic, it’s been an ongoing challenge to tease out what symptoms existed before COVID. Unlike Kaiser, the University of Pittsburgh Medical Center is not a closed system.

“We know some people who tend to get sick [with COVID] have some underlying medical issues already,” Dr. Risbano said in an interview. “But we don’t always have a good baseline as to what they were like beforehand, so we don’t always know what’s changed.”

He said the study design here, though retrospective and based on chart review rather than prospective observation, starts to put symptoms into the larger context of a patient’s life. And the diabetes association really stood out to him. He recalled one patient who, when she was admitted to the ICU, had a hemoglobin A1c that was totally normal. But when that patient returned a few months later, her blood sugar had skyrocketed.

“It was sky-high, like 13, and she was in diabetic ketoacidosis,” he said. “I know that’s an N of 1, but my wife is a dietitian and a case manager, and she’s having a lot of people coming in with a new diagnosis of diabetes.”

Still, he said he’s not sure that the conditions the study identified should be the basis for a definition of long COVID.

“I don’t know if you can come up with a definition out of this,” he said. “But I think this is at least helpful in telling us what disease states are different pre- and post-COVID, and what sorts of diagnoses clinicians should look for when a patient comes in after having a COVID diagnosis.”

Dr. Horberg and Dr. Risbano have disclosed no relevant financial relationships. The study was funded by the National Institute of Allergy and Infectious Diseases at the National Institutes of Health.

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

Loss of smell. Fatigue. Mental health challenges. Difficulty breathing and other lower respiratory diseases. Fluid and electrolyte disorders. Cardiac dysrhythmia and other nonspecific chest pains. Trouble with urination. Diabetes?

Statistically, these are the conditions that defined post-acute SARS-CoV-2 (PASC) infection, or long COVID, for 28,118 people who tested positive for SARS-CoV-2 by PCR before the Omicron wave. The data, presented at the Conference on Retroviruses and Opportunistic Infections, can be used to guide diagnoses of long COVID, and may be the guide soon at Kaiser Permanente offices, Michael Horberg, MD, executive director of research, community benefit, and Medicaid strategy at the Mid-Atlantic Permanente Research Institute, said in an interview.

Medscape Illustration/Dreamstime/Getty Images

More than 1 in 10

About one in four people who’d had COVID reported symptoms they thought might be long COVID, but through the analysis, they found that only 13% actually developed new conditions that could be categorized as long COVID.

“When you start controlling for all those chronic conditions, a lot of symptoms fall out,” Dr. Horberg told this news organization. “Plus, when you start comparing to the COVID-negative population, especially in the first 30 days of your positive diagnosis, actually, the COVID-negative patients have essentially almost the same amount, sometimes more.”

For instance, in the first month after diagnosis, though people with COVID reported anxiety symptoms after their diagnoses, people who’d never had COVID were coming in even more often with that symptom. And although gastrointestinal disorders were common in people who’d had COVID, they were just as likely in people who had not. Nausea and vomiting were actually 19% more common in people without COVID than in those with it. And people without COVID were nearly twice as likely to develop nutritional and endocrine disorders.

In the longer run, people who’d had COVID were 25% more likely to develop dysrhythmias, 20% more likely to develop diabetes, 60% more likely to develop fatigue, 21% more likely to develop genitourinary conditions, 39% more likely to develop chest pains, and a full 3.88 times more likely to develop trouble with olfaction.

And although people who’d had COVID were numerically 5% more likely to develop both abdominal pain and vertigo, 4% more likely to develop nervous system disorders, and 1% more likely to develop anxiety disorders longer term, none of those reached statistical significance.

The only diagnosis that doesn’t make sense to Dr. Horberg is diabetes.

“At this point I don’t think it’s been fully explained,” Dr. Horberg said. “I don’t think COVID is affecting the pancreas. But I do think that these are people who probably sought medical care, who hadn’t been seeking medical care and that the findings of diabetes were incidental diagnoses.”

Still, Dr. Horberg isn’t saying never on that. “As they say, more research is needed,” he added.
 

Ready to define long COVID?

As an intensive care unit physician and pulmonologist, Michael Risbano, MD, assistant professor of medicine at the University of Pittsburgh, has seen a lot of COVID. As the co-manager of the medical system’s post-COVID clinic, he’s also seen a lot of people coming in for help with what could be long COVID. When he saw the data from Dr. Horberg’s presentation, at first it seemed to confirm what he’d already known. But then he looked further.

