MDedge Psychiatry

Results of a trial using an intensive, 4-year program aimed at blood pressure lowering showed that intervention reduced not only blood pressure, but also significantly reduced the risk of total dementia over that period.

All-cause dementia, the primary outcome, was significantly reduced by 15% in the intervention group, compared with usual care, and cognitive impairment no dementia (CIND), a secondary outcome, was also significantly reduced by 16%.

“Blood pressure reduction is effective in reducing the risk of dementia in patients with hypertension,” concluded Jiang He, MD, PhD, professor of epidemiology and medicine and director of Tulane University’s Translational Science Institute, New Orleans. “This proven, effective intervention should be widely scaled up to reduce the global burden of dementia.”

He presented these results from the China Rural Hypertension Control Project (CRHCP) at the annual scientific sessions of the American Heart Association.

Target organ damage

Keith Ferdinand, MD, also from Tulane University, commented on the findings during a press conference at the meeting, noting that the result “opens our opportunity to recognize that the target organ damage of hypertension also now includes dementia.”

The researchers were able to “rigorously lower blood pressure from 157 to 127.6 in the intervention, 155 to 147 in the controls – 22 mg Hg – and if you look at the P values for all the various outcomes, they were very robust,” Dr. Ferdinand said.

Another interesting feature about the strategy used in this trial is that “this was true team-based care,” he pointed out. The trained interventionists in the study, called village doctors, collaborated with primary care physicians and initiated medications. “They stayed on a simple treatment protocol, and they were able to assist patients to ensure they had free medications, health coaching for lifestyle, home blood pressure measurement, and ensuring adherence.”

So, Dr. Ferdinand added, “one of the questions is whether this is a model we can use in other places around the globe, in places with low resources, and in the United States in disadvantaged populations.”

Public health priority

It’s estimated that the global number of those living with dementia will increase from 57.4 million in 2019 to 152.8 million by 2050, Dr. He said. “In the absence of curative treatment, the primary prevention of dementia through risk factor reduction, such as blood pressure lowering, becomes a public health priority.”

Previous randomized trials have lacked sample size and duration but have reported a nonsignificant reduction in dementia associated with antihypertensive treatment in patients with hypertension or a history of stroke, Dr. He noted.

This new trial aimed to test the effectiveness of intensive BP intervention to reduce the risk of all-cause dementia and cognitive impairment over a 48-month intervention period versus usual care.

It was an open-label, blinded-endpoint, cluster-randomized trial, and included 33,995 individual patients from 325 villages in China, aged 40 years and older, with untreated hypertension. The villages were randomly assigned to an intervention group or usual care, stratified by province, county, and township.

Patients were eligible if they had mean untreated systolic BP greater than 140 mm Hg and/or diastolic BP greater than 90 mm Hg or mean treated systolic BP of greater than 130 and/or diastolic greater than 80 mm Hg. Patients with a history of cardiovascular disease, chronic kidney disease, or diabetes and a mean systolic BP greater than 130 mm Hg and/or diastolic BP greater than 80 mm Hg from six measures on two different days were also eligible.

All were enrolled in the China New Rural Cooperative Medical Scheme, which covers 99% of rural residents for health care services, Dr. He noted.

The intervention was a simple stepped-care protocol for hypertension treatment, aimed at achieving a target systolic BP of less than 130 mm Hg and diastolic of less than 80 mm Hg.

Village doctors started and titrated antihypertensive treatment based on a protocol and were able to deliver discounted and free medications to patients. They also did health coaching on lifestyle modification and adherence to medication, and instructed patients on home BP monitoring.

Patients were provided training, supervision, and consultation by primary care physicians and hypertension specialists.

At the month 48 follow-up visit, the participants were assessed by neurologists who were blinded to randomization assignments. Neurologists did a variety of tests and assessments including collecting data on the patient’s medical and psychiatric history and risk factors for dementia, as well as neurologic assessment using the Mini-Mental State Examination, the Functional Activities Questionnaire, and the Quick Dementia Rating System.

The primary outcome was all-cause dementia, defined according to recommendations from the National Institute on Aging–Alzheimer’s Association work groups on diagnostic guidelines for Alzheimer’s disease.

Secondary outcomes included CIND, a composite outcome of dementia or CIND, and a composite of dementia or deaths.

The final diagnosis of all-cause dementia or CIND was made by an expert adjudication panel blinded to the intervention assignment.

At 48 months, 91.3% of patients completed the follow-up for clinical outcomes. Participants were an average of 63 years of age, 61% were female, and 23% had less than a primary school education, Dr. He noted.

The net group differences in systolic and diastolic BP reduction were 22 and 9.3 mm Hg, respectively (P < .0001).

Significant differences were also seen between the groups in the primary outcome of all-cause dementia, as well as secondary outcomes of CIND, dementia or cognitive impairment, or dementia or deaths.

Serious adverse events were more common in the usual care group, and there was no difference between groups in the occurrence of falls or syncope.

The effect was consistent across subgroups, Dr. He said, including age, sex, education, cigarette smoking, body mass index, systolic BP, and fasting plasma glucose at baseline.

First definitive evidence

Invited discussant for the trial, Daniel W. Jones, MD, University of Mississippi Medical Center, Jackson, and past president of the AHA, pointed out that previous results from CRHCP on cardiovascular outcomes, reported earlier in 2023 in The Lancet, showed that, similar to results of the large SPRINT trial, lowering systolic BP to a goal of less than 130 mm Hg reduced a composite endpoint of MI, stroke, heart failure requiring hospitalization, and cardiovascular disease death over the 36-month follow-up.

The SPRINT findings also suggested a possible reduction in dementia, Dr. Jones said.

Now, in these new CRHCP results, “there was a clear benefit for intensive BP control in reducing risk for dementia and cognitive dysfunction,” he said. “This is, importantly, the first definitive evidence of dementia risk reduction demonstrated in a randomized controlled clinical trial. This outcome supports observational data that shows a strong relationship between BP and dementia.”

Since it is the first of its kind though, replication of the results will be important, he noted.

The study also showed that the intervention, using minimally trained village doctors, sustained BP control for 48 months. “This model could be used in any setting with modifications, including in the United States,” Dr. Jones said.

The study was supported by the Ministry of Science and Technology of China; U.S. investigators did not receive financial support from this study. The researchers and Dr. Jones disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Results of a trial using an intensive, 4-year program aimed at blood pressure lowering showed that intervention reduced not only blood pressure, but also significantly reduced the risk of total dementia over that period.

All-cause dementia, the primary outcome, was significantly reduced by 15% in the intervention group, compared with usual care, and cognitive impairment no dementia (CIND), a secondary outcome, was also significantly reduced by 16%.

“Blood pressure reduction is effective in reducing the risk of dementia in patients with hypertension,” concluded Jiang He, MD, PhD, professor of epidemiology and medicine and director of Tulane University’s Translational Science Institute, New Orleans. “This proven, effective intervention should be widely scaled up to reduce the global burden of dementia.”

He presented these results from the China Rural Hypertension Control Project (CRHCP) at the annual scientific sessions of the American Heart Association.

Target organ damage

Keith Ferdinand, MD, also from Tulane University, commented on the findings during a press conference at the meeting, noting that the result “opens our opportunity to recognize that the target organ damage of hypertension also now includes dementia.”

The researchers were able to “rigorously lower blood pressure from 157 to 127.6 in the intervention, 155 to 147 in the controls – 22 mg Hg – and if you look at the P values for all the various outcomes, they were very robust,” Dr. Ferdinand said.

Another interesting feature about the strategy used in this trial is that “this was true team-based care,” he pointed out. The trained interventionists in the study, called village doctors, collaborated with primary care physicians and initiated medications. “They stayed on a simple treatment protocol, and they were able to assist patients to ensure they had free medications, health coaching for lifestyle, home blood pressure measurement, and ensuring adherence.”

So, Dr. Ferdinand added, “one of the questions is whether this is a model we can use in other places around the globe, in places with low resources, and in the United States in disadvantaged populations.”

Public health priority

It’s estimated that the global number of those living with dementia will increase from 57.4 million in 2019 to 152.8 million by 2050, Dr. He said. “In the absence of curative treatment, the primary prevention of dementia through risk factor reduction, such as blood pressure lowering, becomes a public health priority.”

Previous randomized trials have lacked sample size and duration but have reported a nonsignificant reduction in dementia associated with antihypertensive treatment in patients with hypertension or a history of stroke, Dr. He noted.

This new trial aimed to test the effectiveness of intensive BP intervention to reduce the risk of all-cause dementia and cognitive impairment over a 48-month intervention period versus usual care.

It was an open-label, blinded-endpoint, cluster-randomized trial, and included 33,995 individual patients from 325 villages in China, aged 40 years and older, with untreated hypertension. The villages were randomly assigned to an intervention group or usual care, stratified by province, county, and township.

Patients were eligible if they had mean untreated systolic BP greater than 140 mm Hg and/or diastolic BP greater than 90 mm Hg or mean treated systolic BP of greater than 130 and/or diastolic greater than 80 mm Hg. Patients with a history of cardiovascular disease, chronic kidney disease, or diabetes and a mean systolic BP greater than 130 mm Hg and/or diastolic BP greater than 80 mm Hg from six measures on two different days were also eligible.

All were enrolled in the China New Rural Cooperative Medical Scheme, which covers 99% of rural residents for health care services, Dr. He noted.

The intervention was a simple stepped-care protocol for hypertension treatment, aimed at achieving a target systolic BP of less than 130 mm Hg and diastolic of less than 80 mm Hg.

Village doctors started and titrated antihypertensive treatment based on a protocol and were able to deliver discounted and free medications to patients. They also did health coaching on lifestyle modification and adherence to medication, and instructed patients on home BP monitoring.

Patients were provided training, supervision, and consultation by primary care physicians and hypertension specialists.

At the month 48 follow-up visit, the participants were assessed by neurologists who were blinded to randomization assignments. Neurologists did a variety of tests and assessments including collecting data on the patient’s medical and psychiatric history and risk factors for dementia, as well as neurologic assessment using the Mini-Mental State Examination, the Functional Activities Questionnaire, and the Quick Dementia Rating System.

The primary outcome was all-cause dementia, defined according to recommendations from the National Institute on Aging–Alzheimer’s Association work groups on diagnostic guidelines for Alzheimer’s disease.

Secondary outcomes included CIND, a composite outcome of dementia or CIND, and a composite of dementia or deaths.

The final diagnosis of all-cause dementia or CIND was made by an expert adjudication panel blinded to the intervention assignment.

At 48 months, 91.3% of patients completed the follow-up for clinical outcomes. Participants were an average of 63 years of age, 61% were female, and 23% had less than a primary school education, Dr. He noted.

The net group differences in systolic and diastolic BP reduction were 22 and 9.3 mm Hg, respectively (P < .0001).

Significant differences were also seen between the groups in the primary outcome of all-cause dementia, as well as secondary outcomes of CIND, dementia or cognitive impairment, or dementia or deaths.

Serious adverse events were more common in the usual care group, and there was no difference between groups in the occurrence of falls or syncope.

The effect was consistent across subgroups, Dr. He said, including age, sex, education, cigarette smoking, body mass index, systolic BP, and fasting plasma glucose at baseline.

First definitive evidence

Invited discussant for the trial, Daniel W. Jones, MD, University of Mississippi Medical Center, Jackson, and past president of the AHA, pointed out that previous results from CRHCP on cardiovascular outcomes, reported earlier in 2023 in The Lancet, showed that, similar to results of the large SPRINT trial, lowering systolic BP to a goal of less than 130 mm Hg reduced a composite endpoint of MI, stroke, heart failure requiring hospitalization, and cardiovascular disease death over the 36-month follow-up.

The SPRINT findings also suggested a possible reduction in dementia, Dr. Jones said.

