MDedge Psychiatry

Social distancing and the shutdown of services like physical and occupational therapy because of COVID-19 have had a profound impact on the mental health of people with Parkinson’s disease, a team of researchers in the Netherlands reported, but they also identified meaningful targets for intervention.

Lisanne Dommershuijsen, MSc, a PhD candidate and researcher in epidemiology at the Erasmus University Medical Center in Rotterdam, the Netherlands, reported on a cross-sectional study of 833 participants with Parkinson’s disease in the PRIME-NL study at the International Congress of Parkinson’s Disease and Movement Disorders. The average age of participants was 70.2 and 38% were women.

“We studied targeted hypothetical interventions on COVID-19 stressors in people with Parkinson’s disease,” Ms. Dommershuijsen said. “This disruption in normal life caused considerable psychological stress in community-dwelling individuals. People with Parkinson’s disease might be especially vulnerable to this stress.

“For instance, because reduced levels of physical activity have worsened symptoms or because people with Parkinson’s often have difficulty with flexible [adaptations] to drastic and rapid changes in daily routines, such as those introduced by the COVID-19 pandemic, previous studies found that COVID-19 worsened depression and anxiety symptoms and reduced quality of life (QOL) in people with Parkinson’s disease,” Ms. Dommershuijsen said.

Hence, the goal of the study was to identify the most vulnerable subgroups in the Parkinson’s population and to suggest potential interventions to ameliorate these impacts, she said.

The study focused on eight different stressors that emerged in the pandemic: access to care, medicine and nursing services; loss of social contact; canceled social events; tension or conflict in the home; inability to perform physical activity or relax; and COVID-19 symptoms. The outcomes of interest were depression, as measured with the Beck Depression Inventory (BDI); anxiety, as measured with the Spielberger State-Trait Anxiety Inventory (STAI); and QOL, with the Parkinson’s Disease Quality of Life Questionnaire. The aggregate resulted in a scale of 0-40, with the mean stressor score in the study being 9.6, Ms. Dommershuijsen said.

The BDI and STAI scores for social stressors – loss of social contacts, social events canceled and tension or conflict at home – exceeded those for the so-called care stressors – problems accessing care, medication or nursing – she said, although all eight stressors yielded higher BDI and STAI scores across the board.
 

Vulnerable subgroups

“When we looked at vulnerable subgroups of people with Parkinson’s disease, we found more pronounced associations between the COVID-19 stress and mental health in women, in highly educated participants, and in participants with advanced Parkinson’s disease,” Ms. Dommershuijsen said. The impact on women and people with advanced disease is explainable, Ms. Dommershuijsen added in an interview; the former because depressive symptoms are more common in women, and the latter because loss of access to care impacts mental wellness.

“The finding that social stressors were more related to anxiety in highly educated people was surprising to us, given that depression in general is more common in people with a lower education,” she said in an interview. “One previous study of the general population suggested this might be related to expectations about available resources, but this findings and the possible explanation warrants further investigation.”

When the study stratified for coping strategies, the COVID-19 stressors had a smaller effect on depressive and anxiety symptoms in Parkinson’s disease patients prone to confrontive coping and planful problem solving, she said. “Whereas, we observed a larger effect of these stressors in people who are prone to using distancing or seeking social support as coping mechanisms,” Ms. Dommershuijsen said.

The researchers also created a model of a hypothetical 50% reduction in COVID-19 stressors among all study participants, but the effect wasn’t clinically relevant, Ms. Dommershuijsen said. However, in people with advanced Parkinson’s disease – that is, with an Movement Disorder Society–Unified Parkinson Disease Rating Scale score above median – the effect was clinically relevant in all outcomes.

The potential interventions the study identified were telemedicine via virtual consultations to alleviate care stressors, and virtual support groups and online classes to address social stressors. “However, a more personalized approach is needed to target tension or conflict at home, which was the most important social stressor influencing depression and anxiety symptoms in our study,” she said. “Social work can play an important role here.”

Asked to comment on the study, Roy Alcalay, MD, professor of neurology at Columbia University Irving Medical Center in New York, said in an interview that the findings align with his research on the impact of COVID-19 and related restrictions on people with Parkinson’s disease.

“The pandemic has affected people in different ways,” he said. “Initially very acutely, people just didn’t have access to doctors. There was also the acute question in movement disorders, but also in other diseases where the people with Parkinson’s disease are going to have the worse outcome when they have COVID-19.” Dr. Alcalay authored two recent papers on the impact of COVID-19 in people with Parkinson’s disease.

“Then we see that, in addition to that question, there’s the question of even if they don’t have COVID-19, just the social distancing and the lack of access to health care, and specifically to physical and occupational therapy and other services, can be quite damaging,” he said.

What’s commendable about the study, he said, was that it just doesn’t highlight the problem. “They’re also highlighting potential solutions, that planful problem solving and coping strategies can be helpful to people.”

Neither Ms. Dommershuijsen nor Dr. Alcalay have any relevant relationships to disclose.

Social distancing and the shutdown of services like physical and occupational therapy because of COVID-19 have had a profound impact on the mental health of people with Parkinson’s disease, a team of researchers in the Netherlands reported, but they also identified meaningful targets for intervention.

Lisanne Dommershuijsen, MSc, a PhD candidate and researcher in epidemiology at the Erasmus University Medical Center in Rotterdam, the Netherlands, reported on a cross-sectional study of 833 participants with Parkinson’s disease in the PRIME-NL study at the International Congress of Parkinson’s Disease and Movement Disorders. The average age of participants was 70.2 and 38% were women.

“We studied targeted hypothetical interventions on COVID-19 stressors in people with Parkinson’s disease,” Ms. Dommershuijsen said. “This disruption in normal life caused considerable psychological stress in community-dwelling individuals. People with Parkinson’s disease might be especially vulnerable to this stress.

“For instance, because reduced levels of physical activity have worsened symptoms or because people with Parkinson’s often have difficulty with flexible [adaptations] to drastic and rapid changes in daily routines, such as those introduced by the COVID-19 pandemic, previous studies found that COVID-19 worsened depression and anxiety symptoms and reduced quality of life (QOL) in people with Parkinson’s disease,” Ms. Dommershuijsen said.

Hence, the goal of the study was to identify the most vulnerable subgroups in the Parkinson’s population and to suggest potential interventions to ameliorate these impacts, she said.

The study focused on eight different stressors that emerged in the pandemic: access to care, medicine and nursing services; loss of social contact; canceled social events; tension or conflict in the home; inability to perform physical activity or relax; and COVID-19 symptoms. The outcomes of interest were depression, as measured with the Beck Depression Inventory (BDI); anxiety, as measured with the Spielberger State-Trait Anxiety Inventory (STAI); and QOL, with the Parkinson’s Disease Quality of Life Questionnaire. The aggregate resulted in a scale of 0-40, with the mean stressor score in the study being 9.6, Ms. Dommershuijsen said.

The BDI and STAI scores for social stressors – loss of social contacts, social events canceled and tension or conflict at home – exceeded those for the so-called care stressors – problems accessing care, medication or nursing – she said, although all eight stressors yielded higher BDI and STAI scores across the board.
 

Vulnerable subgroups

“When we looked at vulnerable subgroups of people with Parkinson’s disease, we found more pronounced associations between the COVID-19 stress and mental health in women, in highly educated participants, and in participants with advanced Parkinson’s disease,” Ms. Dommershuijsen said. The impact on women and people with advanced disease is explainable, Ms. Dommershuijsen added in an interview; the former because depressive symptoms are more common in women, and the latter because loss of access to care impacts mental wellness.

“The finding that social stressors were more related to anxiety in highly educated people was surprising to us, given that depression in general is more common in people with a lower education,” she said in an interview. “One previous study of the general population suggested this might be related to expectations about available resources, but this findings and the possible explanation warrants further investigation.”

When the study stratified for coping strategies, the COVID-19 stressors had a smaller effect on depressive and anxiety symptoms in Parkinson’s disease patients prone to confrontive coping and planful problem solving, she said. “Whereas, we observed a larger effect of these stressors in people who are prone to using distancing or seeking social support as coping mechanisms,” Ms. Dommershuijsen said.

The researchers also created a model of a hypothetical 50% reduction in COVID-19 stressors among all study participants, but the effect wasn’t clinically relevant, Ms. Dommershuijsen said. However, in people with advanced Parkinson’s disease – that is, with an Movement Disorder Society–Unified Parkinson Disease Rating Scale score above median – the effect was clinically relevant in all outcomes.

The potential interventions the study identified were telemedicine via virtual consultations to alleviate care stressors, and virtual support groups and online classes to address social stressors. “However, a more personalized approach is needed to target tension or conflict at home, which was the most important social stressor influencing depression and anxiety symptoms in our study,” she said. “Social work can play an important role here.”

Asked to comment on the study, Roy Alcalay, MD, professor of neurology at Columbia University Irving Medical Center in New York, said in an interview that the findings align with his research on the impact of COVID-19 and related restrictions on people with Parkinson’s disease.

“The pandemic has affected people in different ways,” he said. “Initially very acutely, people just didn’t have access to doctors. There was also the acute question in movement disorders, but also in other diseases where the people with Parkinson’s disease are going to have the worse outcome when they have COVID-19.” Dr. Alcalay authored two recent papers on the impact of COVID-19 in people with Parkinson’s disease.

“Then we see that, in addition to that question, there’s the question of even if they don’t have COVID-19, just the social distancing and the lack of access to health care, and specifically to physical and occupational therapy and other services, can be quite damaging,” he said.

What’s commendable about the study, he said, was that it just doesn’t highlight the problem. “They’re also highlighting potential solutions, that planful problem solving and coping strategies can be helpful to people.”

Neither Ms. Dommershuijsen nor Dr. Alcalay have any relevant relationships to disclose.

Social distancing and the shutdown of services like physical and occupational therapy because of COVID-19 have had a profound impact on the mental health of people with Parkinson’s disease, a team of researchers in the Netherlands reported, but they also identified meaningful targets for intervention.

Lisanne Dommershuijsen, MSc, a PhD candidate and researcher in epidemiology at the Erasmus University Medical Center in Rotterdam, the Netherlands, reported on a cross-sectional study of 833 participants with Parkinson’s disease in the PRIME-NL study at the International Congress of Parkinson’s Disease and Movement Disorders. The average age of participants was 70.2 and 38% were women.

“We studied targeted hypothetical interventions on COVID-19 stressors in people with Parkinson’s disease,” Ms. Dommershuijsen said. “This disruption in normal life caused considerable psychological stress in community-dwelling individuals. People with Parkinson’s disease might be especially vulnerable to this stress.

“For instance, because reduced levels of physical activity have worsened symptoms or because people with Parkinson’s often have difficulty with flexible [adaptations] to drastic and rapid changes in daily routines, such as those introduced by the COVID-19 pandemic, previous studies found that COVID-19 worsened depression and anxiety symptoms and reduced quality of life (QOL) in people with Parkinson’s disease,” Ms. Dommershuijsen said.

Hence, the goal of the study was to identify the most vulnerable subgroups in the Parkinson’s population and to suggest potential interventions to ameliorate these impacts, she said.

The study focused on eight different stressors that emerged in the pandemic: access to care, medicine and nursing services; loss of social contact; canceled social events; tension or conflict in the home; inability to perform physical activity or relax; and COVID-19 symptoms. The outcomes of interest were depression, as measured with the Beck Depression Inventory (BDI); anxiety, as measured with the Spielberger State-Trait Anxiety Inventory (STAI); and QOL, with the Parkinson’s Disease Quality of Life Questionnaire. The aggregate resulted in a scale of 0-40, with the mean stressor score in the study being 9.6, Ms. Dommershuijsen said.

The BDI and STAI scores for social stressors – loss of social contacts, social events canceled and tension or conflict at home – exceeded those for the so-called care stressors – problems accessing care, medication or nursing – she said, although all eight stressors yielded higher BDI and STAI scores across the board.
 

Vulnerable subgroups

“When we looked at vulnerable subgroups of people with Parkinson’s disease, we found more pronounced associations between the COVID-19 stress and mental health in women, in highly educated participants, and in participants with advanced Parkinson’s disease,” Ms. Dommershuijsen said. The impact on women and people with advanced disease is explainable, Ms. Dommershuijsen added in an interview; the former because depressive symptoms are more common in women, and the latter because loss of access to care impacts mental wellness.

“The finding that social stressors were more related to anxiety in highly educated people was surprising to us, given that depression in general is more common in people with a lower education,” she said in an interview. “One previous study of the general population suggested this might be related to expectations about available resources, but this findings and the possible explanation warrants further investigation.”

When the study stratified for coping strategies, the COVID-19 stressors had a smaller effect on depressive and anxiety symptoms in Parkinson’s disease patients prone to confrontive coping and planful problem solving, she said. “Whereas, we observed a larger effect of these stressors in people who are prone to using distancing or seeking social support as coping mechanisms,” Ms. Dommershuijsen said.

The researchers also created a model of a hypothetical 50% reduction in COVID-19 stressors among all study participants, but the effect wasn’t clinically relevant, Ms. Dommershuijsen said. However, in people with advanced Parkinson’s disease – that is, with an Movement Disorder Society–Unified Parkinson Disease Rating Scale score above median – the effect was clinically relevant in all outcomes.

The potential interventions the study identified were telemedicine via virtual consultations to alleviate care stressors, and virtual support groups and online classes to address social stressors. “However, a more personalized approach is needed to target tension or conflict at home, which was the most important social stressor influencing depression and anxiety symptoms in our study,” she said. “Social work can play an important role here.”

Asked to comment on the study, Roy Alcalay, MD, professor of neurology at Columbia University Irving Medical Center in New York, said in an interview that the findings align with his research on the impact of COVID-19 and related restrictions on people with Parkinson’s disease.

“The pandemic has affected people in different ways,” he said. “Initially very acutely, people just didn’t have access to doctors. There was also the acute question in movement disorders, but also in other diseases where the people with Parkinson’s disease are going to have the worse outcome when they have COVID-19.” Dr. Alcalay authored two recent papers on the impact of COVID-19 in people with Parkinson’s disease.

“Then we see that, in addition to that question, there’s the question of even if they don’t have COVID-19, just the social distancing and the lack of access to health care, and specifically to physical and occupational therapy and other services, can be quite damaging,” he said.

What’s commendable about the study, he said, was that it just doesn’t highlight the problem. “They’re also highlighting potential solutions, that planful problem solving and coping strategies can be helpful to people.”

Neither Ms. Dommershuijsen nor Dr. Alcalay have any relevant relationships to disclose.

A strain of COVID-19 first reported in Japan surfaced at a Kentucky nursing home in the spring.

Deadline, citing a Centers for Disease Control and Prevention report, said 26 residents and 20 workers tested positive for COVID-19 at a skilled care nursing home. The facility has 83 residents and 116 employees.

On March 1, 28 specimens that had been subjected to whole genome sequencing were found to have “mutations aligning with the R.1 lineage,” Deadline said.

About 90% of the facility’s residents and 52% of the staff had received two COVID vaccine doses, the CDC said. Because of the high vaccination rate, the finding raises concerns about “reduced protective immunity” in relation to the R.1 variant, the CDC said.

However, the nursing home case appears to show that the vaccine keeps most people from getting extremely sick, the CDC said. The vaccine was 86.5% protective against symptomatic illness among residents and 87.1% protective for employees.

“Compared with unvaccinated persons, vaccinated persons had reduced risk for SARS-CoV-2 infection and symptomatic COVID-19,” the CDC said. The vaccination of nursing home residents and health care workers “is essential to reduce the risk for symptomatic COVID-19, as is continued focus on infection prevention and control practices,” the CDC said.

Since being reported in Kentucky, R.1 has been detected more than 10,000 times in the United States, Forbes reported, basing that number on entries in the GISAID SARS-CoV-2 database.

Overall, more than 42 million cases of COVID have been reported since the start of the pandemic.

Deadline reported that the R.1 strain was first detected in Japan in January among three members of one family. The family members had no history of traveling abroad, Deadline said, citing an National Institutes of Health report.

The CDC has not classified R.1 as a variant of concern yet but noted it has “several mutations of importance” and “demonstrates evidence of increasing virus transmissibility.”

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

A strain of COVID-19 first reported in Japan surfaced at a Kentucky nursing home in the spring.

Deadline, citing a Centers for Disease Control and Prevention report, said 26 residents and 20 workers tested positive for COVID-19 at a skilled care nursing home. The facility has 83 residents and 116 employees.

On March 1, 28 specimens that had been subjected to whole genome sequencing were found to have “mutations aligning with the R.1 lineage,” Deadline said.

About 90% of the facility’s residents and 52% of the staff had received two COVID vaccine doses, the CDC said. Because of the high vaccination rate, the finding raises concerns about “reduced protective immunity” in relation to the R.1 variant, the CDC said.

However, the nursing home case appears to show that the vaccine keeps most people from getting extremely sick, the CDC said. The vaccine was 86.5% protective against symptomatic illness among residents and 87.1% protective for employees.

“Compared with unvaccinated persons, vaccinated persons had reduced risk for SARS-CoV-2 infection and symptomatic COVID-19,” the CDC said. The vaccination of nursing home residents and health care workers “is essential to reduce the risk for symptomatic COVID-19, as is continued focus on infection prevention and control practices,” the CDC said.

Since being reported in Kentucky, R.1 has been detected more than 10,000 times in the United States, Forbes reported, basing that number on entries in the GISAID SARS-CoV-2 database.

Overall, more than 42 million cases of COVID have been reported since the start of the pandemic.

Deadline reported that the R.1 strain was first detected in Japan in January among three members of one family. The family members had no history of traveling abroad, Deadline said, citing an National Institutes of Health report.

The CDC has not classified R.1 as a variant of concern yet but noted it has “several mutations of importance” and “demonstrates evidence of increasing virus transmissibility.”

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

A strain of COVID-19 first reported in Japan surfaced at a Kentucky nursing home in the spring.

Deadline, citing a Centers for Disease Control and Prevention report, said 26 residents and 20 workers tested positive for COVID-19 at a skilled care nursing home. The facility has 83 residents and 116 employees.