“Well, this is actually making sense,” Dr. Risbano thought. At his clinic, it’s been an ongoing challenge to tease out what symptoms existed before COVID. Unlike Kaiser, the University of Pittsburgh Medical Center is not a closed system.

“We know some people who tend to get sick [with COVID] have some underlying medical issues already,” Dr. Risbano said in an interview. “But we don’t always have a good baseline as to what they were like beforehand, so we don’t always know what’s changed.”

He said the study design here, though retrospective and based on chart review rather than prospective observation, starts to put symptoms into the larger context of a patient’s life. And the diabetes association really stood out to him. He recalled one patient who, when she was admitted to the ICU, had a hemoglobin A1c that was totally normal. But when that patient returned a few months later, her blood sugar had skyrocketed.

“It was sky-high, like 13, and she was in diabetic ketoacidosis,” he said. “I know that’s an N of 1, but my wife is a dietitian and a case manager, and she’s having a lot of people coming in with a new diagnosis of diabetes.”

Still, he said he’s not sure that the conditions the study identified should be the basis for a definition of long COVID.

“I don’t know if you can come up with a definition out of this,” he said. “But I think this is at least helpful in telling us what disease states are different pre- and post-COVID, and what sorts of diagnoses clinicians should look for when a patient comes in after having a COVID diagnosis.”

Dr. Horberg and Dr. Risbano have disclosed no relevant financial relationships. The study was funded by the National Institute of Allergy and Infectious Diseases at the National Institutes of Health.

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

Loss of smell. Fatigue. Mental health challenges. Difficulty breathing and other lower respiratory diseases. Fluid and electrolyte disorders. Cardiac dysrhythmia and other nonspecific chest pains. Trouble with urination. Diabetes?

Statistically, these are the conditions that defined post-acute SARS-CoV-2 (PASC) infection, or long COVID, for 28,118 people who tested positive for SARS-CoV-2 by PCR before the Omicron wave. The data, presented at the Conference on Retroviruses and Opportunistic Infections, can be used to guide diagnoses of long COVID, and may be the guide soon at Kaiser Permanente offices, Michael Horberg, MD, executive director of research, community benefit, and Medicaid strategy at the Mid-Atlantic Permanente Research Institute, said in an interview.

Medscape Illustration/Dreamstime/Getty Images

More than 1 in 10

About one in four people who’d had COVID reported symptoms they thought might be long COVID, but through the analysis, they found that only 13% actually developed new conditions that could be categorized as long COVID.

“When you start controlling for all those chronic conditions, a lot of symptoms fall out,” Dr. Horberg told this news organization. “Plus, when you start comparing to the COVID-negative population, especially in the first 30 days of your positive diagnosis, actually, the COVID-negative patients have essentially almost the same amount, sometimes more.”

For instance, in the first month after diagnosis, though people with COVID reported anxiety symptoms after their diagnoses, people who’d never had COVID were coming in even more often with that symptom. And although gastrointestinal disorders were common in people who’d had COVID, they were just as likely in people who had not. Nausea and vomiting were actually 19% more common in people without COVID than in those with it. And people without COVID were nearly twice as likely to develop nutritional and endocrine disorders.

In the longer run, people who’d had COVID were 25% more likely to develop dysrhythmias, 20% more likely to develop diabetes, 60% more likely to develop fatigue, 21% more likely to develop genitourinary conditions, 39% more likely to develop chest pains, and a full 3.88 times more likely to develop trouble with olfaction.

And although people who’d had COVID were numerically 5% more likely to develop both abdominal pain and vertigo, 4% more likely to develop nervous system disorders, and 1% more likely to develop anxiety disorders longer term, none of those reached statistical significance.

The only diagnosis that doesn’t make sense to Dr. Horberg is diabetes.

“At this point I don’t think it’s been fully explained,” Dr. Horberg said. “I don’t think COVID is affecting the pancreas. But I do think that these are people who probably sought medical care, who hadn’t been seeking medical care and that the findings of diabetes were incidental diagnoses.”

Still, Dr. Horberg isn’t saying never on that. “As they say, more research is needed,” he added.
 

Ready to define long COVID?