Now, in these new CRHCP results, “there was a clear benefit for intensive BP control in reducing risk for dementia and cognitive dysfunction,” he said. “This is, importantly, the first definitive evidence of dementia risk reduction demonstrated in a randomized controlled clinical trial. This outcome supports observational data that shows a strong relationship between BP and dementia.”

Since it is the first of its kind though, replication of the results will be important, he noted.

The study also showed that the intervention, using minimally trained village doctors, sustained BP control for 48 months. “This model could be used in any setting with modifications, including in the United States,” Dr. Jones said.

The study was supported by the Ministry of Science and Technology of China; U.S. investigators did not receive financial support from this study. The researchers and Dr. Jones disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Results of a trial using an intensive, 4-year program aimed at blood pressure lowering showed that intervention reduced not only blood pressure, but also significantly reduced the risk of total dementia over that period.

All-cause dementia, the primary outcome, was significantly reduced by 15% in the intervention group, compared with usual care, and cognitive impairment no dementia (CIND), a secondary outcome, was also significantly reduced by 16%.

“Blood pressure reduction is effective in reducing the risk of dementia in patients with hypertension,” concluded Jiang He, MD, PhD, professor of epidemiology and medicine and director of Tulane University’s Translational Science Institute, New Orleans. “This proven, effective intervention should be widely scaled up to reduce the global burden of dementia.”

He presented these results from the China Rural Hypertension Control Project (CRHCP) at the annual scientific sessions of the American Heart Association.

Target organ damage

Keith Ferdinand, MD, also from Tulane University, commented on the findings during a press conference at the meeting, noting that the result “opens our opportunity to recognize that the target organ damage of hypertension also now includes dementia.”

The researchers were able to “rigorously lower blood pressure from 157 to 127.6 in the intervention, 155 to 147 in the controls – 22 mg Hg – and if you look at the P values for all the various outcomes, they were very robust,” Dr. Ferdinand said.

Another interesting feature about the strategy used in this trial is that “this was true team-based care,” he pointed out. The trained interventionists in the study, called village doctors, collaborated with primary care physicians and initiated medications. “They stayed on a simple treatment protocol, and they were able to assist patients to ensure they had free medications, health coaching for lifestyle, home blood pressure measurement, and ensuring adherence.”

So, Dr. Ferdinand added, “one of the questions is whether this is a model we can use in other places around the globe, in places with low resources, and in the United States in disadvantaged populations.”

Public health priority

It’s estimated that the global number of those living with dementia will increase from 57.4 million in 2019 to 152.8 million by 2050, Dr. He said. “In the absence of curative treatment, the primary prevention of dementia through risk factor reduction, such as blood pressure lowering, becomes a public health priority.”

Previous randomized trials have lacked sample size and duration but have reported a nonsignificant reduction in dementia associated with antihypertensive treatment in patients with hypertension or a history of stroke, Dr. He noted.

This new trial aimed to test the effectiveness of intensive BP intervention to reduce the risk of all-cause dementia and cognitive impairment over a 48-month intervention period versus usual care.

It was an open-label, blinded-endpoint, cluster-randomized trial, and included 33,995 individual patients from 325 villages in China, aged 40 years and older, with untreated hypertension. The villages were randomly assigned to an intervention group or usual care, stratified by province, county, and township.

Patients were eligible if they had mean untreated systolic BP greater than 140 mm Hg and/or diastolic BP greater than 90 mm Hg or mean treated systolic BP of greater than 130 and/or diastolic greater than 80 mm Hg. Patients with a history of cardiovascular disease, chronic kidney disease, or diabetes and a mean systolic BP greater than 130 mm Hg and/or diastolic BP greater than 80 mm Hg from six measures on two different days were also eligible.

All were enrolled in the China New Rural Cooperative Medical Scheme, which covers 99% of rural residents for health care services, Dr. He noted.

The intervention was a simple stepped-care protocol for hypertension treatment, aimed at achieving a target systolic BP of less than 130 mm Hg and diastolic of less than 80 mm Hg.

Village doctors started and titrated antihypertensive treatment based on a protocol and were able to deliver discounted and free medications to patients. They also did health coaching on lifestyle modification and adherence to medication, and instructed patients on home BP monitoring.

Patients were provided training, supervision, and consultation by primary care physicians and hypertension specialists.

At the month 48 follow-up visit, the participants were assessed by neurologists who were blinded to randomization assignments. Neurologists did a variety of tests and assessments including collecting data on the patient’s medical and psychiatric history and risk factors for dementia, as well as neurologic assessment using the Mini-Mental State Examination, the Functional Activities Questionnaire, and the Quick Dementia Rating System.

The primary outcome was all-cause dementia, defined according to recommendations from the National Institute on Aging–Alzheimer’s Association work groups on diagnostic guidelines for Alzheimer’s disease.

Secondary outcomes included CIND, a composite outcome of dementia or CIND, and a composite of dementia or deaths.

The final diagnosis of all-cause dementia or CIND was made by an expert adjudication panel blinded to the intervention assignment.

At 48 months, 91.3% of patients completed the follow-up for clinical outcomes. Participants were an average of 63 years of age, 61% were female, and 23% had less than a primary school education, Dr. He noted.

The net group differences in systolic and diastolic BP reduction were 22 and 9.3 mm Hg, respectively (P < .0001).

Significant differences were also seen between the groups in the primary outcome of all-cause dementia, as well as secondary outcomes of CIND, dementia or cognitive impairment, or dementia or deaths.

Serious adverse events were more common in the usual care group, and there was no difference between groups in the occurrence of falls or syncope.

The effect was consistent across subgroups, Dr. He said, including age, sex, education, cigarette smoking, body mass index, systolic BP, and fasting plasma glucose at baseline.

First definitive evidence

Invited discussant for the trial, Daniel W. Jones, MD, University of Mississippi Medical Center, Jackson, and past president of the AHA, pointed out that previous results from CRHCP on cardiovascular outcomes, reported earlier in 2023 in The Lancet, showed that, similar to results of the large SPRINT trial, lowering systolic BP to a goal of less than 130 mm Hg reduced a composite endpoint of MI, stroke, heart failure requiring hospitalization, and cardiovascular disease death over the 36-month follow-up.

The SPRINT findings also suggested a possible reduction in dementia, Dr. Jones said.

Now, in these new CRHCP results, “there was a clear benefit for intensive BP control in reducing risk for dementia and cognitive dysfunction,” he said. “This is, importantly, the first definitive evidence of dementia risk reduction demonstrated in a randomized controlled clinical trial. This outcome supports observational data that shows a strong relationship between BP and dementia.”

Since it is the first of its kind though, replication of the results will be important, he noted.

The study also showed that the intervention, using minimally trained village doctors, sustained BP control for 48 months. “This model could be used in any setting with modifications, including in the United States,” Dr. Jones said.

The study was supported by the Ministry of Science and Technology of China; U.S. investigators did not receive financial support from this study. The researchers and Dr. Jones disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Long COVID can exacerbate existing mental health disorders or cause new-onset psychiatric symptoms, but mental illness does not cause long COVID, experts say.

The consensus guidance statement on the assessment and treatment of mental health symptoms in patients with post-acute sequelae of SARS-CoV-2 infection (PASC), also known as long COVID, was published online in Physical Medicine and Rehabilitation, the journal of the American Academy of Physical Medicine and Rehabilitation (AAPM&R).

The statement was developed by a task force that included experts from physical medicine, neurology, neuropsychiatry, neuropsychology, rehabilitation psychology, and primary care. It is the eighth guidance statement on long COVID published by AAPM&R).

“Many of our patients have reported experiences in which their symptoms of long COVID have been dismissed either by loved ones in the community, or also amongst health care providers, and they’ve been told their symptoms are in their head or due to a mental health condition, but that’s simply not true,” Abby L. Cheng, MD, a physiatrist at Barnes Jewish Hospital in St. Louis and a coauthor of the new guidance, said in a press briefing.

“Long COVID is real, and mental health conditions do not cause long COVID,” Dr. Cheng added.
 

Millions of Americans affected

Anxiety and depression have been reported as the second and third most common symptoms of long COVID, according to the guidance statement.

There is some evidence that the body’s inflammatory response – specifically, circulating cytokines – may contribute to the worsening of mental health symptoms or may bring on new symptoms of anxiety or depression, said Dr. Cheng. Cytokines may also affect levels of brain chemicals, such as serotonin, she said.

Researchers are also exploring whether the persistence of virus in the body, miniature blood clots in the body and brain, and changes to the gut microbiome affect the mental health of people with long COVID.

Some mental health symptoms – such as fatigue, brain fog, sleep disturbances, and tachycardia – can mimic long COVID symptoms, said Dr. Cheng.

The treatment is the same for someone with or without long COVID who has anxiety, depression, posttraumatic stress disorder, or other mental health conditions and includes treatment of coexisting medical conditions, supportive therapy and cognitive-behavioral therapy, and pharmacologic interventions, she said.

“Group therapy may have a particular role in the long COVID population because it really provides that social connection and awareness of additional resources in addition to validation of their experiences,” Dr. Cheng said.

The guidance suggests that primary care practitioners – if it’s within their comfort zone and they have the training – can be the first line for managing mental health symptoms.

But for patients whose symptoms are interfering with functioning and their ability to interact with the community, the guidance urges primary care clinicians to refer the patient to a specialist.

“It leaves the door open to them to practice within their scope but also gives guidance as to how, why, and who should be referred to the next level of care,” said Dr. Cheng.

Coauthor Monica Verduzco-Gutierrez, MD, chair of rehabilitation medicine at UT Health San Antonio, Texas, said that although fewer people are now getting long COVID, “it’s still an impactful number.”

The Centers for Disease Control and Prevention recently estimated that about 7% of American adults (18 million) and 1.3% of children had experienced long COVID.

Dr. Gutierrez said that it’s an evolving number, as some patients who have a second or third or fourth SARS-CoV-2 infection experience exacerbations of previous bouts of long COVID or develop long COVID for the first time.

“We are still getting new patients on a regular basis with long COVID,” said AAPM&R President Steven R. Flanagan, MD, a physical medicine specialist.

“This is a problem that really is not going away. It is still real and still ever-present,” said Dr. Flanagan, chair of rehabilitation medicine at NYU Langone Health.
 

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

Long COVID can exacerbate existing mental health disorders or cause new-onset psychiatric symptoms, but mental illness does not cause long COVID, experts say.

The consensus guidance statement on the assessment and treatment of mental health symptoms in patients with post-acute sequelae of SARS-CoV-2 infection (PASC), also known as long COVID, was published online in Physical Medicine and Rehabilitation, the journal of the American Academy of Physical Medicine and Rehabilitation (AAPM&R).

The statement was developed by a task force that included experts from physical medicine, neurology, neuropsychiatry, neuropsychology, rehabilitation psychology, and primary care. It is the eighth guidance statement on long COVID published by AAPM&R).

“Many of our patients have reported experiences in which their symptoms of long COVID have been dismissed either by loved ones in the community, or also amongst health care providers, and they’ve been told their symptoms are in their head or due to a mental health condition, but that’s simply not true,” Abby L. Cheng, MD, a physiatrist at Barnes Jewish Hospital in St. Louis and a coauthor of the new guidance, said in a press briefing.

“Long COVID is real, and mental health conditions do not cause long COVID,” Dr. Cheng added.
 

Millions of Americans affected

Anxiety and depression have been reported as the second and third most common symptoms of long COVID, according to the guidance statement.

There is some evidence that the body’s inflammatory response – specifically, circulating cytokines – may contribute to the worsening of mental health symptoms or may bring on new symptoms of anxiety or depression, said Dr. Cheng. Cytokines may also affect levels of brain chemicals, such as serotonin, she said.

Researchers are also exploring whether the persistence of virus in the body, miniature blood clots in the body and brain, and changes to the gut microbiome affect the mental health of people with long COVID.