On March 1, 28 specimens that had been subjected to whole genome sequencing were found to have “mutations aligning with the R.1 lineage,” Deadline said.

About 90% of the facility’s residents and 52% of the staff had received two COVID vaccine doses, the CDC said. Because of the high vaccination rate, the finding raises concerns about “reduced protective immunity” in relation to the R.1 variant, the CDC said.

However, the nursing home case appears to show that the vaccine keeps most people from getting extremely sick, the CDC said. The vaccine was 86.5% protective against symptomatic illness among residents and 87.1% protective for employees.

“Compared with unvaccinated persons, vaccinated persons had reduced risk for SARS-CoV-2 infection and symptomatic COVID-19,” the CDC said. The vaccination of nursing home residents and health care workers “is essential to reduce the risk for symptomatic COVID-19, as is continued focus on infection prevention and control practices,” the CDC said.

Since being reported in Kentucky, R.1 has been detected more than 10,000 times in the United States, Forbes reported, basing that number on entries in the GISAID SARS-CoV-2 database.

Overall, more than 42 million cases of COVID have been reported since the start of the pandemic.

Deadline reported that the R.1 strain was first detected in Japan in January among three members of one family. The family members had no history of traveling abroad, Deadline said, citing an National Institutes of Health report.

The CDC has not classified R.1 as a variant of concern yet but noted it has “several mutations of importance” and “demonstrates evidence of increasing virus transmissibility.”

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

Traumatic experiences, especially sexual assault, may put women at greater risk for poor brain health.

In the Ms Brain study, middle-aged women with trauma exposure had a greater volume of white matter hyperintensities (WMHs) than those without trauma. In addition, the differences persisted even after adjusting for depressive or post-traumatic stress symptoms. 

WMHs are “an important indicator of small vessel disease in the brain and have been linked to future stroke risk, dementia risk, and mortality,” lead investigator Rebecca Thurston, PhD, from the University of Pittsburgh, told this news organization.

“What I take from this is, really, that sexual assault has implications for women’s health, far beyond exclusively mental health outcomes, but also for their cardiovascular health, as we have shown in other work and for their stroke and dementia risk as we are seeing in the present work,” Dr. Thurston added.

The study was presented at the North American Menopause Society (NAMS) Annual Meeting in Washington, D.C., and has been accepted for publication in the journal Brain Imaging and Behavior.
 

Beyond the usual suspects

As part of the study, 145 women (mean age, 59 years) free of clinical cardiovascular disease, stroke, or dementia provided their medical history, including history of traumatic experiences, depression, and post-traumatic stress disorder and underwent magnetic resonance brain imaging for WMHs.

More than two-thirds (68%) of the women reported at least one trauma, most commonly sexual assault (23%).

In multivariate analysis, women with trauma exposure had greater WMH volume than women without trauma (P = .01), with sexual assault most strongly associated with greater WMH volume (P = .02).

The associations persisted after adjusting for depressive or post-traumatic stress symptoms.

“A history of sexual assault was particularly related to white matter hyperintensities in the parietal lobe, and these kinds of white matter hyperintensities have been linked to Alzheimer’s disease in a fairly pronounced way,” Dr. Thurston said.

“When we think about risk factors for stroke, dementia, we need to think beyond exclusively our usual suspects and also think about women [who experienced] psychological trauma and experienced sexual assault in particular. So ask about it and consider it part of your screening regimen,” she added.
 

‘Burgeoning’ literature

Commenting on the findings, Charles Nemeroff, MD, PhD, professor and chair, department of psychiatry and behavioral sciences, Dell Medical School, University of Texas at Austin, and director of its Institute for Early Life Adversity Research, said the research adds to the “burgeoning literature on the long term neurobiological consequences of trauma and more specifically, sexual abuse, on brain imaging measures.”

“Our group and others reported several years ago that patients with mood disorders, more specifically bipolar disorder and major depression, had higher rates of WMH than matched controls. Those older studies did not control for a history of early life adversity such as childhood maltreatment,” Dr. Nemeroff said.

“In addition to this finding of increased WMH in subjects exposed to trauma is a very large literature documenting other central nervous system (CNS) changes in this population, including cortical thinning in certain brain areas and clearly an emerging finding that different forms of childhood maltreatment are associated with quite distinct structural brain alterations in adulthood,” he noted. 

The study was supported by grants from the National Institutes of Health. Dr. Thurston and Dr. Nemeroff have disclosed no relevant financial relationships.

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

Traumatic experiences, especially sexual assault, may put women at greater risk for poor brain health.

In the Ms Brain study, middle-aged women with trauma exposure had a greater volume of white matter hyperintensities (WMHs) than those without trauma. In addition, the differences persisted even after adjusting for depressive or post-traumatic stress symptoms. 

WMHs are “an important indicator of small vessel disease in the brain and have been linked to future stroke risk, dementia risk, and mortality,” lead investigator Rebecca Thurston, PhD, from the University of Pittsburgh, told this news organization.

“What I take from this is, really, that sexual assault has implications for women’s health, far beyond exclusively mental health outcomes, but also for their cardiovascular health, as we have shown in other work and for their stroke and dementia risk as we are seeing in the present work,” Dr. Thurston added.

The study was presented at the North American Menopause Society (NAMS) Annual Meeting in Washington, D.C., and has been accepted for publication in the journal Brain Imaging and Behavior.
 

Beyond the usual suspects

As part of the study, 145 women (mean age, 59 years) free of clinical cardiovascular disease, stroke, or dementia provided their medical history, including history of traumatic experiences, depression, and post-traumatic stress disorder and underwent magnetic resonance brain imaging for WMHs.

More than two-thirds (68%) of the women reported at least one trauma, most commonly sexual assault (23%).

In multivariate analysis, women with trauma exposure had greater WMH volume than women without trauma (P = .01), with sexual assault most strongly associated with greater WMH volume (P = .02).

The associations persisted after adjusting for depressive or post-traumatic stress symptoms.

“A history of sexual assault was particularly related to white matter hyperintensities in the parietal lobe, and these kinds of white matter hyperintensities have been linked to Alzheimer’s disease in a fairly pronounced way,” Dr. Thurston said.

“When we think about risk factors for stroke, dementia, we need to think beyond exclusively our usual suspects and also think about women [who experienced] psychological trauma and experienced sexual assault in particular. So ask about it and consider it part of your screening regimen,” she added.
 

‘Burgeoning’ literature

Commenting on the findings, Charles Nemeroff, MD, PhD, professor and chair, department of psychiatry and behavioral sciences, Dell Medical School, University of Texas at Austin, and director of its Institute for Early Life Adversity Research, said the research adds to the “burgeoning literature on the long term neurobiological consequences of trauma and more specifically, sexual abuse, on brain imaging measures.”

“Our group and others reported several years ago that patients with mood disorders, more specifically bipolar disorder and major depression, had higher rates of WMH than matched controls. Those older studies did not control for a history of early life adversity such as childhood maltreatment,” Dr. Nemeroff said.

“In addition to this finding of increased WMH in subjects exposed to trauma is a very large literature documenting other central nervous system (CNS) changes in this population, including cortical thinning in certain brain areas and clearly an emerging finding that different forms of childhood maltreatment are associated with quite distinct structural brain alterations in adulthood,” he noted. 

The study was supported by grants from the National Institutes of Health. Dr. Thurston and Dr. Nemeroff have disclosed no relevant financial relationships.

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

Traumatic experiences, especially sexual assault, may put women at greater risk for poor brain health.

In the Ms Brain study, middle-aged women with trauma exposure had a greater volume of white matter hyperintensities (WMHs) than those without trauma. In addition, the differences persisted even after adjusting for depressive or post-traumatic stress symptoms. 

WMHs are “an important indicator of small vessel disease in the brain and have been linked to future stroke risk, dementia risk, and mortality,” lead investigator Rebecca Thurston, PhD, from the University of Pittsburgh, told this news organization.

“What I take from this is, really, that sexual assault has implications for women’s health, far beyond exclusively mental health outcomes, but also for their cardiovascular health, as we have shown in other work and for their stroke and dementia risk as we are seeing in the present work,” Dr. Thurston added.

The study was presented at the North American Menopause Society (NAMS) Annual Meeting in Washington, D.C., and has been accepted for publication in the journal Brain Imaging and Behavior.
 

Beyond the usual suspects

As part of the study, 145 women (mean age, 59 years) free of clinical cardiovascular disease, stroke, or dementia provided their medical history, including history of traumatic experiences, depression, and post-traumatic stress disorder and underwent magnetic resonance brain imaging for WMHs.

More than two-thirds (68%) of the women reported at least one trauma, most commonly sexual assault (23%).

In multivariate analysis, women with trauma exposure had greater WMH volume than women without trauma (P = .01), with sexual assault most strongly associated with greater WMH volume (P = .02).

The associations persisted after adjusting for depressive or post-traumatic stress symptoms.

“A history of sexual assault was particularly related to white matter hyperintensities in the parietal lobe, and these kinds of white matter hyperintensities have been linked to Alzheimer’s disease in a fairly pronounced way,” Dr. Thurston said.

“When we think about risk factors for stroke, dementia, we need to think beyond exclusively our usual suspects and also think about women [who experienced] psychological trauma and experienced sexual assault in particular. So ask about it and consider it part of your screening regimen,” she added.
 

‘Burgeoning’ literature

Commenting on the findings, Charles Nemeroff, MD, PhD, professor and chair, department of psychiatry and behavioral sciences, Dell Medical School, University of Texas at Austin, and director of its Institute for Early Life Adversity Research, said the research adds to the “burgeoning literature on the long term neurobiological consequences of trauma and more specifically, sexual abuse, on brain imaging measures.”

“Our group and others reported several years ago that patients with mood disorders, more specifically bipolar disorder and major depression, had higher rates of WMH than matched controls. Those older studies did not control for a history of early life adversity such as childhood maltreatment,” Dr. Nemeroff said.

“In addition to this finding of increased WMH in subjects exposed to trauma is a very large literature documenting other central nervous system (CNS) changes in this population, including cortical thinning in certain brain areas and clearly an emerging finding that different forms of childhood maltreatment are associated with quite distinct structural brain alterations in adulthood,” he noted. 

The study was supported by grants from the National Institutes of Health. Dr. Thurston and Dr. Nemeroff have disclosed no relevant financial relationships.

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

As medical school faculty members – and our students – know well, the COVID-19 pandemic forced us to become creative and shift much of our curricula online. Many hospitals chose to limit medical student rotations because of safety concerns. Students fell victim to canceled psychiatry rotations and electives during the pandemic’s early days. Privacy issues, combined with stigma tied to mental illness, made this shift to virtual instruction particularly challenging. But as a field, we persevered! And, as we learned during our shift toward telemedicine, many of the changes we made in medical education are probably here to stay.

Our team at the New York Institute of Technology College of Osteopathic Medicine (NYITCOM) was able to implement a novel curriculum that allowed our students to learn psychiatry and maintain high-quality medical school education.

We developed an online course for third-year students’ rotation in psychiatry, with several modules that focused on a variety of psychiatric topics and disorders, including the basic classifications and categories of depression, anxiety, personality disorders, and psychotic disorders. There were also video encounters available showing actual patient encounters. On completion of the online module, a faculty session was held to discuss topics of concern/confusion to the students, areas of interest, and a variety of related topics, such as professionalism in psychiatry, essentials of the mental status exam, management of diverse populations, and COVID repercussions in psychiatry.

For fourth-year students, we developed a telemedicine psychiatry elective, which allowed the students to observe psychiatric evaluations, psychiatric medication review visits, and even follow-up psychotherapy sessions, with the school’s clinical psychologists. The new method was minimally invasive, and it was accepted by patients and welcomed by the students.

During a time when hospitals were limiting onsite student rotations and discouraging patient contact, medical students still needed to experience patient interactions. As the director of the school’s Center for Behavioral Health, I designed an additional program that allowed students to participate in observing patients who presented with psychiatric complaints and symptoms. It had to be confidential in nature, accessible, and safe.

I recalled my own training in a hospital setting, where students and residents were allowed to observe a patient being evaluated by an attending, through a one-way mirror. It was a method that was acceptable at the time in a hospital, but unfortunately, not in a private office setting. As such, students and residents experienced such an interaction in acute inpatient and/or outpatient clinics of a hospital. The experience was invaluable.

I started to envision a one-way mirror, 2.0, so to speak, for the current times. The concept was simple, yet very efficient. The clinicians in the Center for Behavioral Health were seeing all patients with psychiatric needs via a HIPAA-compliant telemedicine platform. Access was granted for students – with the patient’s consent – and they “entered the session” without being seen or heard. This presented little to no distraction to the patient, and the student was able to observe a range of clinical sessions.

The course also provided online supplemental modules, including essential psychiatric topics, psychopharmacology, and a psychotherapeutic module that discussed a myriad of therapeutic interventions. In addition, the student was supervised weekly by the course director, the psychopharmacologist, and the clinical psychologist. The course director provided daily wrap-up reviews as well.

Originally, this new approach was envisioned as a temporary solution for use during the pandemic. But it has become clear that this approach would be beneficial post pandemic as well. Most of the students who participated in the course were actually interested in pursuing psychiatry as their future specialty. It allowed them to observe a population of patients firsthand that they might encounter in private practice, as opposed to only hospital settings.

Being present in a session with a patient with psychiatric symptoms and diagnoses has always been a challenge. Many patients refuse to have another medical professional in the room because of the intimate details being discussed and their associated stigma. The patients’ inability to see or hear the student during the sessions allows them to ignore the students’ presence – or at least not be intimidated by it. This, therefore, allows the students access and affords them a unique and memorable educational experience.

The pandemic curtailed and altered medical students’ traditional exposure to patients, but we found innovative ways to redefine it. As difficult as COVID-19 has been for the health care community, we have been able to use the restrictions forced by the pandemic to identify innovative ways to improve the education of our medical students.
 

In addition to serving as director of the Center for Behavioral Health at NYITCOM in Old Westbury, N.Y., Dr. Jarkon is assistant professor in the department of family medicine. She has no disclosures.

As medical school faculty members – and our students – know well, the COVID-19 pandemic forced us to become creative and shift much of our curricula online. Many hospitals chose to limit medical student rotations because of safety concerns. Students fell victim to canceled psychiatry rotations and electives during the pandemic’s early days. Privacy issues, combined with stigma tied to mental illness, made this shift to virtual instruction particularly challenging. But as a field, we persevered! And, as we learned during our shift toward telemedicine, many of the changes we made in medical education are probably here to stay.

Our team at the New York Institute of Technology College of Osteopathic Medicine (NYITCOM) was able to implement a novel curriculum that allowed our students to learn psychiatry and maintain high-quality medical school education.

We developed an online course for third-year students’ rotation in psychiatry, with several modules that focused on a variety of psychiatric topics and disorders, including the basic classifications and categories of depression, anxiety, personality disorders, and psychotic disorders. There were also video encounters available showing actual patient encounters. On completion of the online module, a faculty session was held to discuss topics of concern/confusion to the students, areas of interest, and a variety of related topics, such as professionalism in psychiatry, essentials of the mental status exam, management of diverse populations, and COVID repercussions in psychiatry.

For fourth-year students, we developed a telemedicine psychiatry elective, which allowed the students to observe psychiatric evaluations, psychiatric medication review visits, and even follow-up psychotherapy sessions, with the school’s clinical psychologists. The new method was minimally invasive, and it was accepted by patients and welcomed by the students.

During a time when hospitals were limiting onsite student rotations and discouraging patient contact, medical students still needed to experience patient interactions. As the director of the school’s Center for Behavioral Health, I designed an additional program that allowed students to participate in observing patients who presented with psychiatric complaints and symptoms. It had to be confidential in nature, accessible, and safe.

I recalled my own training in a hospital setting, where students and residents were allowed to observe a patient being evaluated by an attending, through a one-way mirror. It was a method that was acceptable at the time in a hospital, but unfortunately, not in a private office setting. As such, students and residents experienced such an interaction in acute inpatient and/or outpatient clinics of a hospital. The experience was invaluable.

I started to envision a one-way mirror, 2.0, so to speak, for the current times. The concept was simple, yet very efficient. The clinicians in the Center for Behavioral Health were seeing all patients with psychiatric needs via a HIPAA-compliant telemedicine platform. Access was granted for students – with the patient’s consent – and they “entered the session” without being seen or heard. This presented little to no distraction to the patient, and the student was able to observe a range of clinical sessions.

The course also provided online supplemental modules, including essential psychiatric topics, psychopharmacology, and a psychotherapeutic module that discussed a myriad of therapeutic interventions. In addition, the student was supervised weekly by the course director, the psychopharmacologist, and the clinical psychologist. The course director provided daily wrap-up reviews as well.

Originally, this new approach was envisioned as a temporary solution for use during the pandemic. But it has become clear that this approach would be beneficial post pandemic as well. Most of the students who participated in the course were actually interested in pursuing psychiatry as their future specialty. It allowed them to observe a population of patients firsthand that they might encounter in private practice, as opposed to only hospital settings.

Being present in a session with a patient with psychiatric symptoms and diagnoses has always been a challenge. Many patients refuse to have another medical professional in the room because of the intimate details being discussed and their associated stigma. The patients’ inability to see or hear the student during the sessions allows them to ignore the students’ presence – or at least not be intimidated by it. This, therefore, allows the students access and affords them a unique and memorable educational experience.

The pandemic curtailed and altered medical students’ traditional exposure to patients, but we found innovative ways to redefine it. As difficult as COVID-19 has been for the health care community, we have been able to use the restrictions forced by the pandemic to identify innovative ways to improve the education of our medical students.
 

In addition to serving as director of the Center for Behavioral Health at NYITCOM in Old Westbury, N.Y., Dr. Jarkon is assistant professor in the department of family medicine. She has no disclosures.