As an intensive care unit physician and pulmonologist, Michael Risbano, MD, assistant professor of medicine at the University of Pittsburgh, has seen a lot of COVID. As the co-manager of the medical system’s post-COVID clinic, he’s also seen a lot of people coming in for help with what could be long COVID. When he saw the data from Dr. Horberg’s presentation, at first it seemed to confirm what he’d already known. But then he looked further.

“Well, this is actually making sense,” Dr. Risbano thought. At his clinic, it’s been an ongoing challenge to tease out what symptoms existed before COVID. Unlike Kaiser, the University of Pittsburgh Medical Center is not a closed system.

“We know some people who tend to get sick [with COVID] have some underlying medical issues already,” Dr. Risbano said in an interview. “But we don’t always have a good baseline as to what they were like beforehand, so we don’t always know what’s changed.”

He said the study design here, though retrospective and based on chart review rather than prospective observation, starts to put symptoms into the larger context of a patient’s life. And the diabetes association really stood out to him. He recalled one patient who, when she was admitted to the ICU, had a hemoglobin A1c that was totally normal. But when that patient returned a few months later, her blood sugar had skyrocketed.

“It was sky-high, like 13, and she was in diabetic ketoacidosis,” he said. “I know that’s an N of 1, but my wife is a dietitian and a case manager, and she’s having a lot of people coming in with a new diagnosis of diabetes.”

Still, he said he’s not sure that the conditions the study identified should be the basis for a definition of long COVID.

“I don’t know if you can come up with a definition out of this,” he said. “But I think this is at least helpful in telling us what disease states are different pre- and post-COVID, and what sorts of diagnoses clinicians should look for when a patient comes in after having a COVID diagnosis.”

Dr. Horberg and Dr. Risbano have disclosed no relevant financial relationships. The study was funded by the National Institute of Allergy and Infectious Diseases at the National Institutes of Health.

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

The insula and frontal cortex are involved in the development of anxiety in adults with Parkinson’s disease, according to imaging data from 108 individuals.

Anxiety occurs in approximately 31% of Parkinson’s disease patients, but the underlying mechanisms are not well understood, wrote Nacim Betrouni, MD, of the University of Lille, France, and colleagues. Previous research has shown associations between anxiety severity and increased activity in brain areas of emotion processing, based on MRI and positron emission tomography, but electroencephalography (EEG) has not been widely used, they said.

In a study published in Neurophysiologie Clinique , the researchers compared EEG spectral patterns and functional resting-state networks in Parkinson’s disease patients with and without anxiety disorders. They identified data from 33 PD patients who met criteria for anxiety, and 75 without anxiety. The average age of the patients was 65 years, and the average disease duration was 9.76 years in anxiety patients and 7.83 years in patients without anxiety.

Overall, findings on spectral analysis showed an association between anxiety and changes in the alpha activity in the right frontal cortex, the researchers said. They also found the relative power in the alpha1 frequency band in the right prefrontal cortex was lower in patients with anxiety than without; this finding was significantly associated with avoidance behavior on a subscale of the Parkinson’s Anxiety Scale (PAS_C, P = .035). A trend toward a significant association with episodic anxiety was noted (PAS_B, P = .06), but no significant associations were noted for persistent anxiety or the total scale score.

The imaging also showed an increased connectivity between the insula and the posterior cingulate cortex in several frequency bands in the anxiety patients, the researchers said. “The increased connectivity observed here may be a marker of the maintenance of avoidance behaviors that characterize anxiety in PD,” they noted.

The study findings were limited by several factors including the small and unbalanced proportion of the study population with anxiety, and the consideration of global anxiety only, without distinguishing anxiety subtypes, the researchers noted. Another limitation was the use only of static EEC patterns, without using dynamic patterns, they said.

The study is the first known to use EEG to explore the mechanisms of PD-related anxiety and “the reported results provide new insights, supporting findings of previous studies using other modalities, mainly rs-fMRI, and show that EEG could be a relevant technique to explore these disorders,” the researchers wrote.

However, more research is needed to confirm the findings in patients with a larger panel of anxiety disorders, they concluded.

The study was supported by the Michael J. Fox Foundation. The researchers had no financial conflicts to disclose.

The insula and frontal cortex are involved in the development of anxiety in adults with Parkinson’s disease, according to imaging data from 108 individuals.

Anxiety occurs in approximately 31% of Parkinson’s disease patients, but the underlying mechanisms are not well understood, wrote Nacim Betrouni, MD, of the University of Lille, France, and colleagues. Previous research has shown associations between anxiety severity and increased activity in brain areas of emotion processing, based on MRI and positron emission tomography, but electroencephalography (EEG) has not been widely used, they said.