Some mental health symptoms – such as fatigue, brain fog, sleep disturbances, and tachycardia – can mimic long COVID symptoms, said Dr. Cheng.

The treatment is the same for someone with or without long COVID who has anxiety, depression, posttraumatic stress disorder, or other mental health conditions and includes treatment of coexisting medical conditions, supportive therapy and cognitive-behavioral therapy, and pharmacologic interventions, she said.

“Group therapy may have a particular role in the long COVID population because it really provides that social connection and awareness of additional resources in addition to validation of their experiences,” Dr. Cheng said.

The guidance suggests that primary care practitioners – if it’s within their comfort zone and they have the training – can be the first line for managing mental health symptoms.

But for patients whose symptoms are interfering with functioning and their ability to interact with the community, the guidance urges primary care clinicians to refer the patient to a specialist.

“It leaves the door open to them to practice within their scope but also gives guidance as to how, why, and who should be referred to the next level of care,” said Dr. Cheng.

Coauthor Monica Verduzco-Gutierrez, MD, chair of rehabilitation medicine at UT Health San Antonio, Texas, said that although fewer people are now getting long COVID, “it’s still an impactful number.”

The Centers for Disease Control and Prevention recently estimated that about 7% of American adults (18 million) and 1.3% of children had experienced long COVID.

Dr. Gutierrez said that it’s an evolving number, as some patients who have a second or third or fourth SARS-CoV-2 infection experience exacerbations of previous bouts of long COVID or develop long COVID for the first time.

“We are still getting new patients on a regular basis with long COVID,” said AAPM&R President Steven R. Flanagan, MD, a physical medicine specialist.

“This is a problem that really is not going away. It is still real and still ever-present,” said Dr. Flanagan, chair of rehabilitation medicine at NYU Langone Health.
 

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

Long COVID can exacerbate existing mental health disorders or cause new-onset psychiatric symptoms, but mental illness does not cause long COVID, experts say.

The consensus guidance statement on the assessment and treatment of mental health symptoms in patients with post-acute sequelae of SARS-CoV-2 infection (PASC), also known as long COVID, was published online in Physical Medicine and Rehabilitation, the journal of the American Academy of Physical Medicine and Rehabilitation (AAPM&R).

The statement was developed by a task force that included experts from physical medicine, neurology, neuropsychiatry, neuropsychology, rehabilitation psychology, and primary care. It is the eighth guidance statement on long COVID published by AAPM&R).

“Many of our patients have reported experiences in which their symptoms of long COVID have been dismissed either by loved ones in the community, or also amongst health care providers, and they’ve been told their symptoms are in their head or due to a mental health condition, but that’s simply not true,” Abby L. Cheng, MD, a physiatrist at Barnes Jewish Hospital in St. Louis and a coauthor of the new guidance, said in a press briefing.

“Long COVID is real, and mental health conditions do not cause long COVID,” Dr. Cheng added.
 

Millions of Americans affected

Anxiety and depression have been reported as the second and third most common symptoms of long COVID, according to the guidance statement.

There is some evidence that the body’s inflammatory response – specifically, circulating cytokines – may contribute to the worsening of mental health symptoms or may bring on new symptoms of anxiety or depression, said Dr. Cheng. Cytokines may also affect levels of brain chemicals, such as serotonin, she said.

Researchers are also exploring whether the persistence of virus in the body, miniature blood clots in the body and brain, and changes to the gut microbiome affect the mental health of people with long COVID.

Some mental health symptoms – such as fatigue, brain fog, sleep disturbances, and tachycardia – can mimic long COVID symptoms, said Dr. Cheng.

The treatment is the same for someone with or without long COVID who has anxiety, depression, posttraumatic stress disorder, or other mental health conditions and includes treatment of coexisting medical conditions, supportive therapy and cognitive-behavioral therapy, and pharmacologic interventions, she said.

“Group therapy may have a particular role in the long COVID population because it really provides that social connection and awareness of additional resources in addition to validation of their experiences,” Dr. Cheng said.

The guidance suggests that primary care practitioners – if it’s within their comfort zone and they have the training – can be the first line for managing mental health symptoms.

But for patients whose symptoms are interfering with functioning and their ability to interact with the community, the guidance urges primary care clinicians to refer the patient to a specialist.

“It leaves the door open to them to practice within their scope but also gives guidance as to how, why, and who should be referred to the next level of care,” said Dr. Cheng.

Coauthor Monica Verduzco-Gutierrez, MD, chair of rehabilitation medicine at UT Health San Antonio, Texas, said that although fewer people are now getting long COVID, “it’s still an impactful number.”

The Centers for Disease Control and Prevention recently estimated that about 7% of American adults (18 million) and 1.3% of children had experienced long COVID.

Dr. Gutierrez said that it’s an evolving number, as some patients who have a second or third or fourth SARS-CoV-2 infection experience exacerbations of previous bouts of long COVID or develop long COVID for the first time.

“We are still getting new patients on a regular basis with long COVID,” said AAPM&R President Steven R. Flanagan, MD, a physical medicine specialist.

“This is a problem that really is not going away. It is still real and still ever-present,” said Dr. Flanagan, chair of rehabilitation medicine at NYU Langone Health.
 

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

Neurologic music therapy (NMT), a specially designed intervention targeting movement, balance, and cognitive functioning, improves depressive symptoms and increases brain-derived neurotrophic factor (BDNF), early results of a small study suggest.

“We’re really happy with the results,” said lead study author psychotherapist Honey Bryant, a PhD candidate and research assistant at the Centre for Neuroscience Studies, Queen’s University, Kingston, Ont.

“We showed neurologic music therapy improves mental health and increases neuroplasticity, when used in conjunction with stroke rehabilitation.”

The findings were presented at the virtual XXVI World Congress of Neurology.
 

Moving with music

With improved stroke survival rates and longer life expectancy, there’s an increasing need for effective post-stroke interventions for neurocognitive impairments and mood disorders, the authors noted.

NMT is an evidence-based treatment system that uses elements of music such as rhythm, melody, and tempo to treat various brain conditions. A trained NMT therapist uses standardized techniques to address goals in the areas of speech, movement, and cognition.

The intervention is not new – it’s been around for a few decades – but there are “minimal papers on NMT and nothing on stroke rehabilitation used in the way we did it,” said Ms. Bryant.

The study included 57 patients, mean age 75 years, receiving rehabilitation following a stroke who were randomly assigned to NMT or passive music listening.

In the NMT group, a music therapist asked participants to choose music beforehand and integrated this into each session.

“Each day was different,” said Ms. Bryant. “For example, if it involved motor movement, the music therapist would say, ‘When I sing this word, raise your arm up.’ For Johnny Cash’s ‘Ring of Fire,’ we made our arms into a circle.”

She explained that the rhythm and timing of the music can affect the motor system and other areas of the brain.

Those in the passive music group listened to a curated list of calming classical and relaxing spa music.

Both groups were offered five 45-minute sessions per week for 2 weeks.

Among other things, researchers used the Hospital Anxiety and Depression Scale (HADS), administered a semistructured interview, and collected blood samples to determine levels of cortisol and BDNF.

After the 2-week intervention, the researchers found participants in the NMT group had a significant mean decrease in depression.

They also had increased cortisol levels, which is not unexpected after a stroke, especially with increased anxiety linked to financial and other stressors, said Ms. Bryant, adding these levels should decrease with treatment.

Recipients of the NMT had significant increases in BDNF, a neurotrophin that plays an important role in neuronal survival and growth, but only in those who attended several consecutive sessions.
 

Increased plasticity

“We see greater increases in plasticity when the therapy is used intensively, meaning at least four treatments consecutively,” said Ms. Bryant. Participants in the NMT group also reported they “overall felt well,” she added.

She noted NMT can be tailored to individual deficit, “so you can make it solely for motor movement or you can make it solely for language.”

Next steps could include more closely targeting the music to individual preferences and investigating whether the benefits of the intervention extend to other types of brain injury, for example traumatic brain injury, which typically affects younger people, said Ms. Bryant.

“In this study, participants were older and there was an unknown; a lot of them were going back into the community but didn’t know if it was into a retirement home or long-term care.”

It’s unclear if the benefits are sustained after the intervention stops, she said.

There are also the issues of cost and accessibility; in Kingston, there are few music therapists certified in the area of NMT.

Ms. Bryant hopes NMT is eventually included in stroke rehabilitation. “Stroke therapy is typically very intensive on its own; you’re doing it every single day for about a month or 6 weeks,” she said. “It would be interesting to see whether we would see a shorter hospital stay if this is included in stroke rehab.”

Asked to comment, Michael H. Thaut, PhD, professor, faculty of music and faculty of medicine, and Canada research chair in music, neuroscience and health at the University of Toronto, said while these data are preliminary, “they do extend the benefits of NMT in stroke rehabilitation, especially measuring BDNF in addition to having behavioral data.”

However, it’s “unfortunate” the poster didn’t specify which cognitive intervention techniques were used in the study, said Dr. Thaut. “There are nine coded techniques in NMT, including for attention, memory, psychosocial function, and executive function.”

His own study, published in NeuroRehabilitation, focused on training for motor goals in stroke patients. It showed that NMT benefited cognitive functioning and affective responses.

The study was funded by a Queen’s University Research Initiation Grant. Ms. Bryant and Dr. Thaut have not disclosed any relevant financial relationships.

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

Neurologic music therapy (NMT), a specially designed intervention targeting movement, balance, and cognitive functioning, improves depressive symptoms and increases brain-derived neurotrophic factor (BDNF), early results of a small study suggest.

“We’re really happy with the results,” said lead study author psychotherapist Honey Bryant, a PhD candidate and research assistant at the Centre for Neuroscience Studies, Queen’s University, Kingston, Ont.

“We showed neurologic music therapy improves mental health and increases neuroplasticity, when used in conjunction with stroke rehabilitation.”

The findings were presented at the virtual XXVI World Congress of Neurology.
 

Moving with music

With improved stroke survival rates and longer life expectancy, there’s an increasing need for effective post-stroke interventions for neurocognitive impairments and mood disorders, the authors noted.

NMT is an evidence-based treatment system that uses elements of music such as rhythm, melody, and tempo to treat various brain conditions. A trained NMT therapist uses standardized techniques to address goals in the areas of speech, movement, and cognition.

The intervention is not new – it’s been around for a few decades – but there are “minimal papers on NMT and nothing on stroke rehabilitation used in the way we did it,” said Ms. Bryant.

The study included 57 patients, mean age 75 years, receiving rehabilitation following a stroke who were randomly assigned to NMT or passive music listening.

In the NMT group, a music therapist asked participants to choose music beforehand and integrated this into each session.

“Each day was different,” said Ms. Bryant. “For example, if it involved motor movement, the music therapist would say, ‘When I sing this word, raise your arm up.’ For Johnny Cash’s ‘Ring of Fire,’ we made our arms into a circle.”

She explained that the rhythm and timing of the music can affect the motor system and other areas of the brain.

Those in the passive music group listened to a curated list of calming classical and relaxing spa music.

Both groups were offered five 45-minute sessions per week for 2 weeks.

Among other things, researchers used the Hospital Anxiety and Depression Scale (HADS), administered a semistructured interview, and collected blood samples to determine levels of cortisol and BDNF.

After the 2-week intervention, the researchers found participants in the NMT group had a significant mean decrease in depression.

They also had increased cortisol levels, which is not unexpected after a stroke, especially with increased anxiety linked to financial and other stressors, said Ms. Bryant, adding these levels should decrease with treatment.

Recipients of the NMT had significant increases in BDNF, a neurotrophin that plays an important role in neuronal survival and growth, but only in those who attended several consecutive sessions.
 

Increased plasticity

“We see greater increases in plasticity when the therapy is used intensively, meaning at least four treatments consecutively,” said Ms. Bryant. Participants in the NMT group also reported they “overall felt well,” she added.

She noted NMT can be tailored to individual deficit, “so you can make it solely for motor movement or you can make it solely for language.”