As medical school faculty members – and our students – know well, the COVID-19 pandemic forced us to become creative and shift much of our curricula online. Many hospitals chose to limit medical student rotations because of safety concerns. Students fell victim to canceled psychiatry rotations and electives during the pandemic’s early days. Privacy issues, combined with stigma tied to mental illness, made this shift to virtual instruction particularly challenging. But as a field, we persevered! And, as we learned during our shift toward telemedicine, many of the changes we made in medical education are probably here to stay.

Our team at the New York Institute of Technology College of Osteopathic Medicine (NYITCOM) was able to implement a novel curriculum that allowed our students to learn psychiatry and maintain high-quality medical school education.

We developed an online course for third-year students’ rotation in psychiatry, with several modules that focused on a variety of psychiatric topics and disorders, including the basic classifications and categories of depression, anxiety, personality disorders, and psychotic disorders. There were also video encounters available showing actual patient encounters. On completion of the online module, a faculty session was held to discuss topics of concern/confusion to the students, areas of interest, and a variety of related topics, such as professionalism in psychiatry, essentials of the mental status exam, management of diverse populations, and COVID repercussions in psychiatry.

For fourth-year students, we developed a telemedicine psychiatry elective, which allowed the students to observe psychiatric evaluations, psychiatric medication review visits, and even follow-up psychotherapy sessions, with the school’s clinical psychologists. The new method was minimally invasive, and it was accepted by patients and welcomed by the students.

During a time when hospitals were limiting onsite student rotations and discouraging patient contact, medical students still needed to experience patient interactions. As the director of the school’s Center for Behavioral Health, I designed an additional program that allowed students to participate in observing patients who presented with psychiatric complaints and symptoms. It had to be confidential in nature, accessible, and safe.

I recalled my own training in a hospital setting, where students and residents were allowed to observe a patient being evaluated by an attending, through a one-way mirror. It was a method that was acceptable at the time in a hospital, but unfortunately, not in a private office setting. As such, students and residents experienced such an interaction in acute inpatient and/or outpatient clinics of a hospital. The experience was invaluable.

I started to envision a one-way mirror, 2.0, so to speak, for the current times. The concept was simple, yet very efficient. The clinicians in the Center for Behavioral Health were seeing all patients with psychiatric needs via a HIPAA-compliant telemedicine platform. Access was granted for students – with the patient’s consent – and they “entered the session” without being seen or heard. This presented little to no distraction to the patient, and the student was able to observe a range of clinical sessions.

The course also provided online supplemental modules, including essential psychiatric topics, psychopharmacology, and a psychotherapeutic module that discussed a myriad of therapeutic interventions. In addition, the student was supervised weekly by the course director, the psychopharmacologist, and the clinical psychologist. The course director provided daily wrap-up reviews as well.

Originally, this new approach was envisioned as a temporary solution for use during the pandemic. But it has become clear that this approach would be beneficial post pandemic as well. Most of the students who participated in the course were actually interested in pursuing psychiatry as their future specialty. It allowed them to observe a population of patients firsthand that they might encounter in private practice, as opposed to only hospital settings.

Being present in a session with a patient with psychiatric symptoms and diagnoses has always been a challenge. Many patients refuse to have another medical professional in the room because of the intimate details being discussed and their associated stigma. The patients’ inability to see or hear the student during the sessions allows them to ignore the students’ presence – or at least not be intimidated by it. This, therefore, allows the students access and affords them a unique and memorable educational experience.

The pandemic curtailed and altered medical students’ traditional exposure to patients, but we found innovative ways to redefine it. As difficult as COVID-19 has been for the health care community, we have been able to use the restrictions forced by the pandemic to identify innovative ways to improve the education of our medical students.
 

In addition to serving as director of the Center for Behavioral Health at NYITCOM in Old Westbury, N.Y., Dr. Jarkon is assistant professor in the department of family medicine. She has no disclosures.

Bacteria get the rack ... the towel rack

Obviously, bathrooms have germs. Some people are cleaner about their bathrooms than others, but in general most people just try not to think about the microscopic critters crawling about.

Now you would probably think that the toilet is the dirtiest part of the bathroom because that’s where ... you know, most of the business takes place. Or maybe you’d guess the floor. Truth be told, though, the dirtiest part of the bathroom is where the towels are hung.

pxfuel

Anti-vaxxers would like to be called ‘purebloods’

COVID-19 anti-vaxxers are an interesting bunch, to be kind. And TikTok is a wacky place. So you can just imagine that anti-vaxxer TikTok is a very strange place. The citizens of anti-vax TikTok have decided that the real reason so many people dislike them is branding. They consider anti-vaccination to be a negative word (duh), so they now want to be referred to as “purebloods.”

peterschreiber_media/iStock/Getty Images

Harry Potter doesn’t quite occupy the zeitgeist as it once did, so let’s give you a reminder: In the books, purebloods came from old wizarding families and claimed not to have any Muggle, or nonmagic, blood. While having pure wizard blood was no guarantee of being a villain, most of them were. In addition, it is made quite clear throughout the novels that having supposedly pure blood had no relevance on one’s wizarding ability. Pureblood was a meaningless title, and only the characters with small, cruel minds concerned themselves over it.

Perhaps the anti-vaxxers have decided that they want to be called the same thing. Maybe they just like the name. It does sound impressive and vaguely regal: Pureblood. Like something the nobles of medieval Europe might have used.

Critical-thinking skills may be in short supply here, or maybe the anti-vaxxers know exactly what they’re doing.
 

Hated broccoli? Blame your DNA

Were you that kid who would rather sit at the table for hours than eat your broccoli? Well, as much as your parents might have pushed you, new research suggests that it might be their fault you didn’t like it to begin with.

Hans Braxmeier/Pixabay

Investigators at Australia’s national science agency, CSIRO, recently reported that distaste for Brassica vegetables – broccoli, Brussels sprouts, cabbage, and cauliflower – can be traced to the oral microbiome.

These vegetables have a compound called S-methyl-L-cysteine sulfoxide that gives off sulfurous odors ... mmm, sulfurous ... when mixed with an enzyme in the plant, and that enzyme is also produced by bacteria in some people’s oral microbiomes. So why do adults tolerate these Brassica veggies more than children? It’s all about levels.

The researchers tested the idea by asking 98 child/parent pairs to rate the odors and by using gas chromatography-olfactometry-mass spectrometry to identify the odor-active compounds in both raw and steamed cauliflower and broccoli. The children whose saliva produced high levels of sulfur volatiles disliked Brassica vegetables the most, they reported, and the children with high levels of sulfur volatiles usually had parents who produced high levels.

Despite that connection, however, the distaste for raw Brassica seen in children wasn’t seen in adults.

Maybe it’s not that taste buds change as we age, maybe we just learn to tolerate the sulfurousness.

Bacteria get the rack ... the towel rack

Obviously, bathrooms have germs. Some people are cleaner about their bathrooms than others, but in general most people just try not to think about the microscopic critters crawling about.

Now you would probably think that the toilet is the dirtiest part of the bathroom because that’s where ... you know, most of the business takes place. Or maybe you’d guess the floor. Truth be told, though, the dirtiest part of the bathroom is where the towels are hung.

pxfuel

Anti-vaxxers would like to be called ‘purebloods’

COVID-19 anti-vaxxers are an interesting bunch, to be kind. And TikTok is a wacky place. So you can just imagine that anti-vaxxer TikTok is a very strange place. The citizens of anti-vax TikTok have decided that the real reason so many people dislike them is branding. They consider anti-vaccination to be a negative word (duh), so they now want to be referred to as “purebloods.”

peterschreiber_media/iStock/Getty Images

Harry Potter doesn’t quite occupy the zeitgeist as it once did, so let’s give you a reminder: In the books, purebloods came from old wizarding families and claimed not to have any Muggle, or nonmagic, blood. While having pure wizard blood was no guarantee of being a villain, most of them were. In addition, it is made quite clear throughout the novels that having supposedly pure blood had no relevance on one’s wizarding ability. Pureblood was a meaningless title, and only the characters with small, cruel minds concerned themselves over it.

Perhaps the anti-vaxxers have decided that they want to be called the same thing. Maybe they just like the name. It does sound impressive and vaguely regal: Pureblood. Like something the nobles of medieval Europe might have used.

Critical-thinking skills may be in short supply here, or maybe the anti-vaxxers know exactly what they’re doing.
 

Hated broccoli? Blame your DNA

Were you that kid who would rather sit at the table for hours than eat your broccoli? Well, as much as your parents might have pushed you, new research suggests that it might be their fault you didn’t like it to begin with.

Hans Braxmeier/Pixabay

Investigators at Australia’s national science agency, CSIRO, recently reported that distaste for Brassica vegetables – broccoli, Brussels sprouts, cabbage, and cauliflower – can be traced to the oral microbiome.

These vegetables have a compound called S-methyl-L-cysteine sulfoxide that gives off sulfurous odors ... mmm, sulfurous ... when mixed with an enzyme in the plant, and that enzyme is also produced by bacteria in some people’s oral microbiomes. So why do adults tolerate these Brassica veggies more than children? It’s all about levels.

The researchers tested the idea by asking 98 child/parent pairs to rate the odors and by using gas chromatography-olfactometry-mass spectrometry to identify the odor-active compounds in both raw and steamed cauliflower and broccoli. The children whose saliva produced high levels of sulfur volatiles disliked Brassica vegetables the most, they reported, and the children with high levels of sulfur volatiles usually had parents who produced high levels.

Despite that connection, however, the distaste for raw Brassica seen in children wasn’t seen in adults.

Maybe it’s not that taste buds change as we age, maybe we just learn to tolerate the sulfurousness.

Bacteria get the rack ... the towel rack

Obviously, bathrooms have germs. Some people are cleaner about their bathrooms than others, but in general most people just try not to think about the microscopic critters crawling about.

Now you would probably think that the toilet is the dirtiest part of the bathroom because that’s where ... you know, most of the business takes place. Or maybe you’d guess the floor. Truth be told, though, the dirtiest part of the bathroom is where the towels are hung.

pxfuel

Anti-vaxxers would like to be called ‘purebloods’

COVID-19 anti-vaxxers are an interesting bunch, to be kind. And TikTok is a wacky place. So you can just imagine that anti-vaxxer TikTok is a very strange place. The citizens of anti-vax TikTok have decided that the real reason so many people dislike them is branding. They consider anti-vaccination to be a negative word (duh), so they now want to be referred to as “purebloods.”

peterschreiber_media/iStock/Getty Images

Harry Potter doesn’t quite occupy the zeitgeist as it once did, so let’s give you a reminder: In the books, purebloods came from old wizarding families and claimed not to have any Muggle, or nonmagic, blood. While having pure wizard blood was no guarantee of being a villain, most of them were. In addition, it is made quite clear throughout the novels that having supposedly pure blood had no relevance on one’s wizarding ability. Pureblood was a meaningless title, and only the characters with small, cruel minds concerned themselves over it.

Perhaps the anti-vaxxers have decided that they want to be called the same thing. Maybe they just like the name. It does sound impressive and vaguely regal: Pureblood. Like something the nobles of medieval Europe might have used.

Critical-thinking skills may be in short supply here, or maybe the anti-vaxxers know exactly what they’re doing.
 

Hated broccoli? Blame your DNA

Were you that kid who would rather sit at the table for hours than eat your broccoli? Well, as much as your parents might have pushed you, new research suggests that it might be their fault you didn’t like it to begin with.

Hans Braxmeier/Pixabay

Investigators at Australia’s national science agency, CSIRO, recently reported that distaste for Brassica vegetables – broccoli, Brussels sprouts, cabbage, and cauliflower – can be traced to the oral microbiome.

These vegetables have a compound called S-methyl-L-cysteine sulfoxide that gives off sulfurous odors ... mmm, sulfurous ... when mixed with an enzyme in the plant, and that enzyme is also produced by bacteria in some people’s oral microbiomes. So why do adults tolerate these Brassica veggies more than children? It’s all about levels.

The researchers tested the idea by asking 98 child/parent pairs to rate the odors and by using gas chromatography-olfactometry-mass spectrometry to identify the odor-active compounds in both raw and steamed cauliflower and broccoli. The children whose saliva produced high levels of sulfur volatiles disliked Brassica vegetables the most, they reported, and the children with high levels of sulfur volatiles usually had parents who produced high levels.

Despite that connection, however, the distaste for raw Brassica seen in children wasn’t seen in adults.

Maybe it’s not that taste buds change as we age, maybe we just learn to tolerate the sulfurousness.

A new lawsuit seeking to force the Food and Drug Administration to act on a request to add stricter warnings to finasteride or remove it from the market may rekindle a debate on whether some of the observed side effects from the hair loss drug merit a closer look and, potentially, better counseling and monitoring from clinicians.

The nonprofit advocacy group Public Citizen filed the suit on behalf of the Post-Finasteride Syndrome Foundation (PFSF) in the U.S. District Court for the District of Columbia. The PFSF had filed a citizen’s petition in 2017 that requested that the FDA either take the 1-mg formulation off the market, or add warnings about the potential for erectile dysfunction, depression, and suicidal ideation, among other adverse reactions.

The PFSF has alleged that long-term use of Propecia (and its generic equivalents) can lead to postfinasteride syndrome (PFS), characterized by sexual dysfunction and psycho-neurocognitive symptoms. The symptoms may continue long after men stop taking the drug, according to PFSF.

Public Citizen said the FDA needs to take action in part because U.S. prescriptions of the hair loss formulation “more than doubled from 2015 to 2020,” and online and telemedicine companies such as Hims, Roman, and Keeps “aggressively market and sell generic finasteride for hair loss.” According to GoodRx, a 1-month supply of generic 1-mg tablets costs as little as $8-$10.

Both Canadian and British regulatory authorities have added warnings about depression and suicide to the Propecia label but the FDA has not changed its labeling. An agency spokesperson told this news organization that the “FDA does not comment on the status of pending citizen petitions or on pending litigation.”

Propecia’s developer, Merck, has not responded to several requests for comment from this news organization.

Why some patients develop PFS and others do not is still not understood, but some clinicians said they counsel all patients on the risks of severe and persistent side effects that have been associated with Propecia.

Robert M. Bernstein, MD, of the department of dermatology at Columbia University, New York, and a fellow of the International Society of Hair Restoration Surgery, said that 2%-4% of his patients have some side effects, similar to the original reported incidence, with sexual dysfunction being the most common.

If a man experiences an adverse effect, the drug should be stopped, Dr. Bernstein said in an interview. He noted that “there seems to be a significant increased risk of persistent side effects in people with certain psychiatric conditions, and those people should be counseled carefully before considering the medication.”

“Everybody should be warned that the risk of persistent side effects is real but in the average person it is quite uncommon,” added Dr. Bernstein, founder of Bernstein Medical, a division of Schweiger Dermatology Group focusing on the diagnosis and treatment of hair loss. “I don’t think it should be withdrawn from the market,” he said.

Other countries warn of psychiatric effects

The FDA approved the 1-mg form of finasteride for male pattern hair loss in 1997.

In 2012, the label and the patient insert were updated to state that side effects included less desire for sex, erectile dysfunction, and a decrease in the amount of semen produced, but that those adverse events occurred in less than 2% of men and generally went away in most men who stopped taking the drug.

That label change unleashed a flood of more than 1,000 lawsuits against Merck. The company reportedly settled at least half of them for $4.3 million in 2018. The Superior Court of New Jersey closed out the consolidated class action against Merck in May 2021, noting that all of the cases had been settled or dismissed.

The suits generally accused Merck of not giving adequate warning about sexual side effects, according to an investigation by Reuters. That 2019 special report found that Merck had understated the number of men who experienced sexual side effects and the duration of those symptoms. The news organization also reported that from 2009 to 2018, the FDA received 5,000 reports of sexual or mental health side effects – and sometimes both – in men who took finasteride. Some 350 of the men reported suicidal thoughts, and there were 50 reports of suicide.

Public Citizen’s lawsuit alleges that VigiBase, which is managed by the World Health Organization Collaborating Centre for International Drug Monitoring, lists 378 cases of suicidal ideation, 39 cases of suicide attempt, and 88 cases of completed suicide associated with finasteride use. VigiBase collects data from 153 countries on adverse reactions to medications.

In February 2021, more documents from the class action lawsuits were unsealed in response to a Reuters request. According to the news organization, the documents showed that Merck knew of reports of depression, including suicidal thoughts, as early as 2009.

However, according to Reuters, the FDA in 2011 granted Merck’s request to only note depression as a potential side effect, without including the risk of suicidal ideation.

The current FDA label notes a small incidence of sexual dysfunction, including decreased libido (1.8% in trials) and erectile dysfunction (1.3%) and mentions depression as a side effect observed during the postmarketing period.

The Canadian label has the same statistics on sexual side effects but is much stronger on mental adverse effects: “Psychiatric disorders: mood alterations and depression, decreased libido that continued after discontinuation of treatment. Mood alterations including depressed mood and, less frequently, suicidal ideation have been reported in patients treated with finasteride 1 mg. Patients should be monitored for psychiatric symptoms, and if these occur, the patient should be advised to seek medical advice.”

In the United Kingdom, patients prescribed the drug are given a leaflet, which notes that “Mood alterations such as depressed mood, depression and, less frequently, suicidal thoughts have been reported in patients treated with Propecia,” and advises patients to stop taking the drug if they experience any of those symptoms and to discuss it with their physician.

Public Citizen noted in its lawsuit that French and German drug regulators have sent letters to clinicians advising them to inform patients of the risk of suicidal thoughts and anxiety.

Is there biological plausibility?

To bolster its argument that finasteride has dangerous psychiatric side effects, the advocacy organization cited a study first published in JAMA Dermatology in late 2020 that investigated suicidality and psychological adverse events in patients taking finasteride.

David-Dan Nguyen, MPH, and his colleagues at Brigham and Women’s Hospital in Boston, McGill University, Montreal, and the University of Montreal, examined the VigiBase database and found 356 cases of suicidality and 2,926 psychological adverse events; cases were highest from 2015 to 2019.

They documented what they called a “significant disproportionality signal for suicidality (reporting odds ratio, 1.63; 95% confidence interval, 2.90-4.15) and psychological adverse events (ROR, 4.33; 95% CI, 4.17-4.49) with finasteride, especially in younger men and those with alopecia, but not in older men or those with benign prostatic hyperplasia.