In a study published in Neurophysiologie Clinique , the researchers compared EEG spectral patterns and functional resting-state networks in Parkinson’s disease patients with and without anxiety disorders. They identified data from 33 PD patients who met criteria for anxiety, and 75 without anxiety. The average age of the patients was 65 years, and the average disease duration was 9.76 years in anxiety patients and 7.83 years in patients without anxiety.

Overall, findings on spectral analysis showed an association between anxiety and changes in the alpha activity in the right frontal cortex, the researchers said. They also found the relative power in the alpha1 frequency band in the right prefrontal cortex was lower in patients with anxiety than without; this finding was significantly associated with avoidance behavior on a subscale of the Parkinson’s Anxiety Scale (PAS_C, P = .035). A trend toward a significant association with episodic anxiety was noted (PAS_B, P = .06), but no significant associations were noted for persistent anxiety or the total scale score.

The imaging also showed an increased connectivity between the insula and the posterior cingulate cortex in several frequency bands in the anxiety patients, the researchers said. “The increased connectivity observed here may be a marker of the maintenance of avoidance behaviors that characterize anxiety in PD,” they noted.

The study findings were limited by several factors including the small and unbalanced proportion of the study population with anxiety, and the consideration of global anxiety only, without distinguishing anxiety subtypes, the researchers noted. Another limitation was the use only of static EEC patterns, without using dynamic patterns, they said.

The study is the first known to use EEG to explore the mechanisms of PD-related anxiety and “the reported results provide new insights, supporting findings of previous studies using other modalities, mainly rs-fMRI, and show that EEG could be a relevant technique to explore these disorders,” the researchers wrote.

However, more research is needed to confirm the findings in patients with a larger panel of anxiety disorders, they concluded.

The study was supported by the Michael J. Fox Foundation. The researchers had no financial conflicts to disclose.

The insula and frontal cortex are involved in the development of anxiety in adults with Parkinson’s disease, according to imaging data from 108 individuals.

Anxiety occurs in approximately 31% of Parkinson’s disease patients, but the underlying mechanisms are not well understood, wrote Nacim Betrouni, MD, of the University of Lille, France, and colleagues. Previous research has shown associations between anxiety severity and increased activity in brain areas of emotion processing, based on MRI and positron emission tomography, but electroencephalography (EEG) has not been widely used, they said.

In a study published in Neurophysiologie Clinique , the researchers compared EEG spectral patterns and functional resting-state networks in Parkinson’s disease patients with and without anxiety disorders. They identified data from 33 PD patients who met criteria for anxiety, and 75 without anxiety. The average age of the patients was 65 years, and the average disease duration was 9.76 years in anxiety patients and 7.83 years in patients without anxiety.

Overall, findings on spectral analysis showed an association between anxiety and changes in the alpha activity in the right frontal cortex, the researchers said. They also found the relative power in the alpha1 frequency band in the right prefrontal cortex was lower in patients with anxiety than without; this finding was significantly associated with avoidance behavior on a subscale of the Parkinson’s Anxiety Scale (PAS_C, P = .035). A trend toward a significant association with episodic anxiety was noted (PAS_B, P = .06), but no significant associations were noted for persistent anxiety or the total scale score.

The imaging also showed an increased connectivity between the insula and the posterior cingulate cortex in several frequency bands in the anxiety patients, the researchers said. “The increased connectivity observed here may be a marker of the maintenance of avoidance behaviors that characterize anxiety in PD,” they noted.

The study findings were limited by several factors including the small and unbalanced proportion of the study population with anxiety, and the consideration of global anxiety only, without distinguishing anxiety subtypes, the researchers noted. Another limitation was the use only of static EEC patterns, without using dynamic patterns, they said.

The study is the first known to use EEG to explore the mechanisms of PD-related anxiety and “the reported results provide new insights, supporting findings of previous studies using other modalities, mainly rs-fMRI, and show that EEG could be a relevant technique to explore these disorders,” the researchers wrote.

However, more research is needed to confirm the findings in patients with a larger panel of anxiety disorders, they concluded.

The study was supported by the Michael J. Fox Foundation. The researchers had no financial conflicts to disclose.

About 73% of Americans are now immune to the Omicron variant, which could increase to 80% by mid-March, a university health institute says.