Next steps could include more closely targeting the music to individual preferences and investigating whether the benefits of the intervention extend to other types of brain injury, for example traumatic brain injury, which typically affects younger people, said Ms. Bryant.

“In this study, participants were older and there was an unknown; a lot of them were going back into the community but didn’t know if it was into a retirement home or long-term care.”

It’s unclear if the benefits are sustained after the intervention stops, she said.

There are also the issues of cost and accessibility; in Kingston, there are few music therapists certified in the area of NMT.

Ms. Bryant hopes NMT is eventually included in stroke rehabilitation. “Stroke therapy is typically very intensive on its own; you’re doing it every single day for about a month or 6 weeks,” she said. “It would be interesting to see whether we would see a shorter hospital stay if this is included in stroke rehab.”

Asked to comment, Michael H. Thaut, PhD, professor, faculty of music and faculty of medicine, and Canada research chair in music, neuroscience and health at the University of Toronto, said while these data are preliminary, “they do extend the benefits of NMT in stroke rehabilitation, especially measuring BDNF in addition to having behavioral data.”

However, it’s “unfortunate” the poster didn’t specify which cognitive intervention techniques were used in the study, said Dr. Thaut. “There are nine coded techniques in NMT, including for attention, memory, psychosocial function, and executive function.”

His own study, published in NeuroRehabilitation, focused on training for motor goals in stroke patients. It showed that NMT benefited cognitive functioning and affective responses.

The study was funded by a Queen’s University Research Initiation Grant. Ms. Bryant and Dr. Thaut have not disclosed any relevant financial relationships.

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

Neurologic music therapy (NMT), a specially designed intervention targeting movement, balance, and cognitive functioning, improves depressive symptoms and increases brain-derived neurotrophic factor (BDNF), early results of a small study suggest.

“We’re really happy with the results,” said lead study author psychotherapist Honey Bryant, a PhD candidate and research assistant at the Centre for Neuroscience Studies, Queen’s University, Kingston, Ont.

“We showed neurologic music therapy improves mental health and increases neuroplasticity, when used in conjunction with stroke rehabilitation.”

The findings were presented at the virtual XXVI World Congress of Neurology.
 

Moving with music

With improved stroke survival rates and longer life expectancy, there’s an increasing need for effective post-stroke interventions for neurocognitive impairments and mood disorders, the authors noted.

NMT is an evidence-based treatment system that uses elements of music such as rhythm, melody, and tempo to treat various brain conditions. A trained NMT therapist uses standardized techniques to address goals in the areas of speech, movement, and cognition.

The intervention is not new – it’s been around for a few decades – but there are “minimal papers on NMT and nothing on stroke rehabilitation used in the way we did it,” said Ms. Bryant.

The study included 57 patients, mean age 75 years, receiving rehabilitation following a stroke who were randomly assigned to NMT or passive music listening.

In the NMT group, a music therapist asked participants to choose music beforehand and integrated this into each session.

“Each day was different,” said Ms. Bryant. “For example, if it involved motor movement, the music therapist would say, ‘When I sing this word, raise your arm up.’ For Johnny Cash’s ‘Ring of Fire,’ we made our arms into a circle.”

She explained that the rhythm and timing of the music can affect the motor system and other areas of the brain.

Those in the passive music group listened to a curated list of calming classical and relaxing spa music.

Both groups were offered five 45-minute sessions per week for 2 weeks.

Among other things, researchers used the Hospital Anxiety and Depression Scale (HADS), administered a semistructured interview, and collected blood samples to determine levels of cortisol and BDNF.

After the 2-week intervention, the researchers found participants in the NMT group had a significant mean decrease in depression.

They also had increased cortisol levels, which is not unexpected after a stroke, especially with increased anxiety linked to financial and other stressors, said Ms. Bryant, adding these levels should decrease with treatment.

Recipients of the NMT had significant increases in BDNF, a neurotrophin that plays an important role in neuronal survival and growth, but only in those who attended several consecutive sessions.
 

Increased plasticity

“We see greater increases in plasticity when the therapy is used intensively, meaning at least four treatments consecutively,” said Ms. Bryant. Participants in the NMT group also reported they “overall felt well,” she added.

She noted NMT can be tailored to individual deficit, “so you can make it solely for motor movement or you can make it solely for language.”

Next steps could include more closely targeting the music to individual preferences and investigating whether the benefits of the intervention extend to other types of brain injury, for example traumatic brain injury, which typically affects younger people, said Ms. Bryant.

“In this study, participants were older and there was an unknown; a lot of them were going back into the community but didn’t know if it was into a retirement home or long-term care.”

It’s unclear if the benefits are sustained after the intervention stops, she said.

There are also the issues of cost and accessibility; in Kingston, there are few music therapists certified in the area of NMT.

Ms. Bryant hopes NMT is eventually included in stroke rehabilitation. “Stroke therapy is typically very intensive on its own; you’re doing it every single day for about a month or 6 weeks,” she said. “It would be interesting to see whether we would see a shorter hospital stay if this is included in stroke rehab.”

Asked to comment, Michael H. Thaut, PhD, professor, faculty of music and faculty of medicine, and Canada research chair in music, neuroscience and health at the University of Toronto, said while these data are preliminary, “they do extend the benefits of NMT in stroke rehabilitation, especially measuring BDNF in addition to having behavioral data.”

However, it’s “unfortunate” the poster didn’t specify which cognitive intervention techniques were used in the study, said Dr. Thaut. “There are nine coded techniques in NMT, including for attention, memory, psychosocial function, and executive function.”

His own study, published in NeuroRehabilitation, focused on training for motor goals in stroke patients. It showed that NMT benefited cognitive functioning and affective responses.

The study was funded by a Queen’s University Research Initiation Grant. Ms. Bryant and Dr. Thaut have not disclosed any relevant financial relationships.

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

Could antidepressants hold the key to treating long COVID? University of Pennsylvania researchers have uncovered a link between long COVID and levels of serotonin in the body that may offer a new explanation for the condition. The study even points to a possible treatment.

Serotonin is a neurotransmitter that has many functions in the body and is targeted by the most commonly prescribed antidepressants – the selective serotonin reuptake inhibitors.

Serotonin is widely studied for its effects on the brain – it regulates the messaging between neurons, affecting sleep, mood, and memory. It is present in the gut, is found in cells along the gastrointestinal tract, and is absorbed by blood platelets. Gut serotonin, known as circulating serotonin, is responsible for a host of other functions, including the regulation of blood flow, body temperature, and digestion.

Low levels of serotonin could result in any number of seemingly unrelated symptoms, as in the case of long COVID, experts say. The condition affects about 7% of Americans and is associated with a wide range of health problems, including fatigue, shortness of breath, neurological symptoms, joint pain, blood clots, heart palpitations, and digestive problems.

Long COVID is difficult to treat because researchers haven’t been able to pinpoint the underlying mechanisms that cause prolonged illness after a SARS-CoV-2 infection, said study author Christoph A. Thaiss, PhD, an assistant professor of microbiology at the Perelman School of Medicine at the University of Pennsylvania.

The hope is that this study could have implications for new treatments, he said.

“Long COVID can have manifestations not only in the brain but in many different parts of the body, so it’s possible that serotonin reductions are involved in many different aspects of the disease,” said Dr. Thaiss.

Dr. Thaiss’s study, published in the journal Cell, found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but who fully recovered.

His team found that reductions in serotonin were driven by low levels of circulating SARS-CoV-2 virus that caused persistent inflammation as well as an inability of the body to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactive blood platelets were also shown to play a role; they serve as the primary means of serotonin absorption.

The study doesn’t make any recommendations for treatment, but understanding the role of serotonin in long COVID opens the door to a host of novel ideas that could set the stage for clinical trials and affect care.

“The study gives us a few possible targets that could be used in future clinical studies,” Dr. Thaiss said.

Persistent circulating virus is one of the drivers of low serotonin levels, said study author Michael Peluso, MD, an assistant research professor of infectious medicine at the University of California, San Francisco, School of Medicine. This points to the need to reduce viral load using antiviral medications like nirmatrelvir/ritonavir (Paxlovid), which is approved by the U.S. Food and Drug Administration for the treatment of COVID-19, and VV116, which has not yet been approved for use against COVID.

Research published in the New England Journal of Medicine found that the oral antiviral agent VV116 was as effective as nirmatrelvir/ritonavir in reducing the body’s viral load and aiding recovery from SARS-CoV-2 infection. Paxlovid has also been shown to reduce the likelihood of getting long COVID after an acute SARS-CoV-2 infection.

Researchers are investigating ways to target serotonin levels directly, potentially using SSRIs. But first they need to study whether improvement in serotonin level makes a difference.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said.

Indeed, the research did show that the SSRI fluoxetine, as well as a glycine-tryptophan supplement, improved cognitive function in SARS-CoV-2-infected rodent models, which were used in a portion of the study.

David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City, said the research is helping “to paint a biological picture” that’s in line with other research on the mechanisms that cause long COVID symptoms.

But Dr. Putrino, who was not involved in the study, cautions against treating long COVID patients with SSRIs or any other treatment that increases serotonin before testing patients to determine whether their serotonin levels are actually lower than those of healthy persons.

“We don’t want to assume that every patient with long COVID is going to have lower serotonin levels,” said Dr. Putrino.

What’s more, researchers need to investigate whether SSRIs increase levels of circulating serotonin. It’s important to note that researchers found lower levels of circulating serotonin but that serotonin levels in the brain remained normal.

Traditionally, SSRIs are used clinically for increasing the levels of serotonin in the brain, not the body.

“Whether that’s going to contribute to an increase in systemic levels of serotonin, that’s something that needs to be tested,” said Akiko Iwasaki, PhD, co-lead investigator of the Yale School of Medicine, New Haven, Conn., COVID-19 Recovery Study, who was not involved in the research.

Thus far, investigators have not identified one unifying biomarker that seems to cause long COVID in all patients, said Dr. Iwasaki. Some research has found higher levels of certain immune cells and biomarkers: for example, monocytes and activated B lymphocytes, indicating a stronger and ongoing antibody response to the virus. Other recent research conducted by Dr. Iwasaki, Dr. Putrino, and others, published in the journal Nature, showed that long COVID patients tend to have lower levels of cortisol, which could be a factor in the extreme fatigue experienced by many who suffer from the condition.

The findings in the study in The Cell are promising, but they need to be replicated in more people, said Dr. Iwasaki. And even if they’re replicated in a larger study population, this would still be just one biomarker that is associated with one subtype of the disease. There is a need to better understand which biomarkers go with which symptoms so that the most effective treatments can be identified, she said.

Both Dr. Putrino and Dr. Iwasaki contended that there isn’t a single factor that can explain all of long COVID. It’s a complex disease caused by a host of different mechanisms.

Still, low levels of serotonin could be an important piece of the puzzle. The next step, said Dr. Iwasaki, is to uncover how many of the millions of Americans with long COVID have this biomarker.

“People working in the field of long COVID should now be considering this pathway and thinking of ways to measure serotonin in their patients.”

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

Could antidepressants hold the key to treating long COVID? University of Pennsylvania researchers have uncovered a link between long COVID and levels of serotonin in the body that may offer a new explanation for the condition. The study even points to a possible treatment.

Serotonin is a neurotransmitter that has many functions in the body and is targeted by the most commonly prescribed antidepressants – the selective serotonin reuptake inhibitors.

Serotonin is widely studied for its effects on the brain – it regulates the messaging between neurons, affecting sleep, mood, and memory. It is present in the gut, is found in cells along the gastrointestinal tract, and is absorbed by blood platelets. Gut serotonin, known as circulating serotonin, is responsible for a host of other functions, including the regulation of blood flow, body temperature, and digestion.