The study authors noted that some studies have suggested that men with depression have low levels of the neurosteroid allopregnanolone, which is produced by the 5-alpha reductase enzyme. Finasteride is a 5-alpha reductase inhibitor.

According to Public Citizen’s lawsuit, “The product labeling does not disclose important information about finasteride’s mechanism of action,” and “the drug inhibits multiple steroid hormone pathways that are responsible for the formation of brain neurosteroids that regulate many critical functions in the central nervous system, like sexual function, mood, sleep, cognitive function, the stress response, and motivation.”

Dr. Jacobs said that “there’s a lot of good solid high-quality research, mostly in animals, but also some on humans, showing a plausible link between blocking 5-alpha reductase in the brain, deficiency of neuroactive steroids, and depression.”

The author of an accompanying editorial, Roger S. Ho, MD, MPH, an associate professor in the department of dermatology, New York University, was skeptical. “Without a plausible biological hypothesis pharmacodynamically linking the drug and the reported adverse event, this kind of analysis may lead to false findings,” Dr. Ho said in the editorial about the Nguyen study.

Dr. Ho also wrote that he believed that the lack of a suicidality signal for dutasteride, a drug with a similar mechanism of action, but without as much media attention, “hints at a potential reporting bias unique to finasteride.”

He recommended that clinicians “conduct a full evaluation and a detailed, personalized risk-benefit assessment for patients before each prescription of finasteride.”
 

Important medicine, important caveats

Dr. Jacobs said that many of the men who come to him with side effects after taking finasteride have “been blown off by most of the doctors they go to see.”

Urologists dismiss them because their sexual dysfunction is not a gonad issue. They are told that it’s in their head, said Dr. Jacobs, adding that, “it is in their head, but it’s biological.”

The drug’s label advises that sexual side effects disappear when the drug is stopped. “That’s only true most of the time, not all of the time,” said Dr. Jacobs, adding that the persistence of any side effects impacts what he calls a “small subset” of men who take the drug.

“We have treated tens of thousands of patients who have benefited from the medicine and had no side effects,” said Dr. Bernstein. “But there is a lot that’s still not known about it.”

Even so, “baldness in young people is not a benign condition,” he said, adding that it can be socially debilitating. “An 18-year-old with a full head of thick hair who’s totally bald in 3 or 4 years – that can totally change his psyche,” Dr. Bernstein said. Finasteride may be the best option for those young men, and it is an important medication, he said. Does it need to be used more carefully? “Certainly you can’t argue with that,” he commented.

Dr. Bernstein and Dr. Irwig reported no conflicts. Dr. Jacobs disclosed that he is an expert witness for the plaintiffs in a suit against Propecia maker Merck.

A new lawsuit seeking to force the Food and Drug Administration to act on a request to add stricter warnings to finasteride or remove it from the market may rekindle a debate on whether some of the observed side effects from the hair loss drug merit a closer look and, potentially, better counseling and monitoring from clinicians.

The nonprofit advocacy group Public Citizen filed the suit on behalf of the Post-Finasteride Syndrome Foundation (PFSF) in the U.S. District Court for the District of Columbia. The PFSF had filed a citizen’s petition in 2017 that requested that the FDA either take the 1-mg formulation off the market, or add warnings about the potential for erectile dysfunction, depression, and suicidal ideation, among other adverse reactions.

The PFSF has alleged that long-term use of Propecia (and its generic equivalents) can lead to postfinasteride syndrome (PFS), characterized by sexual dysfunction and psycho-neurocognitive symptoms. The symptoms may continue long after men stop taking the drug, according to PFSF.

Public Citizen said the FDA needs to take action in part because U.S. prescriptions of the hair loss formulation “more than doubled from 2015 to 2020,” and online and telemedicine companies such as Hims, Roman, and Keeps “aggressively market and sell generic finasteride for hair loss.” According to GoodRx, a 1-month supply of generic 1-mg tablets costs as little as $8-$10.

Both Canadian and British regulatory authorities have added warnings about depression and suicide to the Propecia label but the FDA has not changed its labeling. An agency spokesperson told this news organization that the “FDA does not comment on the status of pending citizen petitions or on pending litigation.”

Propecia’s developer, Merck, has not responded to several requests for comment from this news organization.

Why some patients develop PFS and others do not is still not understood, but some clinicians said they counsel all patients on the risks of severe and persistent side effects that have been associated with Propecia.

Robert M. Bernstein, MD, of the department of dermatology at Columbia University, New York, and a fellow of the International Society of Hair Restoration Surgery, said that 2%-4% of his patients have some side effects, similar to the original reported incidence, with sexual dysfunction being the most common.

If a man experiences an adverse effect, the drug should be stopped, Dr. Bernstein said in an interview. He noted that “there seems to be a significant increased risk of persistent side effects in people with certain psychiatric conditions, and those people should be counseled carefully before considering the medication.”

“Everybody should be warned that the risk of persistent side effects is real but in the average person it is quite uncommon,” added Dr. Bernstein, founder of Bernstein Medical, a division of Schweiger Dermatology Group focusing on the diagnosis and treatment of hair loss. “I don’t think it should be withdrawn from the market,” he said.

Other countries warn of psychiatric effects

The FDA approved the 1-mg form of finasteride for male pattern hair loss in 1997.

In 2012, the label and the patient insert were updated to state that side effects included less desire for sex, erectile dysfunction, and a decrease in the amount of semen produced, but that those adverse events occurred in less than 2% of men and generally went away in most men who stopped taking the drug.

That label change unleashed a flood of more than 1,000 lawsuits against Merck. The company reportedly settled at least half of them for $4.3 million in 2018. The Superior Court of New Jersey closed out the consolidated class action against Merck in May 2021, noting that all of the cases had been settled or dismissed.

The suits generally accused Merck of not giving adequate warning about sexual side effects, according to an investigation by Reuters. That 2019 special report found that Merck had understated the number of men who experienced sexual side effects and the duration of those symptoms. The news organization also reported that from 2009 to 2018, the FDA received 5,000 reports of sexual or mental health side effects – and sometimes both – in men who took finasteride. Some 350 of the men reported suicidal thoughts, and there were 50 reports of suicide.

Public Citizen’s lawsuit alleges that VigiBase, which is managed by the World Health Organization Collaborating Centre for International Drug Monitoring, lists 378 cases of suicidal ideation, 39 cases of suicide attempt, and 88 cases of completed suicide associated with finasteride use. VigiBase collects data from 153 countries on adverse reactions to medications.

In February 2021, more documents from the class action lawsuits were unsealed in response to a Reuters request. According to the news organization, the documents showed that Merck knew of reports of depression, including suicidal thoughts, as early as 2009.

However, according to Reuters, the FDA in 2011 granted Merck’s request to only note depression as a potential side effect, without including the risk of suicidal ideation.

The current FDA label notes a small incidence of sexual dysfunction, including decreased libido (1.8% in trials) and erectile dysfunction (1.3%) and mentions depression as a side effect observed during the postmarketing period.

The Canadian label has the same statistics on sexual side effects but is much stronger on mental adverse effects: “Psychiatric disorders: mood alterations and depression, decreased libido that continued after discontinuation of treatment. Mood alterations including depressed mood and, less frequently, suicidal ideation have been reported in patients treated with finasteride 1 mg. Patients should be monitored for psychiatric symptoms, and if these occur, the patient should be advised to seek medical advice.”

In the United Kingdom, patients prescribed the drug are given a leaflet, which notes that “Mood alterations such as depressed mood, depression and, less frequently, suicidal thoughts have been reported in patients treated with Propecia,” and advises patients to stop taking the drug if they experience any of those symptoms and to discuss it with their physician.

Public Citizen noted in its lawsuit that French and German drug regulators have sent letters to clinicians advising them to inform patients of the risk of suicidal thoughts and anxiety.

Is there biological plausibility?

To bolster its argument that finasteride has dangerous psychiatric side effects, the advocacy organization cited a study first published in JAMA Dermatology in late 2020 that investigated suicidality and psychological adverse events in patients taking finasteride.

David-Dan Nguyen, MPH, and his colleagues at Brigham and Women’s Hospital in Boston, McGill University, Montreal, and the University of Montreal, examined the VigiBase database and found 356 cases of suicidality and 2,926 psychological adverse events; cases were highest from 2015 to 2019.

They documented what they called a “significant disproportionality signal for suicidality (reporting odds ratio, 1.63; 95% confidence interval, 2.90-4.15) and psychological adverse events (ROR, 4.33; 95% CI, 4.17-4.49) with finasteride, especially in younger men and those with alopecia, but not in older men or those with benign prostatic hyperplasia.

The study authors noted that some studies have suggested that men with depression have low levels of the neurosteroid allopregnanolone, which is produced by the 5-alpha reductase enzyme. Finasteride is a 5-alpha reductase inhibitor.

According to Public Citizen’s lawsuit, “The product labeling does not disclose important information about finasteride’s mechanism of action,” and “the drug inhibits multiple steroid hormone pathways that are responsible for the formation of brain neurosteroids that regulate many critical functions in the central nervous system, like sexual function, mood, sleep, cognitive function, the stress response, and motivation.”

Dr. Jacobs said that “there’s a lot of good solid high-quality research, mostly in animals, but also some on humans, showing a plausible link between blocking 5-alpha reductase in the brain, deficiency of neuroactive steroids, and depression.”

The author of an accompanying editorial, Roger S. Ho, MD, MPH, an associate professor in the department of dermatology, New York University, was skeptical. “Without a plausible biological hypothesis pharmacodynamically linking the drug and the reported adverse event, this kind of analysis may lead to false findings,” Dr. Ho said in the editorial about the Nguyen study.

Dr. Ho also wrote that he believed that the lack of a suicidality signal for dutasteride, a drug with a similar mechanism of action, but without as much media attention, “hints at a potential reporting bias unique to finasteride.”

He recommended that clinicians “conduct a full evaluation and a detailed, personalized risk-benefit assessment for patients before each prescription of finasteride.”
 

Important medicine, important caveats

Dr. Jacobs said that many of the men who come to him with side effects after taking finasteride have “been blown off by most of the doctors they go to see.”

Urologists dismiss them because their sexual dysfunction is not a gonad issue. They are told that it’s in their head, said Dr. Jacobs, adding that, “it is in their head, but it’s biological.”

The drug’s label advises that sexual side effects disappear when the drug is stopped. “That’s only true most of the time, not all of the time,” said Dr. Jacobs, adding that the persistence of any side effects impacts what he calls a “small subset” of men who take the drug.

“We have treated tens of thousands of patients who have benefited from the medicine and had no side effects,” said Dr. Bernstein. “But there is a lot that’s still not known about it.”

Even so, “baldness in young people is not a benign condition,” he said, adding that it can be socially debilitating. “An 18-year-old with a full head of thick hair who’s totally bald in 3 or 4 years – that can totally change his psyche,” Dr. Bernstein said. Finasteride may be the best option for those young men, and it is an important medication, he said. Does it need to be used more carefully? “Certainly you can’t argue with that,” he commented.

Dr. Bernstein and Dr. Irwig reported no conflicts. Dr. Jacobs disclosed that he is an expert witness for the plaintiffs in a suit against Propecia maker Merck.

A new lawsuit seeking to force the Food and Drug Administration to act on a request to add stricter warnings to finasteride or remove it from the market may rekindle a debate on whether some of the observed side effects from the hair loss drug merit a closer look and, potentially, better counseling and monitoring from clinicians.

The nonprofit advocacy group Public Citizen filed the suit on behalf of the Post-Finasteride Syndrome Foundation (PFSF) in the U.S. District Court for the District of Columbia. The PFSF had filed a citizen’s petition in 2017 that requested that the FDA either take the 1-mg formulation off the market, or add warnings about the potential for erectile dysfunction, depression, and suicidal ideation, among other adverse reactions.

The PFSF has alleged that long-term use of Propecia (and its generic equivalents) can lead to postfinasteride syndrome (PFS), characterized by sexual dysfunction and psycho-neurocognitive symptoms. The symptoms may continue long after men stop taking the drug, according to PFSF.

Public Citizen said the FDA needs to take action in part because U.S. prescriptions of the hair loss formulation “more than doubled from 2015 to 2020,” and online and telemedicine companies such as Hims, Roman, and Keeps “aggressively market and sell generic finasteride for hair loss.” According to GoodRx, a 1-month supply of generic 1-mg tablets costs as little as $8-$10.

Both Canadian and British regulatory authorities have added warnings about depression and suicide to the Propecia label but the FDA has not changed its labeling. An agency spokesperson told this news organization that the “FDA does not comment on the status of pending citizen petitions or on pending litigation.”

Propecia’s developer, Merck, has not responded to several requests for comment from this news organization.

Why some patients develop PFS and others do not is still not understood, but some clinicians said they counsel all patients on the risks of severe and persistent side effects that have been associated with Propecia.

Robert M. Bernstein, MD, of the department of dermatology at Columbia University, New York, and a fellow of the International Society of Hair Restoration Surgery, said that 2%-4% of his patients have some side effects, similar to the original reported incidence, with sexual dysfunction being the most common.

If a man experiences an adverse effect, the drug should be stopped, Dr. Bernstein said in an interview. He noted that “there seems to be a significant increased risk of persistent side effects in people with certain psychiatric conditions, and those people should be counseled carefully before considering the medication.”

“Everybody should be warned that the risk of persistent side effects is real but in the average person it is quite uncommon,” added Dr. Bernstein, founder of Bernstein Medical, a division of Schweiger Dermatology Group focusing on the diagnosis and treatment of hair loss. “I don’t think it should be withdrawn from the market,” he said.

Other countries warn of psychiatric effects

The FDA approved the 1-mg form of finasteride for male pattern hair loss in 1997.

In 2012, the label and the patient insert were updated to state that side effects included less desire for sex, erectile dysfunction, and a decrease in the amount of semen produced, but that those adverse events occurred in less than 2% of men and generally went away in most men who stopped taking the drug.

That label change unleashed a flood of more than 1,000 lawsuits against Merck. The company reportedly settled at least half of them for $4.3 million in 2018. The Superior Court of New Jersey closed out the consolidated class action against Merck in May 2021, noting that all of the cases had been settled or dismissed.

The suits generally accused Merck of not giving adequate warning about sexual side effects, according to an investigation by Reuters. That 2019 special report found that Merck had understated the number of men who experienced sexual side effects and the duration of those symptoms. The news organization also reported that from 2009 to 2018, the FDA received 5,000 reports of sexual or mental health side effects – and sometimes both – in men who took finasteride. Some 350 of the men reported suicidal thoughts, and there were 50 reports of suicide.

Public Citizen’s lawsuit alleges that VigiBase, which is managed by the World Health Organization Collaborating Centre for International Drug Monitoring, lists 378 cases of suicidal ideation, 39 cases of suicide attempt, and 88 cases of completed suicide associated with finasteride use. VigiBase collects data from 153 countries on adverse reactions to medications.

In February 2021, more documents from the class action lawsuits were unsealed in response to a Reuters request. According to the news organization, the documents showed that Merck knew of reports of depression, including suicidal thoughts, as early as 2009.

However, according to Reuters, the FDA in 2011 granted Merck’s request to only note depression as a potential side effect, without including the risk of suicidal ideation.

The current FDA label notes a small incidence of sexual dysfunction, including decreased libido (1.8% in trials) and erectile dysfunction (1.3%) and mentions depression as a side effect observed during the postmarketing period.

The Canadian label has the same statistics on sexual side effects but is much stronger on mental adverse effects: “Psychiatric disorders: mood alterations and depression, decreased libido that continued after discontinuation of treatment. Mood alterations including depressed mood and, less frequently, suicidal ideation have been reported in patients treated with finasteride 1 mg. Patients should be monitored for psychiatric symptoms, and if these occur, the patient should be advised to seek medical advice.”

In the United Kingdom, patients prescribed the drug are given a leaflet, which notes that “Mood alterations such as depressed mood, depression and, less frequently, suicidal thoughts have been reported in patients treated with Propecia,” and advises patients to stop taking the drug if they experience any of those symptoms and to discuss it with their physician.

Public Citizen noted in its lawsuit that French and German drug regulators have sent letters to clinicians advising them to inform patients of the risk of suicidal thoughts and anxiety.

Is there biological plausibility?

To bolster its argument that finasteride has dangerous psychiatric side effects, the advocacy organization cited a study first published in JAMA Dermatology in late 2020 that investigated suicidality and psychological adverse events in patients taking finasteride.

David-Dan Nguyen, MPH, and his colleagues at Brigham and Women’s Hospital in Boston, McGill University, Montreal, and the University of Montreal, examined the VigiBase database and found 356 cases of suicidality and 2,926 psychological adverse events; cases were highest from 2015 to 2019.

They documented what they called a “significant disproportionality signal for suicidality (reporting odds ratio, 1.63; 95% confidence interval, 2.90-4.15) and psychological adverse events (ROR, 4.33; 95% CI, 4.17-4.49) with finasteride, especially in younger men and those with alopecia, but not in older men or those with benign prostatic hyperplasia.

The study authors noted that some studies have suggested that men with depression have low levels of the neurosteroid allopregnanolone, which is produced by the 5-alpha reductase enzyme. Finasteride is a 5-alpha reductase inhibitor.

According to Public Citizen’s lawsuit, “The product labeling does not disclose important information about finasteride’s mechanism of action,” and “the drug inhibits multiple steroid hormone pathways that are responsible for the formation of brain neurosteroids that regulate many critical functions in the central nervous system, like sexual function, mood, sleep, cognitive function, the stress response, and motivation.”

Dr. Jacobs said that “there’s a lot of good solid high-quality research, mostly in animals, but also some on humans, showing a plausible link between blocking 5-alpha reductase in the brain, deficiency of neuroactive steroids, and depression.”

The author of an accompanying editorial, Roger S. Ho, MD, MPH, an associate professor in the department of dermatology, New York University, was skeptical. “Without a plausible biological hypothesis pharmacodynamically linking the drug and the reported adverse event, this kind of analysis may lead to false findings,” Dr. Ho said in the editorial about the Nguyen study.