About half of eligible Americans have received booster shots, and about 80 million confirmed COVID-19 infections have been reported. Many more infections have occurred but haven’t been officially recorded, The Associated Press reported.

The high percentage of immunity from vaccination and previous infection tends to prevent or shorten new illnesses and reduce the amount of virus circulating overall. Health experts are now discussing whether the number is high enough to stop new waves or reduce the burden on hospitals.

“I am optimistic even if we have a surge in summer, cases will go up, but hospitalizations and deaths will not,” Ali Mokdad, PhD, a professor of health metrics sciences at the University of Washington in Seattle, told the AP.

Dr. Mokdad works on COVID-19 forecasting for the university’s Institute for Health Metrics and Evaluation, which has been a reliable model during the pandemic. Dr. Mokdad calculated the 73% number for the AP.

“We have changed,” he said. “We have been exposed to this virus and we know how to deal with it.”

The United States is now reporting about 125,000 new cases per day, according to the data tracker from the New York Times, marking a 68% decrease from the past 2 weeks. Hospitalizations are also down 39%, and about 2,300 new deaths are being reported daily, marking a 13% decline.

There will be more outbreaks as new variants emerge, immunity wanes, and some people remain unvaccinated, Dr. Mokdad said. But the coronavirus is no longer new, and the entire population is no longer “immunologically naive.” Scientists are now trying to understand how long booster protection will last against Omicron and how many people have been infected who had mild or no symptoms that were never reported.

By the end of the Omicron surge, about three out of four people in the United States will have been infected, Shaun Truelove, PhD, an epidemiologist and disease modeler at Johns Hopkins University, told the AP.

“We know it’s a huge proportion of the population,” he said. “This varies a lot by location, and in some areas, we expect the number infected to be closer to one in two.”

That means different regions and groups of people have different levels of protection and risk. In Virginia, for instance, disease modelers estimate that about 45% of residents have the highest level of immunity by being vaccinated and boosted or vaccinated with a recent Omicron infection. Another 47% have immunity that has waned somewhat.

“That’s going to be a nice shield of armor for our population as a whole,” Bryan Lewis, PhD, an epidemiologist who leads the University of Virginia’s COVID-19 modeling team, told the outlet. “If we do get to very low case rates, we certainly can ease back on some of these restrictions.”

About 7% of Virginians are considered the most vulnerable because they were never vaccinated or infected, he noted. Nationwide, about 80 million Americans are still vulnerable, the AP reported.

“The 26% who could still get Omicron right now have to be very careful,” Dr. Mokdad said.

The percentages will continue to change as immunity wanes and new variants circulate in the country. For now, the Institute for Health Metrics and Evaluation model estimates that about 63% to 81% of Americans are protected.

“We’ve reached a much better position for the coming months, but with waning immunity, we shouldn’t take it for granted,” Dr. Mokdad said.

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

About 73% of Americans are now immune to the Omicron variant, which could increase to 80% by mid-March, a university health institute says.

About half of eligible Americans have received booster shots, and about 80 million confirmed COVID-19 infections have been reported. Many more infections have occurred but haven’t been officially recorded, The Associated Press reported.

The high percentage of immunity from vaccination and previous infection tends to prevent or shorten new illnesses and reduce the amount of virus circulating overall. Health experts are now discussing whether the number is high enough to stop new waves or reduce the burden on hospitals.

“I am optimistic even if we have a surge in summer, cases will go up, but hospitalizations and deaths will not,” Ali Mokdad, PhD, a professor of health metrics sciences at the University of Washington in Seattle, told the AP.

Dr. Mokdad works on COVID-19 forecasting for the university’s Institute for Health Metrics and Evaluation, which has been a reliable model during the pandemic. Dr. Mokdad calculated the 73% number for the AP.

“We have changed,” he said. “We have been exposed to this virus and we know how to deal with it.”

The United States is now reporting about 125,000 new cases per day, according to the data tracker from the New York Times, marking a 68% decrease from the past 2 weeks. Hospitalizations are also down 39%, and about 2,300 new deaths are being reported daily, marking a 13% decline.

There will be more outbreaks as new variants emerge, immunity wanes, and some people remain unvaccinated, Dr. Mokdad said. But the coronavirus is no longer new, and the entire population is no longer “immunologically naive.” Scientists are now trying to understand how long booster protection will last against Omicron and how many people have been infected who had mild or no symptoms that were never reported.