Low levels of serotonin could result in any number of seemingly unrelated symptoms, as in the case of long COVID, experts say. The condition affects about 7% of Americans and is associated with a wide range of health problems, including fatigue, shortness of breath, neurological symptoms, joint pain, blood clots, heart palpitations, and digestive problems.

Long COVID is difficult to treat because researchers haven’t been able to pinpoint the underlying mechanisms that cause prolonged illness after a SARS-CoV-2 infection, said study author Christoph A. Thaiss, PhD, an assistant professor of microbiology at the Perelman School of Medicine at the University of Pennsylvania.

The hope is that this study could have implications for new treatments, he said.

“Long COVID can have manifestations not only in the brain but in many different parts of the body, so it’s possible that serotonin reductions are involved in many different aspects of the disease,” said Dr. Thaiss.

Dr. Thaiss’s study, published in the journal Cell, found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but who fully recovered.

His team found that reductions in serotonin were driven by low levels of circulating SARS-CoV-2 virus that caused persistent inflammation as well as an inability of the body to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactive blood platelets were also shown to play a role; they serve as the primary means of serotonin absorption.

The study doesn’t make any recommendations for treatment, but understanding the role of serotonin in long COVID opens the door to a host of novel ideas that could set the stage for clinical trials and affect care.

“The study gives us a few possible targets that could be used in future clinical studies,” Dr. Thaiss said.

Persistent circulating virus is one of the drivers of low serotonin levels, said study author Michael Peluso, MD, an assistant research professor of infectious medicine at the University of California, San Francisco, School of Medicine. This points to the need to reduce viral load using antiviral medications like nirmatrelvir/ritonavir (Paxlovid), which is approved by the U.S. Food and Drug Administration for the treatment of COVID-19, and VV116, which has not yet been approved for use against COVID.

Research published in the New England Journal of Medicine found that the oral antiviral agent VV116 was as effective as nirmatrelvir/ritonavir in reducing the body’s viral load and aiding recovery from SARS-CoV-2 infection. Paxlovid has also been shown to reduce the likelihood of getting long COVID after an acute SARS-CoV-2 infection.

Researchers are investigating ways to target serotonin levels directly, potentially using SSRIs. But first they need to study whether improvement in serotonin level makes a difference.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said.

Indeed, the research did show that the SSRI fluoxetine, as well as a glycine-tryptophan supplement, improved cognitive function in SARS-CoV-2-infected rodent models, which were used in a portion of the study.

David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City, said the research is helping “to paint a biological picture” that’s in line with other research on the mechanisms that cause long COVID symptoms.

But Dr. Putrino, who was not involved in the study, cautions against treating long COVID patients with SSRIs or any other treatment that increases serotonin before testing patients to determine whether their serotonin levels are actually lower than those of healthy persons.

“We don’t want to assume that every patient with long COVID is going to have lower serotonin levels,” said Dr. Putrino.

What’s more, researchers need to investigate whether SSRIs increase levels of circulating serotonin. It’s important to note that researchers found lower levels of circulating serotonin but that serotonin levels in the brain remained normal.

Traditionally, SSRIs are used clinically for increasing the levels of serotonin in the brain, not the body.

“Whether that’s going to contribute to an increase in systemic levels of serotonin, that’s something that needs to be tested,” said Akiko Iwasaki, PhD, co-lead investigator of the Yale School of Medicine, New Haven, Conn., COVID-19 Recovery Study, who was not involved in the research.

Thus far, investigators have not identified one unifying biomarker that seems to cause long COVID in all patients, said Dr. Iwasaki. Some research has found higher levels of certain immune cells and biomarkers: for example, monocytes and activated B lymphocytes, indicating a stronger and ongoing antibody response to the virus. Other recent research conducted by Dr. Iwasaki, Dr. Putrino, and others, published in the journal Nature, showed that long COVID patients tend to have lower levels of cortisol, which could be a factor in the extreme fatigue experienced by many who suffer from the condition.

The findings in the study in The Cell are promising, but they need to be replicated in more people, said Dr. Iwasaki. And even if they’re replicated in a larger study population, this would still be just one biomarker that is associated with one subtype of the disease. There is a need to better understand which biomarkers go with which symptoms so that the most effective treatments can be identified, she said.

Both Dr. Putrino and Dr. Iwasaki contended that there isn’t a single factor that can explain all of long COVID. It’s a complex disease caused by a host of different mechanisms.

Still, low levels of serotonin could be an important piece of the puzzle. The next step, said Dr. Iwasaki, is to uncover how many of the millions of Americans with long COVID have this biomarker.

“People working in the field of long COVID should now be considering this pathway and thinking of ways to measure serotonin in their patients.”

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

Could antidepressants hold the key to treating long COVID? University of Pennsylvania researchers have uncovered a link between long COVID and levels of serotonin in the body that may offer a new explanation for the condition. The study even points to a possible treatment.

Serotonin is a neurotransmitter that has many functions in the body and is targeted by the most commonly prescribed antidepressants – the selective serotonin reuptake inhibitors.

Serotonin is widely studied for its effects on the brain – it regulates the messaging between neurons, affecting sleep, mood, and memory. It is present in the gut, is found in cells along the gastrointestinal tract, and is absorbed by blood platelets. Gut serotonin, known as circulating serotonin, is responsible for a host of other functions, including the regulation of blood flow, body temperature, and digestion.

Low levels of serotonin could result in any number of seemingly unrelated symptoms, as in the case of long COVID, experts say. The condition affects about 7% of Americans and is associated with a wide range of health problems, including fatigue, shortness of breath, neurological symptoms, joint pain, blood clots, heart palpitations, and digestive problems.

Long COVID is difficult to treat because researchers haven’t been able to pinpoint the underlying mechanisms that cause prolonged illness after a SARS-CoV-2 infection, said study author Christoph A. Thaiss, PhD, an assistant professor of microbiology at the Perelman School of Medicine at the University of Pennsylvania.

The hope is that this study could have implications for new treatments, he said.

“Long COVID can have manifestations not only in the brain but in many different parts of the body, so it’s possible that serotonin reductions are involved in many different aspects of the disease,” said Dr. Thaiss.

Dr. Thaiss’s study, published in the journal Cell, found lower serotonin levels in long COVID patients, compared with patients who were diagnosed with acute COVID-19 but who fully recovered.

His team found that reductions in serotonin were driven by low levels of circulating SARS-CoV-2 virus that caused persistent inflammation as well as an inability of the body to absorb tryptophan, an amino acid that’s a precursor to serotonin. Overactive blood platelets were also shown to play a role; they serve as the primary means of serotonin absorption.

The study doesn’t make any recommendations for treatment, but understanding the role of serotonin in long COVID opens the door to a host of novel ideas that could set the stage for clinical trials and affect care.

“The study gives us a few possible targets that could be used in future clinical studies,” Dr. Thaiss said.

Persistent circulating virus is one of the drivers of low serotonin levels, said study author Michael Peluso, MD, an assistant research professor of infectious medicine at the University of California, San Francisco, School of Medicine. This points to the need to reduce viral load using antiviral medications like nirmatrelvir/ritonavir (Paxlovid), which is approved by the U.S. Food and Drug Administration for the treatment of COVID-19, and VV116, which has not yet been approved for use against COVID.

Research published in the New England Journal of Medicine found that the oral antiviral agent VV116 was as effective as nirmatrelvir/ritonavir in reducing the body’s viral load and aiding recovery from SARS-CoV-2 infection. Paxlovid has also been shown to reduce the likelihood of getting long COVID after an acute SARS-CoV-2 infection.

Researchers are investigating ways to target serotonin levels directly, potentially using SSRIs. But first they need to study whether improvement in serotonin level makes a difference.

“What we need now is a good clinical trial to see whether altering levels of serotonin in people with long COVID will lead to symptom relief,” Dr. Peluso said.

Indeed, the research did show that the SSRI fluoxetine, as well as a glycine-tryptophan supplement, improved cognitive function in SARS-CoV-2-infected rodent models, which were used in a portion of the study.

David F. Putrino, PhD, who runs the long COVID clinic at Mount Sinai Health System in New York City, said the research is helping “to paint a biological picture” that’s in line with other research on the mechanisms that cause long COVID symptoms.

But Dr. Putrino, who was not involved in the study, cautions against treating long COVID patients with SSRIs or any other treatment that increases serotonin before testing patients to determine whether their serotonin levels are actually lower than those of healthy persons.

“We don’t want to assume that every patient with long COVID is going to have lower serotonin levels,” said Dr. Putrino.

What’s more, researchers need to investigate whether SSRIs increase levels of circulating serotonin. It’s important to note that researchers found lower levels of circulating serotonin but that serotonin levels in the brain remained normal.

Traditionally, SSRIs are used clinically for increasing the levels of serotonin in the brain, not the body.

“Whether that’s going to contribute to an increase in systemic levels of serotonin, that’s something that needs to be tested,” said Akiko Iwasaki, PhD, co-lead investigator of the Yale School of Medicine, New Haven, Conn., COVID-19 Recovery Study, who was not involved in the research.

Thus far, investigators have not identified one unifying biomarker that seems to cause long COVID in all patients, said Dr. Iwasaki. Some research has found higher levels of certain immune cells and biomarkers: for example, monocytes and activated B lymphocytes, indicating a stronger and ongoing antibody response to the virus. Other recent research conducted by Dr. Iwasaki, Dr. Putrino, and others, published in the journal Nature, showed that long COVID patients tend to have lower levels of cortisol, which could be a factor in the extreme fatigue experienced by many who suffer from the condition.

The findings in the study in The Cell are promising, but they need to be replicated in more people, said Dr. Iwasaki. And even if they’re replicated in a larger study population, this would still be just one biomarker that is associated with one subtype of the disease. There is a need to better understand which biomarkers go with which symptoms so that the most effective treatments can be identified, she said.

Both Dr. Putrino and Dr. Iwasaki contended that there isn’t a single factor that can explain all of long COVID. It’s a complex disease caused by a host of different mechanisms.

Still, low levels of serotonin could be an important piece of the puzzle. The next step, said Dr. Iwasaki, is to uncover how many of the millions of Americans with long COVID have this biomarker.

“People working in the field of long COVID should now be considering this pathway and thinking of ways to measure serotonin in their patients.”

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

Suicide is among the top three causes of death for young people in the United States. According to the Centers for Disease Control and Prevention, the rate of suicide deaths has climbed from 4.4 per 100,000 American 12- to 17-year-olds in 2011 to 6.5 per 100,000 in 2021, an increase of almost 50%. As with accidents and homicides, we hope these are preventable deaths, although the factors contributing to them are complex.

We do know that more than half of the people who die by suicide visit a health care provider within 4 weeks of their death, highlighting an opportunity for screening and intervention.
 

Suicide screening

In 2022, the American Academy of Pediatrics (AAP) recommended that all adolescents get screened for suicide risk annually. Given that less than 1 in 10,000 adolescents commit suicide and that there is no definitive data on how to prevent suicide in any individual, the goal of suicide screening is much broader than preventing suicide. Beyond universal screening, we will review how being open and curious with all of your patients can be the most extraordinary screening instrument.

There is extensive data that tells us that far from causing suicide, asking about suicidal thoughts is protective. When you make suicidal thoughts discussable, you directly counteract the isolation, stigma, and shame that are strong predictors of actual suicide attempts. You model the value of bringing difficult or frightening thoughts to the attention of caring adults, and you model calm listening rather than emotional overreaction for their parents. The resulting connectedness can lower the risk for vulnerable patients and enhance resilience for all of your patients.
 

Who is at greater risk?