Dr. Ho also wrote that he believed that the lack of a suicidality signal for dutasteride, a drug with a similar mechanism of action, but without as much media attention, “hints at a potential reporting bias unique to finasteride.”

He recommended that clinicians “conduct a full evaluation and a detailed, personalized risk-benefit assessment for patients before each prescription of finasteride.”
 

Important medicine, important caveats

Dr. Jacobs said that many of the men who come to him with side effects after taking finasteride have “been blown off by most of the doctors they go to see.”

Urologists dismiss them because their sexual dysfunction is not a gonad issue. They are told that it’s in their head, said Dr. Jacobs, adding that, “it is in their head, but it’s biological.”

The drug’s label advises that sexual side effects disappear when the drug is stopped. “That’s only true most of the time, not all of the time,” said Dr. Jacobs, adding that the persistence of any side effects impacts what he calls a “small subset” of men who take the drug.

“We have treated tens of thousands of patients who have benefited from the medicine and had no side effects,” said Dr. Bernstein. “But there is a lot that’s still not known about it.”

Even so, “baldness in young people is not a benign condition,” he said, adding that it can be socially debilitating. “An 18-year-old with a full head of thick hair who’s totally bald in 3 or 4 years – that can totally change his psyche,” Dr. Bernstein said. Finasteride may be the best option for those young men, and it is an important medication, he said. Does it need to be used more carefully? “Certainly you can’t argue with that,” he commented.

Dr. Bernstein and Dr. Irwig reported no conflicts. Dr. Jacobs disclosed that he is an expert witness for the plaintiffs in a suit against Propecia maker Merck.

Cobra the dog has been hard at work at the Miami International Airport, sniffing masks proffered by American Airlines employees making their way through a security checkpoint. If she identifies a specific scent, she’ll let her handler know simply by sitting down. When this good girl sits, that means Cobra has detected an olfactory signal of the coronavirus, the virus that causes COVID-19.

Cobra, a Belgian Malinois, is one of two canines – her partner is One Betta, a Dutch shepherd – working this checkpoint at Miami International. They are part of a pilot program with the Global Forensic and Justice Center at Florida International University, using the detection dogs as a quick screen for people who have COVID-19.

Their detection rate is high, at more than 98%, and the program has been such a success that it’s being extended for another month at the airport.

If these two dogs continue to accurately detect COVID-19, they and other canines with similar training could be deployed to other places with lots of people coming and going at once, including other airports or even schools. In fact, COVID-sniffing dogs are in use in some university classrooms already.

But building up a big brigade of live animals as disease detectors involves some thorny issues, including where the animals retire once their careers are complete.

“When COVID first arose, we said let’s see if we can train these two dogs on either the virus or the odor of COVID-19,” says Kenneth Furton, PhD, a professor of chemistry and biochemistry, provost, and executive vice president at Florida International University.

His team had completed a study with what he calls “medical detector dogs,” animals that might be able to detect the odor of someone having a seizure. That led them to see how well the animals could detect other kinds of disorders.

Training a dog to sniff out specific odors starts with getting them to understand the task in general. Dr. Furton says that the animals first are trained to grasp that their job is to detect one odor among many. Once the dogs grasp that, they can be trained on just about any specific odor.

In fact, in addition to detecting seizures, dogs reportedly have been able to identify diabetes and even some cancers, such as ovarian cancer.

Dr. Furton says he’s not aware of any previous use of dogs to screen for infectious disease. That may simply be because nothing recently has struck with the global ferocity of COVID, driving humans to turn to their best friends for help.

Cobra and One Betta got their start learning to identify the presence of laurel wilt, a fungus that attacks avocado trees and kills them, costing Florida growers millions. With that expertise under their collars, the two dogs need only a few weeks to get good at detecting other smells assigned to them.
 

Training the dogs, safely

To train Cobra and One Betta on COVID-19 odors, Dr. Furton’s team first acquired mask samples from people hospitalized with COVID and people who did not have the disease. In battling the viruses, people produce certain chemicals that they exhale every time they breathe. When Dr. Furton and his colleagues compared the exhaled components trapped in the masks, they found differences between masks from people with COVID and those without.

Having confirmed that exhalations can be COVID-specific, the research team trained four dogs – Cobra, One Betta, Hubble, and Max – to detect masks from people with COVID among an assortment of mask choices. Before this step, though, the researchers made sure that any trace of active virus was destroyed by ultraviolet light so that the dogs would not be infected.

Each time the dogs accurately selected a mask from a COVID patient, their reward was access to a favorite toy: A red ball to chew on. Although all four dogs performed very well, yes, they did, Cobra and One Betta showed the most accuracy, outperforming their training colleagues. From their training scores, Cobra ranked first, with 99.45% accuracy. Despite her name, says Dr. Furton, One Betta was “not one better,” coming in second at 98.1%, which is still quite high.

Both dogs are good at their airport screening duties. If one of them sits after sniffing a mask at the checkpoint, the next step is for the mask owner to be tested.

From Aug. 23 to Sept. 8, the two canines screened 1,093 people during 8 working days, alerting on only one case, according to Greg Chin, communications director for the Miami-Dade Aviation Department. That person had tested positive for COVID 2 weeks earlier and was returning to work after quarantine, and their rapid test after the dog alerted was negative.

Dr. Furton says that there are some reports of dogs also alerting before tests can show a positive result, suggesting the dogs’ odor detection can be more precise. They hope to expand their study to see how tight the window of dog-based detection is.

For now, the detector dogs are doing so well that the program has been extended for 30 more days, Mr. Chin says.

As promising as this seems, using dogs for screening carries some logistical and ethical tangles. Training a canine army to deploy for high-volume detection points means that once the work is done, a whole lot of dogs will need a safe place to retire. In addition, the initial training takes several months, says Dr. Furton, whereas if a device were developed for screening, manufacturing could likely be ramped up quickly to meet demand.

The dogs might not need to retire right away, though.

“We envision that they could be redeployed to another type of detection for another infectious disease” if the need arises, Dr. Furton says. But in the end, when working with dogs, he says, there is “a moral connection that you don’t have to deal with using instruments.”

Although the pilot screening at Miami International is the first airport test, the dogs have also done this work in other venues, including at a state emergency operations center in Florida and in some university classrooms, says Dr. Furton.

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

Cobra the dog has been hard at work at the Miami International Airport, sniffing masks proffered by American Airlines employees making their way through a security checkpoint. If she identifies a specific scent, she’ll let her handler know simply by sitting down. When this good girl sits, that means Cobra has detected an olfactory signal of the coronavirus, the virus that causes COVID-19.

Cobra, a Belgian Malinois, is one of two canines – her partner is One Betta, a Dutch shepherd – working this checkpoint at Miami International. They are part of a pilot program with the Global Forensic and Justice Center at Florida International University, using the detection dogs as a quick screen for people who have COVID-19.

Their detection rate is high, at more than 98%, and the program has been such a success that it’s being extended for another month at the airport.

If these two dogs continue to accurately detect COVID-19, they and other canines with similar training could be deployed to other places with lots of people coming and going at once, including other airports or even schools. In fact, COVID-sniffing dogs are in use in some university classrooms already.

But building up a big brigade of live animals as disease detectors involves some thorny issues, including where the animals retire once their careers are complete.

“When COVID first arose, we said let’s see if we can train these two dogs on either the virus or the odor of COVID-19,” says Kenneth Furton, PhD, a professor of chemistry and biochemistry, provost, and executive vice president at Florida International University.

His team had completed a study with what he calls “medical detector dogs,” animals that might be able to detect the odor of someone having a seizure. That led them to see how well the animals could detect other kinds of disorders.

Training a dog to sniff out specific odors starts with getting them to understand the task in general. Dr. Furton says that the animals first are trained to grasp that their job is to detect one odor among many. Once the dogs grasp that, they can be trained on just about any specific odor.

In fact, in addition to detecting seizures, dogs reportedly have been able to identify diabetes and even some cancers, such as ovarian cancer.

Dr. Furton says he’s not aware of any previous use of dogs to screen for infectious disease. That may simply be because nothing recently has struck with the global ferocity of COVID, driving humans to turn to their best friends for help.

Cobra and One Betta got their start learning to identify the presence of laurel wilt, a fungus that attacks avocado trees and kills them, costing Florida growers millions. With that expertise under their collars, the two dogs need only a few weeks to get good at detecting other smells assigned to them.
 

Training the dogs, safely

To train Cobra and One Betta on COVID-19 odors, Dr. Furton’s team first acquired mask samples from people hospitalized with COVID and people who did not have the disease. In battling the viruses, people produce certain chemicals that they exhale every time they breathe. When Dr. Furton and his colleagues compared the exhaled components trapped in the masks, they found differences between masks from people with COVID and those without.

Having confirmed that exhalations can be COVID-specific, the research team trained four dogs – Cobra, One Betta, Hubble, and Max – to detect masks from people with COVID among an assortment of mask choices. Before this step, though, the researchers made sure that any trace of active virus was destroyed by ultraviolet light so that the dogs would not be infected.

Each time the dogs accurately selected a mask from a COVID patient, their reward was access to a favorite toy: A red ball to chew on. Although all four dogs performed very well, yes, they did, Cobra and One Betta showed the most accuracy, outperforming their training colleagues. From their training scores, Cobra ranked first, with 99.45% accuracy. Despite her name, says Dr. Furton, One Betta was “not one better,” coming in second at 98.1%, which is still quite high.

Both dogs are good at their airport screening duties. If one of them sits after sniffing a mask at the checkpoint, the next step is for the mask owner to be tested.

From Aug. 23 to Sept. 8, the two canines screened 1,093 people during 8 working days, alerting on only one case, according to Greg Chin, communications director for the Miami-Dade Aviation Department. That person had tested positive for COVID 2 weeks earlier and was returning to work after quarantine, and their rapid test after the dog alerted was negative.

Dr. Furton says that there are some reports of dogs also alerting before tests can show a positive result, suggesting the dogs’ odor detection can be more precise. They hope to expand their study to see how tight the window of dog-based detection is.

For now, the detector dogs are doing so well that the program has been extended for 30 more days, Mr. Chin says.

As promising as this seems, using dogs for screening carries some logistical and ethical tangles. Training a canine army to deploy for high-volume detection points means that once the work is done, a whole lot of dogs will need a safe place to retire. In addition, the initial training takes several months, says Dr. Furton, whereas if a device were developed for screening, manufacturing could likely be ramped up quickly to meet demand.

The dogs might not need to retire right away, though.

“We envision that they could be redeployed to another type of detection for another infectious disease” if the need arises, Dr. Furton says. But in the end, when working with dogs, he says, there is “a moral connection that you don’t have to deal with using instruments.”

Although the pilot screening at Miami International is the first airport test, the dogs have also done this work in other venues, including at a state emergency operations center in Florida and in some university classrooms, says Dr. Furton.

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

Cobra the dog has been hard at work at the Miami International Airport, sniffing masks proffered by American Airlines employees making their way through a security checkpoint. If she identifies a specific scent, she’ll let her handler know simply by sitting down. When this good girl sits, that means Cobra has detected an olfactory signal of the coronavirus, the virus that causes COVID-19.

Cobra, a Belgian Malinois, is one of two canines – her partner is One Betta, a Dutch shepherd – working this checkpoint at Miami International. They are part of a pilot program with the Global Forensic and Justice Center at Florida International University, using the detection dogs as a quick screen for people who have COVID-19.

Their detection rate is high, at more than 98%, and the program has been such a success that it’s being extended for another month at the airport.

If these two dogs continue to accurately detect COVID-19, they and other canines with similar training could be deployed to other places with lots of people coming and going at once, including other airports or even schools. In fact, COVID-sniffing dogs are in use in some university classrooms already.

But building up a big brigade of live animals as disease detectors involves some thorny issues, including where the animals retire once their careers are complete.

“When COVID first arose, we said let’s see if we can train these two dogs on either the virus or the odor of COVID-19,” says Kenneth Furton, PhD, a professor of chemistry and biochemistry, provost, and executive vice president at Florida International University.

His team had completed a study with what he calls “medical detector dogs,” animals that might be able to detect the odor of someone having a seizure. That led them to see how well the animals could detect other kinds of disorders.

Training a dog to sniff out specific odors starts with getting them to understand the task in general. Dr. Furton says that the animals first are trained to grasp that their job is to detect one odor among many. Once the dogs grasp that, they can be trained on just about any specific odor.

In fact, in addition to detecting seizures, dogs reportedly have been able to identify diabetes and even some cancers, such as ovarian cancer.

Dr. Furton says he’s not aware of any previous use of dogs to screen for infectious disease. That may simply be because nothing recently has struck with the global ferocity of COVID, driving humans to turn to their best friends for help.

Cobra and One Betta got their start learning to identify the presence of laurel wilt, a fungus that attacks avocado trees and kills them, costing Florida growers millions. With that expertise under their collars, the two dogs need only a few weeks to get good at detecting other smells assigned to them.
 

Training the dogs, safely

To train Cobra and One Betta on COVID-19 odors, Dr. Furton’s team first acquired mask samples from people hospitalized with COVID and people who did not have the disease. In battling the viruses, people produce certain chemicals that they exhale every time they breathe. When Dr. Furton and his colleagues compared the exhaled components trapped in the masks, they found differences between masks from people with COVID and those without.

Having confirmed that exhalations can be COVID-specific, the research team trained four dogs – Cobra, One Betta, Hubble, and Max – to detect masks from people with COVID among an assortment of mask choices. Before this step, though, the researchers made sure that any trace of active virus was destroyed by ultraviolet light so that the dogs would not be infected.

Each time the dogs accurately selected a mask from a COVID patient, their reward was access to a favorite toy: A red ball to chew on. Although all four dogs performed very well, yes, they did, Cobra and One Betta showed the most accuracy, outperforming their training colleagues. From their training scores, Cobra ranked first, with 99.45% accuracy. Despite her name, says Dr. Furton, One Betta was “not one better,” coming in second at 98.1%, which is still quite high.

Both dogs are good at their airport screening duties. If one of them sits after sniffing a mask at the checkpoint, the next step is for the mask owner to be tested.

From Aug. 23 to Sept. 8, the two canines screened 1,093 people during 8 working days, alerting on only one case, according to Greg Chin, communications director for the Miami-Dade Aviation Department. That person had tested positive for COVID 2 weeks earlier and was returning to work after quarantine, and their rapid test after the dog alerted was negative.

Dr. Furton says that there are some reports of dogs also alerting before tests can show a positive result, suggesting the dogs’ odor detection can be more precise. They hope to expand their study to see how tight the window of dog-based detection is.

For now, the detector dogs are doing so well that the program has been extended for 30 more days, Mr. Chin says.

As promising as this seems, using dogs for screening carries some logistical and ethical tangles. Training a canine army to deploy for high-volume detection points means that once the work is done, a whole lot of dogs will need a safe place to retire. In addition, the initial training takes several months, says Dr. Furton, whereas if a device were developed for screening, manufacturing could likely be ramped up quickly to meet demand.

The dogs might not need to retire right away, though.

“We envision that they could be redeployed to another type of detection for another infectious disease” if the need arises, Dr. Furton says. But in the end, when working with dogs, he says, there is “a moral connection that you don’t have to deal with using instruments.”

Although the pilot screening at Miami International is the first airport test, the dogs have also done this work in other venues, including at a state emergency operations center in Florida and in some university classrooms, says Dr. Furton.

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

Disturbances in gut microbiota are associated with depletion of anti-inflammatory bacteria and proliferation of proinflammatory bacteria, a pattern tied to several major psychiatric disorders including depression, bipolar disorder (BD), schizophrenia, and anxiety, new research shows.

ChrisChrisW/iStock/Getty Images Plus

A meta-analysis of 59 studies, encompassing roughly 2,600 patients with psychiatric conditions, showed a decrease in microbial richness in patients with psychiatric conditions versus controls.

In addition, those with depression, anxiety, BD, and psychosis had a similar set of abnormalities in the microbiota, particularly lower levels of Faecalibacterium and Coprococcus – two types of bacteria that have an anti-inflammatory effect in gut – and higher levels of Eggerthella, a bacterium with proinflammatory effects.

“The wealth of evidence we have summarized clearly demonstrates that the gut microbiota is vitally important to the wider mental health of individuals,” lead author Viktoriya Nikolova, MRes, Centre for Affective Disorders, King’s College London, said in an interview.

“While it is still too early to recommend specific interventions, it’s clear that clinicians need to place a greater awareness of gut health when considering the treatment of certain psychiatric disorders,” she said.

The study was published online Sept. 15, 2021, in JAMA Psychiatry.
 

Reliable biomarkers

“Evidence of gut microbiota perturbations has accumulated for multiple psychiatric disorders, with microbiota signatures proposed as potential biomarkers,” the authors wrote.

However, “while there is a wealth of evidence to suggest that abnormalities within the composition of the gut microbiota are connected to a number of psychiatric disorders, there haven’t been any attempts to evaluate the specificity of this evidence – that is, if these changes are unique to specific disorders or shared across many,” Ms. Nikolova said.

Previous research in individual disorders has identified “patterns that may be promising biomarker targets,” with the potential to “improve diagnostic accuracy, guide treatment, and assist the monitoring of treatment response,” the authors noted.

“We wanted to see if we could reliably establish biomarkers for individual conditions in an effort to further our understanding of the relationship between mental illness and gut microbiota,” said Ms. Nikolova.

The researchers wanted to “evaluate the specificity and reproducibility of gut microbiota alterations and delineate those with potential to become biomarkers.”

They identified 59 studies (64 case-control comparisons; n = 2,643 patients, 2,336 controls). Most (54.2%) were conducted in East Asia, followed by Westernized populations (40.7%) and Africa (1.7%).

These studies evaluated diversity or abundance of gut microbes in adult populations encompassing an array of psychiatric disorders: major depressive disorder (MDD), BD, psychosis and schizophrenia, eating disorders (anorexia nervosa and bulimia nervosa), anxiety, obsessive-compulsive disorder (OCD), PTSD, and ADHD.