By the end of the Omicron surge, about three out of four people in the United States will have been infected, Shaun Truelove, PhD, an epidemiologist and disease modeler at Johns Hopkins University, told the AP.

“We know it’s a huge proportion of the population,” he said. “This varies a lot by location, and in some areas, we expect the number infected to be closer to one in two.”

That means different regions and groups of people have different levels of protection and risk. In Virginia, for instance, disease modelers estimate that about 45% of residents have the highest level of immunity by being vaccinated and boosted or vaccinated with a recent Omicron infection. Another 47% have immunity that has waned somewhat.

“That’s going to be a nice shield of armor for our population as a whole,” Bryan Lewis, PhD, an epidemiologist who leads the University of Virginia’s COVID-19 modeling team, told the outlet. “If we do get to very low case rates, we certainly can ease back on some of these restrictions.”

About 7% of Virginians are considered the most vulnerable because they were never vaccinated or infected, he noted. Nationwide, about 80 million Americans are still vulnerable, the AP reported.

“The 26% who could still get Omicron right now have to be very careful,” Dr. Mokdad said.

The percentages will continue to change as immunity wanes and new variants circulate in the country. For now, the Institute for Health Metrics and Evaluation model estimates that about 63% to 81% of Americans are protected.

“We’ve reached a much better position for the coming months, but with waning immunity, we shouldn’t take it for granted,” Dr. Mokdad said.

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

About 73% of Americans are now immune to the Omicron variant, which could increase to 80% by mid-March, a university health institute says.

About half of eligible Americans have received booster shots, and about 80 million confirmed COVID-19 infections have been reported. Many more infections have occurred but haven’t been officially recorded, The Associated Press reported.

The high percentage of immunity from vaccination and previous infection tends to prevent or shorten new illnesses and reduce the amount of virus circulating overall. Health experts are now discussing whether the number is high enough to stop new waves or reduce the burden on hospitals.

“I am optimistic even if we have a surge in summer, cases will go up, but hospitalizations and deaths will not,” Ali Mokdad, PhD, a professor of health metrics sciences at the University of Washington in Seattle, told the AP.

Dr. Mokdad works on COVID-19 forecasting for the university’s Institute for Health Metrics and Evaluation, which has been a reliable model during the pandemic. Dr. Mokdad calculated the 73% number for the AP.

“We have changed,” he said. “We have been exposed to this virus and we know how to deal with it.”

The United States is now reporting about 125,000 new cases per day, according to the data tracker from the New York Times, marking a 68% decrease from the past 2 weeks. Hospitalizations are also down 39%, and about 2,300 new deaths are being reported daily, marking a 13% decline.

There will be more outbreaks as new variants emerge, immunity wanes, and some people remain unvaccinated, Dr. Mokdad said. But the coronavirus is no longer new, and the entire population is no longer “immunologically naive.” Scientists are now trying to understand how long booster protection will last against Omicron and how many people have been infected who had mild or no symptoms that were never reported.

By the end of the Omicron surge, about three out of four people in the United States will have been infected, Shaun Truelove, PhD, an epidemiologist and disease modeler at Johns Hopkins University, told the AP.

“We know it’s a huge proportion of the population,” he said. “This varies a lot by location, and in some areas, we expect the number infected to be closer to one in two.”

That means different regions and groups of people have different levels of protection and risk. In Virginia, for instance, disease modelers estimate that about 45% of residents have the highest level of immunity by being vaccinated and boosted or vaccinated with a recent Omicron infection. Another 47% have immunity that has waned somewhat.

“That’s going to be a nice shield of armor for our population as a whole,” Bryan Lewis, PhD, an epidemiologist who leads the University of Virginia’s COVID-19 modeling team, told the outlet. “If we do get to very low case rates, we certainly can ease back on some of these restrictions.”

About 7% of Virginians are considered the most vulnerable because they were never vaccinated or infected, he noted. Nationwide, about 80 million Americans are still vulnerable, the AP reported.

“The 26% who could still get Omicron right now have to be very careful,” Dr. Mokdad said.

The percentages will continue to change as immunity wanes and new variants circulate in the country. For now, the Institute for Health Metrics and Evaluation model estimates that about 63% to 81% of Americans are protected.

“We’ve reached a much better position for the coming months, but with waning immunity, we shouldn’t take it for granted,” Dr. Mokdad said.

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