We have robust data to guide our understanding of which youth have suicidal ideation, which is distinct from those who attempt suicide, which also may be quite distinct from those who complete. The CDC reports that the rate of suicidal thoughts (“seriously considering suicide”) in high school students climbed from 16% in 2011 to 22% in 2021. In that decade, the number of high schoolers with a suicide plan climbed from 13% to 18%, and those with suicide attempts climbed from 8% to 10%. Girls are at higher risk for suicidal thoughts and attempts, but boys are at greater risk for suicide completion. Black youth were more likely to attempt suicide than were their Asian, Hispanic, or White peers and LGBTQ+ youth are at particular risk; in 2021, they were three times as likely as were their heterosexual peers to have suicidal thoughts and attempts. Youth with psychiatric illness (particularly PTSD, mood or thought disorders), a family history of suicide, a history of risk-taking behavior (including sexual activity, smoking, drinking, and drug use) and those with prior suicide attempts are at the highest risk for suicide. Adding all these risk factors together means that many, if not the majority, of teenagers have risk factors.

Focus on the patient

In your office, though, a public health approach should give way to curiosity about your individual patient. Suicidal thoughts usually follow a substantial stress. Pay attention to exceptional stresses, especially if they have a component of social stigma or isolation. Did your patient report another student for an assault? Are they now being bullied or ostracized by friends? Have they lost an especially important relationship? Some other stresses may seem minor, such as a poor grade on a test. But for a very driven, perfectionistic teenager who believes that a perfect 4.0 GPA is essential to college admission and future success and happiness, one poor grade may feel like a catastrophe.

When your patients tell you about a challenge or setback, slow down and be curious. Listen to the importance they give it. How have they managed it? Are they finding it hard to go to school or back to practice? Do they feel discouraged or even hopeless? Discouragement is a normal response to adversity, but it should be temporary. This approach can make it easy to ask if they have ever wished they were dead, or made a suicide plan or an attempt. When you calmly and supportively learn about their inner experience, it will be easy for young people to be honest with you.

There will be teenagers in your practice who are sensation-seeking and impulsive, and you should pay special attention to this group. They may not be classically depressed, but in the aftermath of a stressful experience that they find humiliating or shameful, they are at risk for an impulsive act that could still be lethal. Be curious with these patients after they feel they have let down their team or their family, or if they have been caught in a crime or cheating, or even if their girlfriend breaks up with them. Find out how they are managing, and where their support comes from. Ask them in a nonjudgmental manner about whether they are having thoughts about death or suicide, and if those thoughts are troubling, frequent, or feel like a relief. What has stopped them from acting on these thoughts? Offer your patient the perspective that such thoughts may be normal in the face of a large stress, but that the pain of stress always subsides, whereas suicide is irreversible.

There will also be patients in your practice who cut themselves. This is sometimes called “nonsuicidal self-injury,” and it often raises concern about suicide risk. While accelerating frequency of self-injury in a teenager who is suicidal can indicate growing risk, this behavior alone is usually a mechanism for regulating emotion. Ask your patient about when they cut themselves. What are the triggers? How do they feel afterward? Are their friends all doing it? Is it only after fighting with their parents? Or does it make their parents worry instead of getting angry? As you learn about the nature of the behavior, you will be able to offer thoughtful guidance about better strategies for stress management or to pursue further assessment and support.
 

Next steps

Speaking comfortably with your patients about suicidal thoughts and behaviors requires that you also feel comfortable with what comes next. As in the ASQ screening instrument recommended by the AAP, you should always follow affirmative answers about suicidal thoughts with more questions. Do they have a plan? Do they have access to lethal means including any guns in the home? Have they ever made an attempt? Are they thinking about killing themselves now? If the thoughts are current, they have access, and they have tried before, it is clear that they need an urgent assessment, probably in an emergency department. But when the thoughts were in the past or have never been connected to plans or intent, there is an opportunity to enhance their connectedness. You can diminish the potential for shame, stigma and isolation by reminding them that such thoughts and feelings are normal in the face of difficulty. They deserve support to help them face and manage their adversity, whether that stress comes from an internal or external source. How do they feel now that they have shared these thoughts with you? Most will describe feeling better, relieved, even hopeful once they are not facing intense thoughts and feelings alone.

You should tell them that you would like to bring their parents into the conversation. You want them to know they can turn to their parents if they are having these thoughts, so they are never alone in facing them. Parents can learn from your model of calm and supportive listening to fully understand the situation before turning together to talk about what might be helpful next steps. It is always prudent to create “speed bumps” between thought and action with impulsive teens, so recommend limiting access to any lethal means (firearms especially). But the strongest protective intervention is for the child to feel confident in and connected to their support network, trusting you and their parents to listen and understand before figuring out together what else is needed to address the situation.

Lastly, recognize that talking about difficult issues with teenagers is among the most stressful and demanding aspects of pediatric primary care. Talk to colleagues, never worry alone, and recognize and manage your own stress. This is among the best ways to model for your patients and their parents that every challenge can be met, but we often need support.
 

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Email them at [email protected].

Suicide is among the top three causes of death for young people in the United States. According to the Centers for Disease Control and Prevention, the rate of suicide deaths has climbed from 4.4 per 100,000 American 12- to 17-year-olds in 2011 to 6.5 per 100,000 in 2021, an increase of almost 50%. As with accidents and homicides, we hope these are preventable deaths, although the factors contributing to them are complex.

We do know that more than half of the people who die by suicide visit a health care provider within 4 weeks of their death, highlighting an opportunity for screening and intervention.
 

Suicide screening

In 2022, the American Academy of Pediatrics (AAP) recommended that all adolescents get screened for suicide risk annually. Given that less than 1 in 10,000 adolescents commit suicide and that there is no definitive data on how to prevent suicide in any individual, the goal of suicide screening is much broader than preventing suicide. Beyond universal screening, we will review how being open and curious with all of your patients can be the most extraordinary screening instrument.

There is extensive data that tells us that far from causing suicide, asking about suicidal thoughts is protective. When you make suicidal thoughts discussable, you directly counteract the isolation, stigma, and shame that are strong predictors of actual suicide attempts. You model the value of bringing difficult or frightening thoughts to the attention of caring adults, and you model calm listening rather than emotional overreaction for their parents. The resulting connectedness can lower the risk for vulnerable patients and enhance resilience for all of your patients.
 

Who is at greater risk?

We have robust data to guide our understanding of which youth have suicidal ideation, which is distinct from those who attempt suicide, which also may be quite distinct from those who complete. The CDC reports that the rate of suicidal thoughts (“seriously considering suicide”) in high school students climbed from 16% in 2011 to 22% in 2021. In that decade, the number of high schoolers with a suicide plan climbed from 13% to 18%, and those with suicide attempts climbed from 8% to 10%. Girls are at higher risk for suicidal thoughts and attempts, but boys are at greater risk for suicide completion. Black youth were more likely to attempt suicide than were their Asian, Hispanic, or White peers and LGBTQ+ youth are at particular risk; in 2021, they were three times as likely as were their heterosexual peers to have suicidal thoughts and attempts. Youth with psychiatric illness (particularly PTSD, mood or thought disorders), a family history of suicide, a history of risk-taking behavior (including sexual activity, smoking, drinking, and drug use) and those with prior suicide attempts are at the highest risk for suicide. Adding all these risk factors together means that many, if not the majority, of teenagers have risk factors.

Focus on the patient

In your office, though, a public health approach should give way to curiosity about your individual patient. Suicidal thoughts usually follow a substantial stress. Pay attention to exceptional stresses, especially if they have a component of social stigma or isolation. Did your patient report another student for an assault? Are they now being bullied or ostracized by friends? Have they lost an especially important relationship? Some other stresses may seem minor, such as a poor grade on a test. But for a very driven, perfectionistic teenager who believes that a perfect 4.0 GPA is essential to college admission and future success and happiness, one poor grade may feel like a catastrophe.

When your patients tell you about a challenge or setback, slow down and be curious. Listen to the importance they give it. How have they managed it? Are they finding it hard to go to school or back to practice? Do they feel discouraged or even hopeless? Discouragement is a normal response to adversity, but it should be temporary. This approach can make it easy to ask if they have ever wished they were dead, or made a suicide plan or an attempt. When you calmly and supportively learn about their inner experience, it will be easy for young people to be honest with you.

There will be teenagers in your practice who are sensation-seeking and impulsive, and you should pay special attention to this group. They may not be classically depressed, but in the aftermath of a stressful experience that they find humiliating or shameful, they are at risk for an impulsive act that could still be lethal. Be curious with these patients after they feel they have let down their team or their family, or if they have been caught in a crime or cheating, or even if their girlfriend breaks up with them. Find out how they are managing, and where their support comes from. Ask them in a nonjudgmental manner about whether they are having thoughts about death or suicide, and if those thoughts are troubling, frequent, or feel like a relief. What has stopped them from acting on these thoughts? Offer your patient the perspective that such thoughts may be normal in the face of a large stress, but that the pain of stress always subsides, whereas suicide is irreversible.

There will also be patients in your practice who cut themselves. This is sometimes called “nonsuicidal self-injury,” and it often raises concern about suicide risk. While accelerating frequency of self-injury in a teenager who is suicidal can indicate growing risk, this behavior alone is usually a mechanism for regulating emotion. Ask your patient about when they cut themselves. What are the triggers? How do they feel afterward? Are their friends all doing it? Is it only after fighting with their parents? Or does it make their parents worry instead of getting angry? As you learn about the nature of the behavior, you will be able to offer thoughtful guidance about better strategies for stress management or to pursue further assessment and support.
 

Next steps

Speaking comfortably with your patients about suicidal thoughts and behaviors requires that you also feel comfortable with what comes next. As in the ASQ screening instrument recommended by the AAP, you should always follow affirmative answers about suicidal thoughts with more questions. Do they have a plan? Do they have access to lethal means including any guns in the home? Have they ever made an attempt? Are they thinking about killing themselves now? If the thoughts are current, they have access, and they have tried before, it is clear that they need an urgent assessment, probably in an emergency department. But when the thoughts were in the past or have never been connected to plans or intent, there is an opportunity to enhance their connectedness. You can diminish the potential for shame, stigma and isolation by reminding them that such thoughts and feelings are normal in the face of difficulty. They deserve support to help them face and manage their adversity, whether that stress comes from an internal or external source. How do they feel now that they have shared these thoughts with you? Most will describe feeling better, relieved, even hopeful once they are not facing intense thoughts and feelings alone.

You should tell them that you would like to bring their parents into the conversation. You want them to know they can turn to their parents if they are having these thoughts, so they are never alone in facing them. Parents can learn from your model of calm and supportive listening to fully understand the situation before turning together to talk about what might be helpful next steps. It is always prudent to create “speed bumps” between thought and action with impulsive teens, so recommend limiting access to any lethal means (firearms especially). But the strongest protective intervention is for the child to feel confident in and connected to their support network, trusting you and their parents to listen and understand before figuring out together what else is needed to address the situation.

Lastly, recognize that talking about difficult issues with teenagers is among the most stressful and demanding aspects of pediatric primary care. Talk to colleagues, never worry alone, and recognize and manage your own stress. This is among the best ways to model for your patients and their parents that every challenge can be met, but we often need support.
 

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Email them at [email protected].

Suicide is among the top three causes of death for young people in the United States. According to the Centers for Disease Control and Prevention, the rate of suicide deaths has climbed from 4.4 per 100,000 American 12- to 17-year-olds in 2011 to 6.5 per 100,000 in 2021, an increase of almost 50%. As with accidents and homicides, we hope these are preventable deaths, although the factors contributing to them are complex.

We do know that more than half of the people who die by suicide visit a health care provider within 4 weeks of their death, highlighting an opportunity for screening and intervention.
 

Suicide screening

In 2022, the American Academy of Pediatrics (AAP) recommended that all adolescents get screened for suicide risk annually. Given that less than 1 in 10,000 adolescents commit suicide and that there is no definitive data on how to prevent suicide in any individual, the goal of suicide screening is much broader than preventing suicide. Beyond universal screening, we will review how being open and curious with all of your patients can be the most extraordinary screening instrument.