Although studies were similar in exclusion criteria, few attempted to minimize dietary changes or control dietary intake. In addition, use of psychiatric medication also “varied substantially.”

The researchers conducted several analyses, with primary outcomes consisting of “community-level measures of gut microbiota composition (alpha and beta diversity) as well as taxonomic findings at the phylum, family, and genus levels (relative abundance).”

Alpha diversity provides a “summary of the microbial community in individual samples,” which “can be compared across groups to evaluate the role of a particular factor (in this case psychiatric diagnosis) on the richness (number of species) and evenness (how well each species is represented) in the sample.”

Beta diversity, on the other hand, “measures interindividual (between samples) diversity that assesses similarity of communities, compared with the other samples analyzed.”

Control samples consisted of participants without the relevant condition.
 

Biological overlap?

The alpha-diversity meta-analysis encompassed 34 studies (n = 1,519 patients, 1,429 controls). The researchers found significant decreases in microbial richness in patients, compared with controls (observed species standardized mean difference, −0.26; 95% CI, −0.47 to −0.06; Chao1 SMD, −0.5; 95% CI, −0.79 to −0.21). On the other hand, when they examined each diagnosis separately, they found consistent decreases only in bipolar disorder. There was a small, nonsignificant decrease in phylogenetic diversity between groups.

MDD, psychosis, and schizophrenia were the only conditions in which differences in beta diversity were consistently observed.

“These findings suggest there is reliable evidence for differences in the shared phylogenetic structure in MDD and psychosis and schizophrenia compared with controls,” the authors write.

However, “method of measurement and method of patient classification (symptom vs. diagnosis based) may affect findings,” they added.

When they focused on relative abundance, they found “little evidence” of disorder specificity, but rather a “transdiagnostic pattern of microbiota signatures.”

In particular, depleted levels of Faecalibacterium and Coprococcus and enriched levels of Eggerthella were “consistently shared” between MDD, BD, psychosis and schizophrenia, and anxiety, “suggesting these disorders are characterized by a reduction of anti-inflammatory butyrate-producing bacteria, while proinflammatory genera are enriched.”

“The finding that these perturbations do not appear to be disorder-specific suggests that the microbiota is affected in a similar manner by conditions such as depression, anxiety, bipolar disorder, and psychosis,” said Ms. Nikolova.

“We have seen similar findings from previous meta-analyses of inflammatory marker studies and genetic studies, for example, suggesting that there is a biological overlap between these conditions, which we have now also seen in the microbiota.”

The authors highlighted potential confounders, including study region and medication use.

Conditions such as MDD, psychosis, and schizophrenia were “largely investigated in the East,” while anorexia nervosa and OCD were primarily investigated in the West.

Moreover, comparing results from medication-free studies with those in which 80% or more of patients were taking psychiatric medication showed increases in bacterial families Lactobacillaceae, Klebsiella, Streptococcus, and Megasphaera only in medicated groups, and decreases in Dialister.

In light of these confounders, the findings should be considered “preliminary,” the investigators noted.

Greater standardization needed

Commenting on the study, Emeran Mayer, MD, director of the Oppenheimer Center for Neurobiology of Stress and Resilience at the University of California, Los Angeles, said it is “intriguing to speculate that low-grade immune activation due to reduced production of butyrate may be such a generalized factor affecting microbial composition shared similarly in several brain disorders. However, such a mechanism has not been confirmed in mechanistic studies to date.”

In addition, the study “lumps together a large number of studies and heterogeneous patient populations, with and without centrally acting medication, without adequate dietary history, studied in different ethnic populations, studied with highly variable collection and analysis methods, including highly variable sample and study sizes for different diseases, and using only measures of microbial composition but not function,” cautioned Dr. Mayer, who was not involved in the research.

Future studies “with much greater standardization of subject populations and clinical and biological analyses techniques should be performed to reevaluate the results of the current study and confirm or reject the main hypotheses,” asserted Dr. Mayer, who is also the founding director of the UCLA Brain Gut Microbiome Center.

Ms. Nikolova is funded by a Medical Research Council PhD Studentship. Other sources of funding include the National Institute for Health Research Biomedical Research Centre at South London and Maudsley National Health Service Foundation Trust and King’s College London. Ms. Nikolova has disclosed no relevant financial relationships. Dr. Mayer is a scientific advisory board member of Danone, Axial Therapeutics, Viome, Amare, Mahana Therapeutics, Pendulum, Bloom Biosciences, and APC Microbiome Ireland.

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

Disturbances in gut microbiota are associated with depletion of anti-inflammatory bacteria and proliferation of proinflammatory bacteria, a pattern tied to several major psychiatric disorders including depression, bipolar disorder (BD), schizophrenia, and anxiety, new research shows.

ChrisChrisW/iStock/Getty Images Plus

A meta-analysis of 59 studies, encompassing roughly 2,600 patients with psychiatric conditions, showed a decrease in microbial richness in patients with psychiatric conditions versus controls.

In addition, those with depression, anxiety, BD, and psychosis had a similar set of abnormalities in the microbiota, particularly lower levels of Faecalibacterium and Coprococcus – two types of bacteria that have an anti-inflammatory effect in gut – and higher levels of Eggerthella, a bacterium with proinflammatory effects.

“The wealth of evidence we have summarized clearly demonstrates that the gut microbiota is vitally important to the wider mental health of individuals,” lead author Viktoriya Nikolova, MRes, Centre for Affective Disorders, King’s College London, said in an interview.

“While it is still too early to recommend specific interventions, it’s clear that clinicians need to place a greater awareness of gut health when considering the treatment of certain psychiatric disorders,” she said.

The study was published online Sept. 15, 2021, in JAMA Psychiatry.
 

Reliable biomarkers

“Evidence of gut microbiota perturbations has accumulated for multiple psychiatric disorders, with microbiota signatures proposed as potential biomarkers,” the authors wrote.

However, “while there is a wealth of evidence to suggest that abnormalities within the composition of the gut microbiota are connected to a number of psychiatric disorders, there haven’t been any attempts to evaluate the specificity of this evidence – that is, if these changes are unique to specific disorders or shared across many,” Ms. Nikolova said.

Previous research in individual disorders has identified “patterns that may be promising biomarker targets,” with the potential to “improve diagnostic accuracy, guide treatment, and assist the monitoring of treatment response,” the authors noted.

“We wanted to see if we could reliably establish biomarkers for individual conditions in an effort to further our understanding of the relationship between mental illness and gut microbiota,” said Ms. Nikolova.

The researchers wanted to “evaluate the specificity and reproducibility of gut microbiota alterations and delineate those with potential to become biomarkers.”

They identified 59 studies (64 case-control comparisons; n = 2,643 patients, 2,336 controls). Most (54.2%) were conducted in East Asia, followed by Westernized populations (40.7%) and Africa (1.7%).

These studies evaluated diversity or abundance of gut microbes in adult populations encompassing an array of psychiatric disorders: major depressive disorder (MDD), BD, psychosis and schizophrenia, eating disorders (anorexia nervosa and bulimia nervosa), anxiety, obsessive-compulsive disorder (OCD), PTSD, and ADHD.

Although studies were similar in exclusion criteria, few attempted to minimize dietary changes or control dietary intake. In addition, use of psychiatric medication also “varied substantially.”

The researchers conducted several analyses, with primary outcomes consisting of “community-level measures of gut microbiota composition (alpha and beta diversity) as well as taxonomic findings at the phylum, family, and genus levels (relative abundance).”

Alpha diversity provides a “summary of the microbial community in individual samples,” which “can be compared across groups to evaluate the role of a particular factor (in this case psychiatric diagnosis) on the richness (number of species) and evenness (how well each species is represented) in the sample.”

Beta diversity, on the other hand, “measures interindividual (between samples) diversity that assesses similarity of communities, compared with the other samples analyzed.”

Control samples consisted of participants without the relevant condition.
 

Biological overlap?

The alpha-diversity meta-analysis encompassed 34 studies (n = 1,519 patients, 1,429 controls). The researchers found significant decreases in microbial richness in patients, compared with controls (observed species standardized mean difference, −0.26; 95% CI, −0.47 to −0.06; Chao1 SMD, −0.5; 95% CI, −0.79 to −0.21). On the other hand, when they examined each diagnosis separately, they found consistent decreases only in bipolar disorder. There was a small, nonsignificant decrease in phylogenetic diversity between groups.

MDD, psychosis, and schizophrenia were the only conditions in which differences in beta diversity were consistently observed.

“These findings suggest there is reliable evidence for differences in the shared phylogenetic structure in MDD and psychosis and schizophrenia compared with controls,” the authors write.

However, “method of measurement and method of patient classification (symptom vs. diagnosis based) may affect findings,” they added.

When they focused on relative abundance, they found “little evidence” of disorder specificity, but rather a “transdiagnostic pattern of microbiota signatures.”

In particular, depleted levels of Faecalibacterium and Coprococcus and enriched levels of Eggerthella were “consistently shared” between MDD, BD, psychosis and schizophrenia, and anxiety, “suggesting these disorders are characterized by a reduction of anti-inflammatory butyrate-producing bacteria, while proinflammatory genera are enriched.”

“The finding that these perturbations do not appear to be disorder-specific suggests that the microbiota is affected in a similar manner by conditions such as depression, anxiety, bipolar disorder, and psychosis,” said Ms. Nikolova.

“We have seen similar findings from previous meta-analyses of inflammatory marker studies and genetic studies, for example, suggesting that there is a biological overlap between these conditions, which we have now also seen in the microbiota.”

The authors highlighted potential confounders, including study region and medication use.

Conditions such as MDD, psychosis, and schizophrenia were “largely investigated in the East,” while anorexia nervosa and OCD were primarily investigated in the West.

Moreover, comparing results from medication-free studies with those in which 80% or more of patients were taking psychiatric medication showed increases in bacterial families Lactobacillaceae, Klebsiella, Streptococcus, and Megasphaera only in medicated groups, and decreases in Dialister.

In light of these confounders, the findings should be considered “preliminary,” the investigators noted.

Greater standardization needed

Commenting on the study, Emeran Mayer, MD, director of the Oppenheimer Center for Neurobiology of Stress and Resilience at the University of California, Los Angeles, said it is “intriguing to speculate that low-grade immune activation due to reduced production of butyrate may be such a generalized factor affecting microbial composition shared similarly in several brain disorders. However, such a mechanism has not been confirmed in mechanistic studies to date.”

In addition, the study “lumps together a large number of studies and heterogeneous patient populations, with and without centrally acting medication, without adequate dietary history, studied in different ethnic populations, studied with highly variable collection and analysis methods, including highly variable sample and study sizes for different diseases, and using only measures of microbial composition but not function,” cautioned Dr. Mayer, who was not involved in the research.

Future studies “with much greater standardization of subject populations and clinical and biological analyses techniques should be performed to reevaluate the results of the current study and confirm or reject the main hypotheses,” asserted Dr. Mayer, who is also the founding director of the UCLA Brain Gut Microbiome Center.

Ms. Nikolova is funded by a Medical Research Council PhD Studentship. Other sources of funding include the National Institute for Health Research Biomedical Research Centre at South London and Maudsley National Health Service Foundation Trust and King’s College London. Ms. Nikolova has disclosed no relevant financial relationships. Dr. Mayer is a scientific advisory board member of Danone, Axial Therapeutics, Viome, Amare, Mahana Therapeutics, Pendulum, Bloom Biosciences, and APC Microbiome Ireland.

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

Disturbances in gut microbiota are associated with depletion of anti-inflammatory bacteria and proliferation of proinflammatory bacteria, a pattern tied to several major psychiatric disorders including depression, bipolar disorder (BD), schizophrenia, and anxiety, new research shows.

ChrisChrisW/iStock/Getty Images Plus

A meta-analysis of 59 studies, encompassing roughly 2,600 patients with psychiatric conditions, showed a decrease in microbial richness in patients with psychiatric conditions versus controls.

In addition, those with depression, anxiety, BD, and psychosis had a similar set of abnormalities in the microbiota, particularly lower levels of Faecalibacterium and Coprococcus – two types of bacteria that have an anti-inflammatory effect in gut – and higher levels of Eggerthella, a bacterium with proinflammatory effects.

“The wealth of evidence we have summarized clearly demonstrates that the gut microbiota is vitally important to the wider mental health of individuals,” lead author Viktoriya Nikolova, MRes, Centre for Affective Disorders, King’s College London, said in an interview.

“While it is still too early to recommend specific interventions, it’s clear that clinicians need to place a greater awareness of gut health when considering the treatment of certain psychiatric disorders,” she said.

The study was published online Sept. 15, 2021, in JAMA Psychiatry.
 

Reliable biomarkers

“Evidence of gut microbiota perturbations has accumulated for multiple psychiatric disorders, with microbiota signatures proposed as potential biomarkers,” the authors wrote.

However, “while there is a wealth of evidence to suggest that abnormalities within the composition of the gut microbiota are connected to a number of psychiatric disorders, there haven’t been any attempts to evaluate the specificity of this evidence – that is, if these changes are unique to specific disorders or shared across many,” Ms. Nikolova said.

Previous research in individual disorders has identified “patterns that may be promising biomarker targets,” with the potential to “improve diagnostic accuracy, guide treatment, and assist the monitoring of treatment response,” the authors noted.

“We wanted to see if we could reliably establish biomarkers for individual conditions in an effort to further our understanding of the relationship between mental illness and gut microbiota,” said Ms. Nikolova.

The researchers wanted to “evaluate the specificity and reproducibility of gut microbiota alterations and delineate those with potential to become biomarkers.”

They identified 59 studies (64 case-control comparisons; n = 2,643 patients, 2,336 controls). Most (54.2%) were conducted in East Asia, followed by Westernized populations (40.7%) and Africa (1.7%).

These studies evaluated diversity or abundance of gut microbes in adult populations encompassing an array of psychiatric disorders: major depressive disorder (MDD), BD, psychosis and schizophrenia, eating disorders (anorexia nervosa and bulimia nervosa), anxiety, obsessive-compulsive disorder (OCD), PTSD, and ADHD.

Although studies were similar in exclusion criteria, few attempted to minimize dietary changes or control dietary intake. In addition, use of psychiatric medication also “varied substantially.”

The researchers conducted several analyses, with primary outcomes consisting of “community-level measures of gut microbiota composition (alpha and beta diversity) as well as taxonomic findings at the phylum, family, and genus levels (relative abundance).”

Alpha diversity provides a “summary of the microbial community in individual samples,” which “can be compared across groups to evaluate the role of a particular factor (in this case psychiatric diagnosis) on the richness (number of species) and evenness (how well each species is represented) in the sample.”

Beta diversity, on the other hand, “measures interindividual (between samples) diversity that assesses similarity of communities, compared with the other samples analyzed.”

Control samples consisted of participants without the relevant condition.
 

Biological overlap?

The alpha-diversity meta-analysis encompassed 34 studies (n = 1,519 patients, 1,429 controls). The researchers found significant decreases in microbial richness in patients, compared with controls (observed species standardized mean difference, −0.26; 95% CI, −0.47 to −0.06; Chao1 SMD, −0.5; 95% CI, −0.79 to −0.21). On the other hand, when they examined each diagnosis separately, they found consistent decreases only in bipolar disorder. There was a small, nonsignificant decrease in phylogenetic diversity between groups.

MDD, psychosis, and schizophrenia were the only conditions in which differences in beta diversity were consistently observed.

“These findings suggest there is reliable evidence for differences in the shared phylogenetic structure in MDD and psychosis and schizophrenia compared with controls,” the authors write.

However, “method of measurement and method of patient classification (symptom vs. diagnosis based) may affect findings,” they added.

When they focused on relative abundance, they found “little evidence” of disorder specificity, but rather a “transdiagnostic pattern of microbiota signatures.”

In particular, depleted levels of Faecalibacterium and Coprococcus and enriched levels of Eggerthella were “consistently shared” between MDD, BD, psychosis and schizophrenia, and anxiety, “suggesting these disorders are characterized by a reduction of anti-inflammatory butyrate-producing bacteria, while proinflammatory genera are enriched.”

“The finding that these perturbations do not appear to be disorder-specific suggests that the microbiota is affected in a similar manner by conditions such as depression, anxiety, bipolar disorder, and psychosis,” said Ms. Nikolova.

“We have seen similar findings from previous meta-analyses of inflammatory marker studies and genetic studies, for example, suggesting that there is a biological overlap between these conditions, which we have now also seen in the microbiota.”

The authors highlighted potential confounders, including study region and medication use.

Conditions such as MDD, psychosis, and schizophrenia were “largely investigated in the East,” while anorexia nervosa and OCD were primarily investigated in the West.

Moreover, comparing results from medication-free studies with those in which 80% or more of patients were taking psychiatric medication showed increases in bacterial families Lactobacillaceae, Klebsiella, Streptococcus, and Megasphaera only in medicated groups, and decreases in Dialister.

In light of these confounders, the findings should be considered “preliminary,” the investigators noted.

Greater standardization needed

Commenting on the study, Emeran Mayer, MD, director of the Oppenheimer Center for Neurobiology of Stress and Resilience at the University of California, Los Angeles, said it is “intriguing to speculate that low-grade immune activation due to reduced production of butyrate may be such a generalized factor affecting microbial composition shared similarly in several brain disorders. However, such a mechanism has not been confirmed in mechanistic studies to date.”

In addition, the study “lumps together a large number of studies and heterogeneous patient populations, with and without centrally acting medication, without adequate dietary history, studied in different ethnic populations, studied with highly variable collection and analysis methods, including highly variable sample and study sizes for different diseases, and using only measures of microbial composition but not function,” cautioned Dr. Mayer, who was not involved in the research.

Future studies “with much greater standardization of subject populations and clinical and biological analyses techniques should be performed to reevaluate the results of the current study and confirm or reject the main hypotheses,” asserted Dr. Mayer, who is also the founding director of the UCLA Brain Gut Microbiome Center.

Ms. Nikolova is funded by a Medical Research Council PhD Studentship. Other sources of funding include the National Institute for Health Research Biomedical Research Centre at South London and Maudsley National Health Service Foundation Trust and King’s College London. Ms. Nikolova has disclosed no relevant financial relationships. Dr. Mayer is a scientific advisory board member of Danone, Axial Therapeutics, Viome, Amare, Mahana Therapeutics, Pendulum, Bloom Biosciences, and APC Microbiome Ireland.

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

An unusual surge of new-onset tics in patients with no prior history of these disorders has been tied to the psychological stress associated with the COVID-19 pandemic, new research suggests.

Results from a large, single-center study show several cases of tic-like movements and vocalizations with abrupt onset among older adolescents and adults during the pandemic. None had a previous diagnosis of a tic disorder. Among 10 patients, two were diagnosed with a purely functional movement disorder, four with an organic tic disorder, and four with both.

“Within our movement disorders clinic specifically ... we’ve been seeing an increased number of patients with an almost explosive onset of these tic-like movements and vocalizations later in life than what is typically seen with organic tic disorders and Tourette syndrome, which is typically in school-aged children,” said study investigator Caroline Olvera, MD, Rush University Medical Center, Chicago.

“Abrupt onset of symptoms can be seen in patients with tic disorders, although this is typically quoted as less than 10%, or even 5% is more characteristic of functional neurological disorders in general and also with psychogenic tics,” she added.

The findings were presented at the International Congress of Parkinson’s Disease and Movement Disorders.
 

Anxiety, other psychiatric conditions

Tic disorders typically start in childhood. However, the researchers observed an increase in the number of patients with abrupt onset of tic-like movements and vocalizations later in life, which is more often characteristic of functional neurological disorders.

To examine the profile, associated conditions, and risk factors in this population, the investigators conducted a thorough chart review of patients attending movement disorder clinics between March 2020, when the COVID pandemic was officially declared, and March 2021.

Patients with acute onset of tics were identified using the International Classification of Diseases codes for behavioral tics, tic vocalizations, and Tourette syndrome.

The charts were then narrowed down to patients with no previous diagnosis of these conditions. Most patients were videotaped for assessment by the rest of the movement disorder neurologists in the practice. Since the end of the study inclusion period in March 2021, Dr. Olvera estimates that the clinic experienced a doubling or tripling of the number of similar patients.

In the study cohort of 10 patients, the median age at presentation was 19 years (range, 15-41 years), nine were female, the gender of the other one was unknown, and the duration of tics was 8 weeks (range, 1-24 weeks) by the time they were first seen in the clinic. Four patients reported having COVID infection before tic onset.

All exhibited motor tics and nine had vocal tics. Two were diagnosed with a purely functional neurologic disorder, four with only an organic tic disorder, and four with organic tics with a functional overlay.

“All patients, including those with organic tic disorders, had a history of anxiety and also reported worsening anxiety in the setting of the COVID pandemic,” Dr. Olvera said.

The majority of patients were on a psychotropic medication prior to coming to the clinic, and these were primarily for anxiety and depression. Three patients had a history of suicidality, often very severe and leading to hospitalization, she noted.

“In terms of our conclusions from the project, we feel that this phenotype of acute explosive onset of tic-like movements and vocalizations in this older population of adults, compared with typical organic tic disorders and Tourette syndrome, appears novel to the pandemic,” she said.

She cautioned that functional and organic tics share many characteristics and therefore may be difficult to differentiate.
 

COVID stress

Commenting on the findings, Michele Tagliati, MD, director of the movement disorders program at Cedars-Sinai Medical Center, Los Angeles, said the research highlights how clinicians’ understanding of particular diseases can be challenged during extraordinary events such as COVID-19 and the heightened stress it causes.

“I’m not surprised that these [disorders] might have had a spike during a stressful time as COVID,” he said.

Patients are “really scared and really anxious, they’re afraid to die, and they’re afraid that their life will be over. So they might express their psychological difficulty, their discomfort, with these calls for help that look like tics. But they’re not what we consider physiological or organic things,” he added.

Dr. Tagliati added that he doesn’t believe rapid tic onset in adults is not a complication of the coronavirus infection, but rather a consequence of psychological pressure brought on by the pandemic.

Treating underlying anxiety may be a useful approach, possibly with the support of psychiatrists, which in many cases is enough to relieve the conditions and overcome the symptoms, he noted.

However, at other times, it’s not that simple, he added. Sometimes patients “fall through the cracks between neurology and psychiatry,” Dr. Tagliati said.

Dr. Olvera and Dr. Tagliati have disclosed no relevant financial relationships.

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

An unusual surge of new-onset tics in patients with no prior history of these disorders has been tied to the psychological stress associated with the COVID-19 pandemic, new research suggests.

Results from a large, single-center study show several cases of tic-like movements and vocalizations with abrupt onset among older adolescents and adults during the pandemic. None had a previous diagnosis of a tic disorder. Among 10 patients, two were diagnosed with a purely functional movement disorder, four with an organic tic disorder, and four with both.

“Within our movement disorders clinic specifically ... we’ve been seeing an increased number of patients with an almost explosive onset of these tic-like movements and vocalizations later in life than what is typically seen with organic tic disorders and Tourette syndrome, which is typically in school-aged children,” said study investigator Caroline Olvera, MD, Rush University Medical Center, Chicago.

“Abrupt onset of symptoms can be seen in patients with tic disorders, although this is typically quoted as less than 10%, or even 5% is more characteristic of functional neurological disorders in general and also with psychogenic tics,” she added.

The findings were presented at the International Congress of Parkinson’s Disease and Movement Disorders.
 

Anxiety, other psychiatric conditions

Tic disorders typically start in childhood. However, the researchers observed an increase in the number of patients with abrupt onset of tic-like movements and vocalizations later in life, which is more often characteristic of functional neurological disorders.

To examine the profile, associated conditions, and risk factors in this population, the investigators conducted a thorough chart review of patients attending movement disorder clinics between March 2020, when the COVID pandemic was officially declared, and March 2021.

Patients with acute onset of tics were identified using the International Classification of Diseases codes for behavioral tics, tic vocalizations, and Tourette syndrome.

The charts were then narrowed down to patients with no previous diagnosis of these conditions. Most patients were videotaped for assessment by the rest of the movement disorder neurologists in the practice. Since the end of the study inclusion period in March 2021, Dr. Olvera estimates that the clinic experienced a doubling or tripling of the number of similar patients.

In the study cohort of 10 patients, the median age at presentation was 19 years (range, 15-41 years), nine were female, the gender of the other one was unknown, and the duration of tics was 8 weeks (range, 1-24 weeks) by the time they were first seen in the clinic. Four patients reported having COVID infection before tic onset.

All exhibited motor tics and nine had vocal tics. Two were diagnosed with a purely functional neurologic disorder, four with only an organic tic disorder, and four with organic tics with a functional overlay.

“All patients, including those with organic tic disorders, had a history of anxiety and also reported worsening anxiety in the setting of the COVID pandemic,” Dr. Olvera said.

The majority of patients were on a psychotropic medication prior to coming to the clinic, and these were primarily for anxiety and depression. Three patients had a history of suicidality, often very severe and leading to hospitalization, she noted.

“In terms of our conclusions from the project, we feel that this phenotype of acute explosive onset of tic-like movements and vocalizations in this older population of adults, compared with typical organic tic disorders and Tourette syndrome, appears novel to the pandemic,” she said.

She cautioned that functional and organic tics share many characteristics and therefore may be difficult to differentiate.
 

COVID stress

Commenting on the findings, Michele Tagliati, MD, director of the movement disorders program at Cedars-Sinai Medical Center, Los Angeles, said the research highlights how clinicians’ understanding of particular diseases can be challenged during extraordinary events such as COVID-19 and the heightened stress it causes.

“I’m not surprised that these [disorders] might have had a spike during a stressful time as COVID,” he said.

Patients are “really scared and really anxious, they’re afraid to die, and they’re afraid that their life will be over. So they might express their psychological difficulty, their discomfort, with these calls for help that look like tics. But they’re not what we consider physiological or organic things,” he added.

Dr. Tagliati added that he doesn’t believe rapid tic onset in adults is not a complication of the coronavirus infection, but rather a consequence of psychological pressure brought on by the pandemic.

Treating underlying anxiety may be a useful approach, possibly with the support of psychiatrists, which in many cases is enough to relieve the conditions and overcome the symptoms, he noted.

However, at other times, it’s not that simple, he added. Sometimes patients “fall through the cracks between neurology and psychiatry,” Dr. Tagliati said.

Dr. Olvera and Dr. Tagliati have disclosed no relevant financial relationships.

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

An unusual surge of new-onset tics in patients with no prior history of these disorders has been tied to the psychological stress associated with the COVID-19 pandemic, new research suggests.

Results from a large, single-center study show several cases of tic-like movements and vocalizations with abrupt onset among older adolescents and adults during the pandemic. None had a previous diagnosis of a tic disorder. Among 10 patients, two were diagnosed with a purely functional movement disorder, four with an organic tic disorder, and four with both.

“Within our movement disorders clinic specifically ... we’ve been seeing an increased number of patients with an almost explosive onset of these tic-like movements and vocalizations later in life than what is typically seen with organic tic disorders and Tourette syndrome, which is typically in school-aged children,” said study investigator Caroline Olvera, MD, Rush University Medical Center, Chicago.

“Abrupt onset of symptoms can be seen in patients with tic disorders, although this is typically quoted as less than 10%, or even 5% is more characteristic of functional neurological disorders in general and also with psychogenic tics,” she added.

The findings were presented at the International Congress of Parkinson’s Disease and Movement Disorders.
 

Anxiety, other psychiatric conditions

Tic disorders typically start in childhood. However, the researchers observed an increase in the number of patients with abrupt onset of tic-like movements and vocalizations later in life, which is more often characteristic of functional neurological disorders.

To examine the profile, associated conditions, and risk factors in this population, the investigators conducted a thorough chart review of patients attending movement disorder clinics between March 2020, when the COVID pandemic was officially declared, and March 2021.

Patients with acute onset of tics were identified using the International Classification of Diseases codes for behavioral tics, tic vocalizations, and Tourette syndrome.

The charts were then narrowed down to patients with no previous diagnosis of these conditions. Most patients were videotaped for assessment by the rest of the movement disorder neurologists in the practice. Since the end of the study inclusion period in March 2021, Dr. Olvera estimates that the clinic experienced a doubling or tripling of the number of similar patients.

In the study cohort of 10 patients, the median age at presentation was 19 years (range, 15-41 years), nine were female, the gender of the other one was unknown, and the duration of tics was 8 weeks (range, 1-24 weeks) by the time they were first seen in the clinic. Four patients reported having COVID infection before tic onset.

All exhibited motor tics and nine had vocal tics. Two were diagnosed with a purely functional neurologic disorder, four with only an organic tic disorder, and four with organic tics with a functional overlay.

“All patients, including those with organic tic disorders, had a history of anxiety and also reported worsening anxiety in the setting of the COVID pandemic,” Dr. Olvera said.

The majority of patients were on a psychotropic medication prior to coming to the clinic, and these were primarily for anxiety and depression. Three patients had a history of suicidality, often very severe and leading to hospitalization, she noted.

“In terms of our conclusions from the project, we feel that this phenotype of acute explosive onset of tic-like movements and vocalizations in this older population of adults, compared with typical organic tic disorders and Tourette syndrome, appears novel to the pandemic,” she said.

She cautioned that functional and organic tics share many characteristics and therefore may be difficult to differentiate.
 

COVID stress

Commenting on the findings, Michele Tagliati, MD, director of the movement disorders program at Cedars-Sinai Medical Center, Los Angeles, said the research highlights how clinicians’ understanding of particular diseases can be challenged during extraordinary events such as COVID-19 and the heightened stress it causes.

“I’m not surprised that these [disorders] might have had a spike during a stressful time as COVID,” he said.

Patients are “really scared and really anxious, they’re afraid to die, and they’re afraid that their life will be over. So they might express their psychological difficulty, their discomfort, with these calls for help that look like tics. But they’re not what we consider physiological or organic things,” he added.

Dr. Tagliati added that he doesn’t believe rapid tic onset in adults is not a complication of the coronavirus infection, but rather a consequence of psychological pressure brought on by the pandemic.

Treating underlying anxiety may be a useful approach, possibly with the support of psychiatrists, which in many cases is enough to relieve the conditions and overcome the symptoms, he noted.

However, at other times, it’s not that simple, he added. Sometimes patients “fall through the cracks between neurology and psychiatry,” Dr. Tagliati said.

Dr. Olvera and Dr. Tagliati have disclosed no relevant financial relationships.

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

On Sept. 5, Rashid Buttar, DO, posted on Twitter that COVID-19 “was a planned operation” and shared an article alleging that most people who got the COVID vaccine would be dead by 2025.

His statement is a recent example in what has been a steady stream of spurious claims surrounding the COVID vaccines and treatments that swirl around the public consciousness. Others include testimony in June by Sherri Jane Tenpenny, DO, before Ohio state legislators that the vaccine could cause people to become magnetized. Clips from the hearing went viral on the Internet. On April 9, 2020, Joseph Mercola, DO, posted a video titled “Could hydrogen peroxide treat coronavirus?” which was shared more than 4,600 times. In the video, Dr. Mercola said inhaling hydrogen peroxide through a nebulizer could prevent or cure COVID.

These physicians are identified as members of the “Disinformation Dozen,” a group of top superspreaders of COVID vaccine misinformation on social media, according to a 2021 report by the nonprofit Center for Countering Digital Hate. The report, based on an analysis of antivaccine content on social media platforms, found that 12 people were responsible for 65% of it. The group is composed of physicians, antivaccine activists, and people known for promoting alternative medicine.

The physician voices are of particular concern because their medical credentials lend credence to their unproven, often dangerous pronouncements. All three continue to hold medical licenses and have not faced consequences for their COVID-related statements.

But leaders of professional medical organizations increasingly are calling for that to change and urging medical oversight boards to take more aggressive action.

In July, the Federation of State Medical Boards, the national umbrella organization for the state-based boards, issued a statement making clear that doctors who generate and spread COVID misinformation could be subject to disciplinary action, including the suspension or revocation of their licenses. The American Board of Family Medicine, American Board of Internal Medicine, and American Board of Pediatrics issued a joint statement Sept. 9 in support of the state boards’ position, warning that “such unethical or unprofessional conduct may prompt their respective board to take action that could put their certification at risk.”

And the superspreaders identified by the center’s report are not alone. KHN identified 20 other doctors who have made false or misleading claims about COVID by combing through published fact checks and other news coverage.

For example, at an Indiana school board meeting in August, Dan Stock, MD, claimed the surge in covid cases this summer was due to “antibody mediated viral enhancement” from people receiving covid vaccines. PolitiFact rated his claim “Pants on Fire” false.

Stella Immanuel, MD, a member of a group America’s Frontline Doctors, which has consistently made false statements about COVID, said in a video that went viral in July 2020 that masks weren’t needed because covid could be cured by hydroxychloroquine. Dr. Immanuel’s website currently promotes a set of vitamins, as well as hydroxychloroquine and ivermectin, as COVID treatments.

Two of the doctors mentioned by name in this article responded to requests for comment. Dr. Mercola offered documents to rebut criticisms of his hydrogen peroxide COVID treatment and took issue with the center’s “Disinformation Dozen” report methodology. Dr. Buttar defended his positions, saying via email that “the science is clear and anyone who contests it, has a suspect agenda at best and/or lacks a moral compass.” He also pointed to data from the Centers for Disease Control and Prevention’s Vaccine Adverse Event Recording System, considered inconclusive by many experts.

Since the onset of the COVID pandemic, misinformation has been widespread on social media platforms. And many experts blame it for undermining efforts to curb the coronavirus’s spread. A recent poll showed that more than 50% of Americans who won’t get vaccinated cited conspiracy theories as their reasons – for example, saying the vaccines cause infertility or alter DNA.

Some physicians have gained notoriety by embracing COVID-related fringe ideas, quack treatments and falsehoods via social media, conservative talk shows, and even in person with patients. Whether promoting the use of ivermectin, an antiparasitic drug for animals, or a mix of vitamins to treat COVID, doctors’ words can be especially powerful. Public opinion polls consistently show that Americans have high trust in doctors.

“There is a sense of credibility that comes with being a doctor,” said Rachel Moran, PhD, a researcher who studies COVID misinformation at the University of Washington. “There is also a sense they have access to insider info that we don’t. This is a very confusing time, and it can seem that if anyone knows what I should be doing in this situation, it’s a doctor.”

While COVID is a novel and complicated infectious disease, physicians spreading misinformation generally have no particular expertise in infectious diseases. Scott Atlas, MD, who endorsed former President Donald Trump’s unproven statements about the course of the pandemic, is a radiation oncologist.

Traditionally, the responsibility of policing physicians has fallen to state medical boards. Beyond overseeing the licensing process, these panels investigate complaints about doctors and discipline those who engage in unethical, unprofessional or, in extreme cases, criminal activity. Any member of the public can submit a complaint about a physician.

“The boards are relatively slow and weak and it’s a long, slow process to pull somebody’s license,” said Arthur Caplan, PhD, founding head of the department of medical ethics at New York University. “In many states, they have their hands full with doctors who have committed felonies, doctors who are molesting their patients. Keeping an eye on misinformation is somewhat down on the priority list.”

To date, only two doctors have reportedly faced such sanctions. In Oregon, Steven LaTulippe, MD, had his license suspended in December 2020 for refusing to wear a face mask at his clinic and telling patients that masks were ineffective in curbing the spread of COVID, and even dangerous. Thomas Cowan, MD, a San Francisco physician who posted a YouTube video that went viral in March 2020 stating that 5G networks cause COVID, voluntarily surrendered his medical license to California’s medical board in February 2021.

Humayun Chaudhry, DO, president of the Federation of State Medical Boards, however, said it’s possible some doctors could already be the subject of inquiries and investigations, since these actions are not made public until sanctions are handed down.

KHN reached out to the medical and osteopathic boards of all 50 states and the District of Columbia to see if they had received COVID misinformation complaints. Of the 43 that responded, only a handful shared specifics.