There is extensive data that tells us that far from causing suicide, asking about suicidal thoughts is protective. When you make suicidal thoughts discussable, you directly counteract the isolation, stigma, and shame that are strong predictors of actual suicide attempts. You model the value of bringing difficult or frightening thoughts to the attention of caring adults, and you model calm listening rather than emotional overreaction for their parents. The resulting connectedness can lower the risk for vulnerable patients and enhance resilience for all of your patients.
 

Who is at greater risk?

We have robust data to guide our understanding of which youth have suicidal ideation, which is distinct from those who attempt suicide, which also may be quite distinct from those who complete. The CDC reports that the rate of suicidal thoughts (“seriously considering suicide”) in high school students climbed from 16% in 2011 to 22% in 2021. In that decade, the number of high schoolers with a suicide plan climbed from 13% to 18%, and those with suicide attempts climbed from 8% to 10%. Girls are at higher risk for suicidal thoughts and attempts, but boys are at greater risk for suicide completion. Black youth were more likely to attempt suicide than were their Asian, Hispanic, or White peers and LGBTQ+ youth are at particular risk; in 2021, they were three times as likely as were their heterosexual peers to have suicidal thoughts and attempts. Youth with psychiatric illness (particularly PTSD, mood or thought disorders), a family history of suicide, a history of risk-taking behavior (including sexual activity, smoking, drinking, and drug use) and those with prior suicide attempts are at the highest risk for suicide. Adding all these risk factors together means that many, if not the majority, of teenagers have risk factors.

Focus on the patient

In your office, though, a public health approach should give way to curiosity about your individual patient. Suicidal thoughts usually follow a substantial stress. Pay attention to exceptional stresses, especially if they have a component of social stigma or isolation. Did your patient report another student for an assault? Are they now being bullied or ostracized by friends? Have they lost an especially important relationship? Some other stresses may seem minor, such as a poor grade on a test. But for a very driven, perfectionistic teenager who believes that a perfect 4.0 GPA is essential to college admission and future success and happiness, one poor grade may feel like a catastrophe.

When your patients tell you about a challenge or setback, slow down and be curious. Listen to the importance they give it. How have they managed it? Are they finding it hard to go to school or back to practice? Do they feel discouraged or even hopeless? Discouragement is a normal response to adversity, but it should be temporary. This approach can make it easy to ask if they have ever wished they were dead, or made a suicide plan or an attempt. When you calmly and supportively learn about their inner experience, it will be easy for young people to be honest with you.

There will be teenagers in your practice who are sensation-seeking and impulsive, and you should pay special attention to this group. They may not be classically depressed, but in the aftermath of a stressful experience that they find humiliating or shameful, they are at risk for an impulsive act that could still be lethal. Be curious with these patients after they feel they have let down their team or their family, or if they have been caught in a crime or cheating, or even if their girlfriend breaks up with them. Find out how they are managing, and where their support comes from. Ask them in a nonjudgmental manner about whether they are having thoughts about death or suicide, and if those thoughts are troubling, frequent, or feel like a relief. What has stopped them from acting on these thoughts? Offer your patient the perspective that such thoughts may be normal in the face of a large stress, but that the pain of stress always subsides, whereas suicide is irreversible.

There will also be patients in your practice who cut themselves. This is sometimes called “nonsuicidal self-injury,” and it often raises concern about suicide risk. While accelerating frequency of self-injury in a teenager who is suicidal can indicate growing risk, this behavior alone is usually a mechanism for regulating emotion. Ask your patient about when they cut themselves. What are the triggers? How do they feel afterward? Are their friends all doing it? Is it only after fighting with their parents? Or does it make their parents worry instead of getting angry? As you learn about the nature of the behavior, you will be able to offer thoughtful guidance about better strategies for stress management or to pursue further assessment and support.
 

Next steps

Speaking comfortably with your patients about suicidal thoughts and behaviors requires that you also feel comfortable with what comes next. As in the ASQ screening instrument recommended by the AAP, you should always follow affirmative answers about suicidal thoughts with more questions. Do they have a plan? Do they have access to lethal means including any guns in the home? Have they ever made an attempt? Are they thinking about killing themselves now? If the thoughts are current, they have access, and they have tried before, it is clear that they need an urgent assessment, probably in an emergency department. But when the thoughts were in the past or have never been connected to plans or intent, there is an opportunity to enhance their connectedness. You can diminish the potential for shame, stigma and isolation by reminding them that such thoughts and feelings are normal in the face of difficulty. They deserve support to help them face and manage their adversity, whether that stress comes from an internal or external source. How do they feel now that they have shared these thoughts with you? Most will describe feeling better, relieved, even hopeful once they are not facing intense thoughts and feelings alone.

You should tell them that you would like to bring their parents into the conversation. You want them to know they can turn to their parents if they are having these thoughts, so they are never alone in facing them. Parents can learn from your model of calm and supportive listening to fully understand the situation before turning together to talk about what might be helpful next steps. It is always prudent to create “speed bumps” between thought and action with impulsive teens, so recommend limiting access to any lethal means (firearms especially). But the strongest protective intervention is for the child to feel confident in and connected to their support network, trusting you and their parents to listen and understand before figuring out together what else is needed to address the situation.

Lastly, recognize that talking about difficult issues with teenagers is among the most stressful and demanding aspects of pediatric primary care. Talk to colleagues, never worry alone, and recognize and manage your own stress. This is among the best ways to model for your patients and their parents that every challenge can be met, but we often need support.
 

Dr. Swick is physician in chief at Ohana, Center for Child and Adolescent Behavioral Health, Community Hospital of the Monterey (Calif.) Peninsula. Dr. Jellinek is professor emeritus of psychiatry and pediatrics, Harvard Medical School, Boston. Email them at [email protected].

TOPLINE:

A genetic predisposition to sleep 5 or fewer hours per night is associated with a significantly higher risk for subsequent depression. However, a genetic propensity to depression is not associated with suboptimal sleep patterns later on, new research shows.

METHODOLOGY:

• The analysis included participants in the English Longitudinal Study of Ageing (ELSA), a prospective cohort study of a representative U.K. sample (mean age, 65 years) that is assessed biennially.
• Researchers collected data on sleep duration and depression through nursing home visits and computer-assisted personal interviews and used combined ELSA waves from 2004 to 2008, when collection of genetic data began.
• Using genome-wide association studies from the U.K. Biobank, the authors constructed polygenic scores (PGSs) to predict an individual’s genetic risk over an average of 8 years for a disease or outcome, overall sleep duration, short sleep (≤ 5 hours nightly), long sleep (≥ 9 hours of sleep nightly), and depression.
• The analysis included two analytic samples; one involved 6,521 persons to determine the role of baseline sleep on depression (assessed using the Center for Epidemiologic Studies Depression Scale) at follow-up, and the other involved 6,070 persons to determine the role of baseline depression on suboptimal sleep at follow-up.

TAKEAWAY:

• After adjustments, including for age and sex, a 1–standard deviation increase in PGS for short sleep was associated with an increase of 14% in odds of developing depression during the follow-up period (odds ratio, 1.14; P = .008).
• There was no significant association of the PGS for sleep duration (P = .053) or long sleep (P = .544) with the onset of depression.
• There were no significant associations between PGS for depression and future overall sleep duration, short sleep, and long sleep by the end of the follow-up, suggesting that different mechanisms underlie the relationship between depression and subsequent onset of suboptimal sleep in older adults.
• Several sensitivity analyses – including additional adjustment for socioeconomic, environmental, and behavioral factors – upheld the findings of the main analysis, highlighting the robustness of the results.

IN PRACTICE:

The study showed that common genetic markers for short sleep play an important role in the incidence of depression in older adults, the authors note, adding that the new findings “support a growing view that short-sleep is more salient to the experience of depression than long sleep” across the lifespan.

SOURCE:

The study was led by Odessa S. Hamilton, department of behavioral science and health, University College London. It was published online  in Translational Psychiatry.

LIMITATIONS:

There are probably intraindividual differences in sleep duration that were not assessed in the study. The depression scale used may be indicative of subclinical depression and not major depressive disorder. The phenotypic sensitivity analyses did not account for comorbidities or medications that can affect sleep duration and depression.

DISCLOSURES:

ELSA is funded by the National Institute on Aging and by a consortium of U.K. government departments coordinated by the National Institute for Health and Care Research. The authors report no relevant conflicts of interests.

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

TOPLINE:

A genetic predisposition to sleep 5 or fewer hours per night is associated with a significantly higher risk for subsequent depression. However, a genetic propensity to depression is not associated with suboptimal sleep patterns later on, new research shows.

METHODOLOGY:

• The analysis included participants in the English Longitudinal Study of Ageing (ELSA), a prospective cohort study of a representative U.K. sample (mean age, 65 years) that is assessed biennially.
• Researchers collected data on sleep duration and depression through nursing home visits and computer-assisted personal interviews and used combined ELSA waves from 2004 to 2008, when collection of genetic data began.
• Using genome-wide association studies from the U.K. Biobank, the authors constructed polygenic scores (PGSs) to predict an individual’s genetic risk over an average of 8 years for a disease or outcome, overall sleep duration, short sleep (≤ 5 hours nightly), long sleep (≥ 9 hours of sleep nightly), and depression.
• The analysis included two analytic samples; one involved 6,521 persons to determine the role of baseline sleep on depression (assessed using the Center for Epidemiologic Studies Depression Scale) at follow-up, and the other involved 6,070 persons to determine the role of baseline depression on suboptimal sleep at follow-up.

TAKEAWAY:

• After adjustments, including for age and sex, a 1–standard deviation increase in PGS for short sleep was associated with an increase of 14% in odds of developing depression during the follow-up period (odds ratio, 1.14; P = .008).
• There was no significant association of the PGS for sleep duration (P = .053) or long sleep (P = .544) with the onset of depression.
• There were no significant associations between PGS for depression and future overall sleep duration, short sleep, and long sleep by the end of the follow-up, suggesting that different mechanisms underlie the relationship between depression and subsequent onset of suboptimal sleep in older adults.
• Several sensitivity analyses – including additional adjustment for socioeconomic, environmental, and behavioral factors – upheld the findings of the main analysis, highlighting the robustness of the results.

IN PRACTICE:

The study showed that common genetic markers for short sleep play an important role in the incidence of depression in older adults, the authors note, adding that the new findings “support a growing view that short-sleep is more salient to the experience of depression than long sleep” across the lifespan.

SOURCE:

The study was led by Odessa S. Hamilton, department of behavioral science and health, University College London. It was published online  in Translational Psychiatry.

LIMITATIONS:

There are probably intraindividual differences in sleep duration that were not assessed in the study. The depression scale used may be indicative of subclinical depression and not major depressive disorder. The phenotypic sensitivity analyses did not account for comorbidities or medications that can affect sleep duration and depression.

DISCLOSURES:

ELSA is funded by the National Institute on Aging and by a consortium of U.K. government departments coordinated by the National Institute for Health and Care Research. The authors report no relevant conflicts of interests.

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

TOPLINE:

A genetic predisposition to sleep 5 or fewer hours per night is associated with a significantly higher risk for subsequent depression. However, a genetic propensity to depression is not associated with suboptimal sleep patterns later on, new research shows.

METHODOLOGY:

• The analysis included participants in the English Longitudinal Study of Ageing (ELSA), a prospective cohort study of a representative U.K. sample (mean age, 65 years) that is assessed biennially.
• Researchers collected data on sleep duration and depression through nursing home visits and computer-assisted personal interviews and used combined ELSA waves from 2004 to 2008, when collection of genetic data began.
• Using genome-wide association studies from the U.K. Biobank, the authors constructed polygenic scores (PGSs) to predict an individual’s genetic risk over an average of 8 years for a disease or outcome, overall sleep duration, short sleep (≤ 5 hours nightly), long sleep (≥ 9 hours of sleep nightly), and depression.
• The analysis included two analytic samples; one involved 6,521 persons to determine the role of baseline sleep on depression (assessed using the Center for Epidemiologic Studies Depression Scale) at follow-up, and the other involved 6,070 persons to determine the role of baseline depression on suboptimal sleep at follow-up.