During a 1-week period in August, Kansas’ medical board received six such complaints. In all, the state has received 35 complaints against 20 licensees about spreading covid misinformation on social media and in person. Indiana has received about 30 in the past year. South Carolina said it had about 10 since January. Rhode Island didn’t share the number of complaints but said it has taken disciplinary action against one doctor for spreading misinformation, though it hasn’t moved to suspend his license. (The disciplinary measures include a fine, a reprimand on the doctor’s record and a mandate to complete an ethics course.) Five states said they had received only a couple, and 11 states reported receiving no complaints regarding COVID misinformation.

Confidentiality laws in 13 states prevented those boards from sharing information about complaints.

Social media companies have also been slow to take action. Some doctors’ accounts – specifically those among the Disinformation Dozen – have been suspended, but others are still active and posting misinformation.

Imran Ahmed, CEO of the Center for Countering Digital Hate, said social media platforms often don’t consistently apply their rules against spreading misinformation.

“Even when it’s the same companies, Facebook will sometimes take posts down, but Instagram will not,” Mr. Ahmed said, referring to Facebook’s ownership of Instagram. “It goes to show their piecemeal, ineffective approach to enforcing their own rules.”

A Facebook spokesperson said the company has removed over 3,000 accounts, pages and groups for repeatedly violating COVID and vaccine misinformation policies since the beginning of the pandemic. Dr. Buttar’s Facebook and Instagram pages and Tenpenny’s Facebook page have been removed, while Dr. Mercola’s Facebook posts have been demoted, which means fewer people will see them. Dr. Tenpenny and Dr. Mercola still have Instagram accounts.

Part of the challenge may be that these doctors sometimes present scientific opinions that aren’t mainstream but are viewed as potentially valid by some of their colleagues.

“It can be difficult to prove that what is being said is outside the range of scientific and medical consensus,” said Dr. Caplan. “The doctors who were advising Trump – like Scott Atlas – recommended herd immunity. That was far from the consensus of epidemiologists, but you couldn’t get a board to take his license away because it was a fringe opinion.”

Even if these physicians don’t face consequences, it is likely, experts said, that the public health will.

“Medical misinformation doesn’t just result in people making bad personal and community health choices, but it also divides communities and families, leaving an emotional toll,” said Dr. Moran. “Misinformation narratives have real sticking power and impact people’s ability to make safe health choices.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

On Sept. 5, Rashid Buttar, DO, posted on Twitter that COVID-19 “was a planned operation” and shared an article alleging that most people who got the COVID vaccine would be dead by 2025.

His statement is a recent example in what has been a steady stream of spurious claims surrounding the COVID vaccines and treatments that swirl around the public consciousness. Others include testimony in June by Sherri Jane Tenpenny, DO, before Ohio state legislators that the vaccine could cause people to become magnetized. Clips from the hearing went viral on the Internet. On April 9, 2020, Joseph Mercola, DO, posted a video titled “Could hydrogen peroxide treat coronavirus?” which was shared more than 4,600 times. In the video, Dr. Mercola said inhaling hydrogen peroxide through a nebulizer could prevent or cure COVID.

These physicians are identified as members of the “Disinformation Dozen,” a group of top superspreaders of COVID vaccine misinformation on social media, according to a 2021 report by the nonprofit Center for Countering Digital Hate. The report, based on an analysis of antivaccine content on social media platforms, found that 12 people were responsible for 65% of it. The group is composed of physicians, antivaccine activists, and people known for promoting alternative medicine.

The physician voices are of particular concern because their medical credentials lend credence to their unproven, often dangerous pronouncements. All three continue to hold medical licenses and have not faced consequences for their COVID-related statements.

But leaders of professional medical organizations increasingly are calling for that to change and urging medical oversight boards to take more aggressive action.

In July, the Federation of State Medical Boards, the national umbrella organization for the state-based boards, issued a statement making clear that doctors who generate and spread COVID misinformation could be subject to disciplinary action, including the suspension or revocation of their licenses. The American Board of Family Medicine, American Board of Internal Medicine, and American Board of Pediatrics issued a joint statement Sept. 9 in support of the state boards’ position, warning that “such unethical or unprofessional conduct may prompt their respective board to take action that could put their certification at risk.”

And the superspreaders identified by the center’s report are not alone. KHN identified 20 other doctors who have made false or misleading claims about COVID by combing through published fact checks and other news coverage.

For example, at an Indiana school board meeting in August, Dan Stock, MD, claimed the surge in covid cases this summer was due to “antibody mediated viral enhancement” from people receiving covid vaccines. PolitiFact rated his claim “Pants on Fire” false.

Stella Immanuel, MD, a member of a group America’s Frontline Doctors, which has consistently made false statements about COVID, said in a video that went viral in July 2020 that masks weren’t needed because covid could be cured by hydroxychloroquine. Dr. Immanuel’s website currently promotes a set of vitamins, as well as hydroxychloroquine and ivermectin, as COVID treatments.

Two of the doctors mentioned by name in this article responded to requests for comment. Dr. Mercola offered documents to rebut criticisms of his hydrogen peroxide COVID treatment and took issue with the center’s “Disinformation Dozen” report methodology. Dr. Buttar defended his positions, saying via email that “the science is clear and anyone who contests it, has a suspect agenda at best and/or lacks a moral compass.” He also pointed to data from the Centers for Disease Control and Prevention’s Vaccine Adverse Event Recording System, considered inconclusive by many experts.

Since the onset of the COVID pandemic, misinformation has been widespread on social media platforms. And many experts blame it for undermining efforts to curb the coronavirus’s spread. A recent poll showed that more than 50% of Americans who won’t get vaccinated cited conspiracy theories as their reasons – for example, saying the vaccines cause infertility or alter DNA.

Some physicians have gained notoriety by embracing COVID-related fringe ideas, quack treatments and falsehoods via social media, conservative talk shows, and even in person with patients. Whether promoting the use of ivermectin, an antiparasitic drug for animals, or a mix of vitamins to treat COVID, doctors’ words can be especially powerful. Public opinion polls consistently show that Americans have high trust in doctors.

“There is a sense of credibility that comes with being a doctor,” said Rachel Moran, PhD, a researcher who studies COVID misinformation at the University of Washington. “There is also a sense they have access to insider info that we don’t. This is a very confusing time, and it can seem that if anyone knows what I should be doing in this situation, it’s a doctor.”

While COVID is a novel and complicated infectious disease, physicians spreading misinformation generally have no particular expertise in infectious diseases. Scott Atlas, MD, who endorsed former President Donald Trump’s unproven statements about the course of the pandemic, is a radiation oncologist.

Traditionally, the responsibility of policing physicians has fallen to state medical boards. Beyond overseeing the licensing process, these panels investigate complaints about doctors and discipline those who engage in unethical, unprofessional or, in extreme cases, criminal activity. Any member of the public can submit a complaint about a physician.

“The boards are relatively slow and weak and it’s a long, slow process to pull somebody’s license,” said Arthur Caplan, PhD, founding head of the department of medical ethics at New York University. “In many states, they have their hands full with doctors who have committed felonies, doctors who are molesting their patients. Keeping an eye on misinformation is somewhat down on the priority list.”

To date, only two doctors have reportedly faced such sanctions. In Oregon, Steven LaTulippe, MD, had his license suspended in December 2020 for refusing to wear a face mask at his clinic and telling patients that masks were ineffective in curbing the spread of COVID, and even dangerous. Thomas Cowan, MD, a San Francisco physician who posted a YouTube video that went viral in March 2020 stating that 5G networks cause COVID, voluntarily surrendered his medical license to California’s medical board in February 2021.

Humayun Chaudhry, DO, president of the Federation of State Medical Boards, however, said it’s possible some doctors could already be the subject of inquiries and investigations, since these actions are not made public until sanctions are handed down.

KHN reached out to the medical and osteopathic boards of all 50 states and the District of Columbia to see if they had received COVID misinformation complaints. Of the 43 that responded, only a handful shared specifics.

During a 1-week period in August, Kansas’ medical board received six such complaints. In all, the state has received 35 complaints against 20 licensees about spreading covid misinformation on social media and in person. Indiana has received about 30 in the past year. South Carolina said it had about 10 since January. Rhode Island didn’t share the number of complaints but said it has taken disciplinary action against one doctor for spreading misinformation, though it hasn’t moved to suspend his license. (The disciplinary measures include a fine, a reprimand on the doctor’s record and a mandate to complete an ethics course.) Five states said they had received only a couple, and 11 states reported receiving no complaints regarding COVID misinformation.

Confidentiality laws in 13 states prevented those boards from sharing information about complaints.

Social media companies have also been slow to take action. Some doctors’ accounts – specifically those among the Disinformation Dozen – have been suspended, but others are still active and posting misinformation.

Imran Ahmed, CEO of the Center for Countering Digital Hate, said social media platforms often don’t consistently apply their rules against spreading misinformation.

“Even when it’s the same companies, Facebook will sometimes take posts down, but Instagram will not,” Mr. Ahmed said, referring to Facebook’s ownership of Instagram. “It goes to show their piecemeal, ineffective approach to enforcing their own rules.”

A Facebook spokesperson said the company has removed over 3,000 accounts, pages and groups for repeatedly violating COVID and vaccine misinformation policies since the beginning of the pandemic. Dr. Buttar’s Facebook and Instagram pages and Tenpenny’s Facebook page have been removed, while Dr. Mercola’s Facebook posts have been demoted, which means fewer people will see them. Dr. Tenpenny and Dr. Mercola still have Instagram accounts.

Part of the challenge may be that these doctors sometimes present scientific opinions that aren’t mainstream but are viewed as potentially valid by some of their colleagues.

“It can be difficult to prove that what is being said is outside the range of scientific and medical consensus,” said Dr. Caplan. “The doctors who were advising Trump – like Scott Atlas – recommended herd immunity. That was far from the consensus of epidemiologists, but you couldn’t get a board to take his license away because it was a fringe opinion.”

Even if these physicians don’t face consequences, it is likely, experts said, that the public health will.

“Medical misinformation doesn’t just result in people making bad personal and community health choices, but it also divides communities and families, leaving an emotional toll,” said Dr. Moran. “Misinformation narratives have real sticking power and impact people’s ability to make safe health choices.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

On Sept. 5, Rashid Buttar, DO, posted on Twitter that COVID-19 “was a planned operation” and shared an article alleging that most people who got the COVID vaccine would be dead by 2025.

His statement is a recent example in what has been a steady stream of spurious claims surrounding the COVID vaccines and treatments that swirl around the public consciousness. Others include testimony in June by Sherri Jane Tenpenny, DO, before Ohio state legislators that the vaccine could cause people to become magnetized. Clips from the hearing went viral on the Internet. On April 9, 2020, Joseph Mercola, DO, posted a video titled “Could hydrogen peroxide treat coronavirus?” which was shared more than 4,600 times. In the video, Dr. Mercola said inhaling hydrogen peroxide through a nebulizer could prevent or cure COVID.

These physicians are identified as members of the “Disinformation Dozen,” a group of top superspreaders of COVID vaccine misinformation on social media, according to a 2021 report by the nonprofit Center for Countering Digital Hate. The report, based on an analysis of antivaccine content on social media platforms, found that 12 people were responsible for 65% of it. The group is composed of physicians, antivaccine activists, and people known for promoting alternative medicine.

The physician voices are of particular concern because their medical credentials lend credence to their unproven, often dangerous pronouncements. All three continue to hold medical licenses and have not faced consequences for their COVID-related statements.

But leaders of professional medical organizations increasingly are calling for that to change and urging medical oversight boards to take more aggressive action.

In July, the Federation of State Medical Boards, the national umbrella organization for the state-based boards, issued a statement making clear that doctors who generate and spread COVID misinformation could be subject to disciplinary action, including the suspension or revocation of their licenses. The American Board of Family Medicine, American Board of Internal Medicine, and American Board of Pediatrics issued a joint statement Sept. 9 in support of the state boards’ position, warning that “such unethical or unprofessional conduct may prompt their respective board to take action that could put their certification at risk.”

And the superspreaders identified by the center’s report are not alone. KHN identified 20 other doctors who have made false or misleading claims about COVID by combing through published fact checks and other news coverage.

For example, at an Indiana school board meeting in August, Dan Stock, MD, claimed the surge in covid cases this summer was due to “antibody mediated viral enhancement” from people receiving covid vaccines. PolitiFact rated his claim “Pants on Fire” false.

Stella Immanuel, MD, a member of a group America’s Frontline Doctors, which has consistently made false statements about COVID, said in a video that went viral in July 2020 that masks weren’t needed because covid could be cured by hydroxychloroquine. Dr. Immanuel’s website currently promotes a set of vitamins, as well as hydroxychloroquine and ivermectin, as COVID treatments.

Two of the doctors mentioned by name in this article responded to requests for comment. Dr. Mercola offered documents to rebut criticisms of his hydrogen peroxide COVID treatment and took issue with the center’s “Disinformation Dozen” report methodology. Dr. Buttar defended his positions, saying via email that “the science is clear and anyone who contests it, has a suspect agenda at best and/or lacks a moral compass.” He also pointed to data from the Centers for Disease Control and Prevention’s Vaccine Adverse Event Recording System, considered inconclusive by many experts.

Since the onset of the COVID pandemic, misinformation has been widespread on social media platforms. And many experts blame it for undermining efforts to curb the coronavirus’s spread. A recent poll showed that more than 50% of Americans who won’t get vaccinated cited conspiracy theories as their reasons – for example, saying the vaccines cause infertility or alter DNA.

Some physicians have gained notoriety by embracing COVID-related fringe ideas, quack treatments and falsehoods via social media, conservative talk shows, and even in person with patients. Whether promoting the use of ivermectin, an antiparasitic drug for animals, or a mix of vitamins to treat COVID, doctors’ words can be especially powerful. Public opinion polls consistently show that Americans have high trust in doctors.

“There is a sense of credibility that comes with being a doctor,” said Rachel Moran, PhD, a researcher who studies COVID misinformation at the University of Washington. “There is also a sense they have access to insider info that we don’t. This is a very confusing time, and it can seem that if anyone knows what I should be doing in this situation, it’s a doctor.”

While COVID is a novel and complicated infectious disease, physicians spreading misinformation generally have no particular expertise in infectious diseases. Scott Atlas, MD, who endorsed former President Donald Trump’s unproven statements about the course of the pandemic, is a radiation oncologist.

Traditionally, the responsibility of policing physicians has fallen to state medical boards. Beyond overseeing the licensing process, these panels investigate complaints about doctors and discipline those who engage in unethical, unprofessional or, in extreme cases, criminal activity. Any member of the public can submit a complaint about a physician.

“The boards are relatively slow and weak and it’s a long, slow process to pull somebody’s license,” said Arthur Caplan, PhD, founding head of the department of medical ethics at New York University. “In many states, they have their hands full with doctors who have committed felonies, doctors who are molesting their patients. Keeping an eye on misinformation is somewhat down on the priority list.”

To date, only two doctors have reportedly faced such sanctions. In Oregon, Steven LaTulippe, MD, had his license suspended in December 2020 for refusing to wear a face mask at his clinic and telling patients that masks were ineffective in curbing the spread of COVID, and even dangerous. Thomas Cowan, MD, a San Francisco physician who posted a YouTube video that went viral in March 2020 stating that 5G networks cause COVID, voluntarily surrendered his medical license to California’s medical board in February 2021.

Humayun Chaudhry, DO, president of the Federation of State Medical Boards, however, said it’s possible some doctors could already be the subject of inquiries and investigations, since these actions are not made public until sanctions are handed down.

KHN reached out to the medical and osteopathic boards of all 50 states and the District of Columbia to see if they had received COVID misinformation complaints. Of the 43 that responded, only a handful shared specifics.

During a 1-week period in August, Kansas’ medical board received six such complaints. In all, the state has received 35 complaints against 20 licensees about spreading covid misinformation on social media and in person. Indiana has received about 30 in the past year. South Carolina said it had about 10 since January. Rhode Island didn’t share the number of complaints but said it has taken disciplinary action against one doctor for spreading misinformation, though it hasn’t moved to suspend his license. (The disciplinary measures include a fine, a reprimand on the doctor’s record and a mandate to complete an ethics course.) Five states said they had received only a couple, and 11 states reported receiving no complaints regarding COVID misinformation.

Confidentiality laws in 13 states prevented those boards from sharing information about complaints.

Social media companies have also been slow to take action. Some doctors’ accounts – specifically those among the Disinformation Dozen – have been suspended, but others are still active and posting misinformation.

Imran Ahmed, CEO of the Center for Countering Digital Hate, said social media platforms often don’t consistently apply their rules against spreading misinformation.

“Even when it’s the same companies, Facebook will sometimes take posts down, but Instagram will not,” Mr. Ahmed said, referring to Facebook’s ownership of Instagram. “It goes to show their piecemeal, ineffective approach to enforcing their own rules.”

A Facebook spokesperson said the company has removed over 3,000 accounts, pages and groups for repeatedly violating COVID and vaccine misinformation policies since the beginning of the pandemic. Dr. Buttar’s Facebook and Instagram pages and Tenpenny’s Facebook page have been removed, while Dr. Mercola’s Facebook posts have been demoted, which means fewer people will see them. Dr. Tenpenny and Dr. Mercola still have Instagram accounts.

Part of the challenge may be that these doctors sometimes present scientific opinions that aren’t mainstream but are viewed as potentially valid by some of their colleagues.

“It can be difficult to prove that what is being said is outside the range of scientific and medical consensus,” said Dr. Caplan. “The doctors who were advising Trump – like Scott Atlas – recommended herd immunity. That was far from the consensus of epidemiologists, but you couldn’t get a board to take his license away because it was a fringe opinion.”

Even if these physicians don’t face consequences, it is likely, experts said, that the public health will.

“Medical misinformation doesn’t just result in people making bad personal and community health choices, but it also divides communities and families, leaving an emotional toll,” said Dr. Moran. “Misinformation narratives have real sticking power and impact people’s ability to make safe health choices.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.