TAKEAWAY:

• After adjustments, including for age and sex, a 1–standard deviation increase in PGS for short sleep was associated with an increase of 14% in odds of developing depression during the follow-up period (odds ratio, 1.14; P = .008).
• There was no significant association of the PGS for sleep duration (P = .053) or long sleep (P = .544) with the onset of depression.
• There were no significant associations between PGS for depression and future overall sleep duration, short sleep, and long sleep by the end of the follow-up, suggesting that different mechanisms underlie the relationship between depression and subsequent onset of suboptimal sleep in older adults.
• Several sensitivity analyses – including additional adjustment for socioeconomic, environmental, and behavioral factors – upheld the findings of the main analysis, highlighting the robustness of the results.

IN PRACTICE:

The study showed that common genetic markers for short sleep play an important role in the incidence of depression in older adults, the authors note, adding that the new findings “support a growing view that short-sleep is more salient to the experience of depression than long sleep” across the lifespan.

SOURCE:

The study was led by Odessa S. Hamilton, department of behavioral science and health, University College London. It was published online  in Translational Psychiatry.

LIMITATIONS:

There are probably intraindividual differences in sleep duration that were not assessed in the study. The depression scale used may be indicative of subclinical depression and not major depressive disorder. The phenotypic sensitivity analyses did not account for comorbidities or medications that can affect sleep duration and depression.

DISCLOSURES:

ELSA is funded by the National Institute on Aging and by a consortium of U.K. government departments coordinated by the National Institute for Health and Care Research. The authors report no relevant conflicts of interests.

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

TOPLINE:

Black psychiatric inpatients are 85% more likely to be restrained with a physical or mechanical hold or with medication than White patients, and often for longer periods, new research suggests.

METHODOLOGY:

• The study, part of a larger retrospective chart review of inpatient psychiatric electronic medical records (EMRs), included 29,739 adolescents (aged 12-17 years) and adults admitted because of severe and disruptive psychiatric illness or concerns about self-harm.
• A restraint event was defined as a physician-ordered physical or mechanical hold in which patients are unable to move their limbs, body, or head or are given medication to restrict their movement.
• Researchers used scores on the Dynamic Appraisal of Situational Aggression (DASA) at admission to assess risk for aggression among high-risk psychiatric inpatients (scores ranged from a low of 0 to a high of 7).
• From restraint event data extracted from the EMR, researchers investigated whether restraint frequency or duration was affected by “adultification,” a form of racial bias in which adolescents are perceived as being older than their actual age and are treated accordingly.

TAKEAWAY:

• Of the entire cohort, 1867 (6.3%) experienced a restraint event, and 27,872 (93.7%) did not.
• Compared with White patients, restraint was 85% more likely among Black patients (adjusted odds ratio, 1.85; P < .001) and 36% more likely among multiracial patients (aOR, 1.36; P = .006), which researchers suggest may reflect systemic racism within psychiatry and medicine, as well as an implicit or learned perception that people of color are more aggressive and dangerous.
• Lower DASA score at admission (P = .001), shorter length of stay (P < .001), adult age (P = .001), female sex (P = .042), and Black race, compared with White race (P = .001), were significantly associated with longer restraint duration, which may serve as a proxy for psychiatric symptom severity.
• Neither age group alone (adolescent or adult) nor the interaction of race and age group was significantly associated with experiencing a restraint event, suggesting no evidence of “adultification.”

IN PRACTICE:

It’s important to raise awareness about racial differences in restraint events in inpatient psychiatric settings, the authors write, adding that addressing overcrowding and investing in bias assessment and restraint education may reduce bias in the care of agitated patients and the use of restraints.

SOURCE:

The study was carried out by Sonali Singal, BS, Institute of Behavioral Science, Feinstein Institutes for Medical Research, Manhasset, N.Y., and colleagues. It was published online  in Psychiatric Services.

LIMITATIONS:

The variables analyzed in the study were limited by the retrospective chart review and by the available EMR data, which may have contained entry errors. Although the investigators used DASA scores to control for differences in aggression, they could not control for symptom severity. The study could not examine the impact of race on seclusion (involuntary confinement), a variable often examined in tandem with restraint, because there were too few such events. The analysis also did not control for substance use disorder, which can influence a patient’s behavior and be related to restraint use.

DISCLOSURES:

Ms. Singal reported no relevant financial relationships. The original article has disclosures of other authors.

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

TOPLINE:

Black psychiatric inpatients are 85% more likely to be restrained with a physical or mechanical hold or with medication than White patients, and often for longer periods, new research suggests.

METHODOLOGY:

• The study, part of a larger retrospective chart review of inpatient psychiatric electronic medical records (EMRs), included 29,739 adolescents (aged 12-17 years) and adults admitted because of severe and disruptive psychiatric illness or concerns about self-harm.
• A restraint event was defined as a physician-ordered physical or mechanical hold in which patients are unable to move their limbs, body, or head or are given medication to restrict their movement.
• Researchers used scores on the Dynamic Appraisal of Situational Aggression (DASA) at admission to assess risk for aggression among high-risk psychiatric inpatients (scores ranged from a low of 0 to a high of 7).
• From restraint event data extracted from the EMR, researchers investigated whether restraint frequency or duration was affected by “adultification,” a form of racial bias in which adolescents are perceived as being older than their actual age and are treated accordingly.

TAKEAWAY:

• Of the entire cohort, 1867 (6.3%) experienced a restraint event, and 27,872 (93.7%) did not.
• Compared with White patients, restraint was 85% more likely among Black patients (adjusted odds ratio, 1.85; P < .001) and 36% more likely among multiracial patients (aOR, 1.36; P = .006), which researchers suggest may reflect systemic racism within psychiatry and medicine, as well as an implicit or learned perception that people of color are more aggressive and dangerous.
• Lower DASA score at admission (P = .001), shorter length of stay (P < .001), adult age (P = .001), female sex (P = .042), and Black race, compared with White race (P = .001), were significantly associated with longer restraint duration, which may serve as a proxy for psychiatric symptom severity.
• Neither age group alone (adolescent or adult) nor the interaction of race and age group was significantly associated with experiencing a restraint event, suggesting no evidence of “adultification.”

IN PRACTICE:

It’s important to raise awareness about racial differences in restraint events in inpatient psychiatric settings, the authors write, adding that addressing overcrowding and investing in bias assessment and restraint education may reduce bias in the care of agitated patients and the use of restraints.

SOURCE:

The study was carried out by Sonali Singal, BS, Institute of Behavioral Science, Feinstein Institutes for Medical Research, Manhasset, N.Y., and colleagues. It was published online  in Psychiatric Services.

LIMITATIONS:

The variables analyzed in the study were limited by the retrospective chart review and by the available EMR data, which may have contained entry errors. Although the investigators used DASA scores to control for differences in aggression, they could not control for symptom severity. The study could not examine the impact of race on seclusion (involuntary confinement), a variable often examined in tandem with restraint, because there were too few such events. The analysis also did not control for substance use disorder, which can influence a patient’s behavior and be related to restraint use.

DISCLOSURES:

Ms. Singal reported no relevant financial relationships. The original article has disclosures of other authors.

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

TOPLINE:

Black psychiatric inpatients are 85% more likely to be restrained with a physical or mechanical hold or with medication than White patients, and often for longer periods, new research suggests.

METHODOLOGY:

• The study, part of a larger retrospective chart review of inpatient psychiatric electronic medical records (EMRs), included 29,739 adolescents (aged 12-17 years) and adults admitted because of severe and disruptive psychiatric illness or concerns about self-harm.
• A restraint event was defined as a physician-ordered physical or mechanical hold in which patients are unable to move their limbs, body, or head or are given medication to restrict their movement.
• Researchers used scores on the Dynamic Appraisal of Situational Aggression (DASA) at admission to assess risk for aggression among high-risk psychiatric inpatients (scores ranged from a low of 0 to a high of 7).
• From restraint event data extracted from the EMR, researchers investigated whether restraint frequency or duration was affected by “adultification,” a form of racial bias in which adolescents are perceived as being older than their actual age and are treated accordingly.

TAKEAWAY:

• Of the entire cohort, 1867 (6.3%) experienced a restraint event, and 27,872 (93.7%) did not.
• Compared with White patients, restraint was 85% more likely among Black patients (adjusted odds ratio, 1.85; P < .001) and 36% more likely among multiracial patients (aOR, 1.36; P = .006), which researchers suggest may reflect systemic racism within psychiatry and medicine, as well as an implicit or learned perception that people of color are more aggressive and dangerous.
• Lower DASA score at admission (P = .001), shorter length of stay (P < .001), adult age (P = .001), female sex (P = .042), and Black race, compared with White race (P = .001), were significantly associated with longer restraint duration, which may serve as a proxy for psychiatric symptom severity.
• Neither age group alone (adolescent or adult) nor the interaction of race and age group was significantly associated with experiencing a restraint event, suggesting no evidence of “adultification.”

IN PRACTICE:

It’s important to raise awareness about racial differences in restraint events in inpatient psychiatric settings, the authors write, adding that addressing overcrowding and investing in bias assessment and restraint education may reduce bias in the care of agitated patients and the use of restraints.

SOURCE:

The study was carried out by Sonali Singal, BS, Institute of Behavioral Science, Feinstein Institutes for Medical Research, Manhasset, N.Y., and colleagues. It was published online  in Psychiatric Services.

LIMITATIONS:

The variables analyzed in the study were limited by the retrospective chart review and by the available EMR data, which may have contained entry errors. Although the investigators used DASA scores to control for differences in aggression, they could not control for symptom severity. The study could not examine the impact of race on seclusion (involuntary confinement), a variable often examined in tandem with restraint, because there were too few such events. The analysis also did not control for substance use disorder, which can influence a patient’s behavior and be related to restraint use.

DISCLOSURES:

Ms. Singal reported no relevant financial relationships. The original article has disclosures of other authors.

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

BERLIN – European guidelines now in press for the diagnosis and treatment of body dysmorphic disorder (BDD), a condition defined largely by abnormal perceptions about – and behavior surrounding personal appearance, were outlined in a late-breaker presentation at the annual Congress of the European Academy of Dermatology and Venereology.

The development of guidelines for BDD, a disorder familiar to many clinical dermatologists, is intended as a practical tool, according to Maria-Angeliki Gkini, MD, who has appointments at both Bart’s Health NHS Trust in London and the 401 General Army Hospital in Athens.

Consensus reached by 17 experts

Specifically, 17 experts, all of whom were members of the European Society for Dermatology and Psychiatry proceeded to systematically address a series of clinical questions and recommendations. Consensus was defined as at least 75% of the participants strongly agreeing or agreeing. Several rounds of discussion were often required.

Among the conclusions, the guidelines support uniform screening for BDD in all patients prior to cosmetic procedures. In identifying depression, anxiety, and distorted perceptions, simple tools, such as the Patient Health Questionnaire might be adequate for an initial evaluation, but Dr. Gkini also recommended routinely inquiring about suicidal ideation, which has been reported in up to 80% of individuals with BDD.

Other instruments for screening that can be considered include DSM-5 criteria for BDD and the Body Dysmorphic Disorder Questionnaire–Dermatology Version, which might be particularly useful and appropriate for dermatologists.

One of the reasons to screen for BDD is that these patients often convince themselves that some specific procedure is needed to resolve the source of their obsession. The goal of screening is to verify that it is the dermatologic concern, not an underlying psychiatric disorder that is driving their search for relief. The risk of dermatologic interventions is not only that expectations are not met, but the patient’s perception of a failed intervention “sometimes makes these worse,” Dr. Gkini explained.
 

Collaboration with psychiatrists recommended

The guidelines include suggestions for treatment of BDD. Of these, SSRIs are recommended at high relative doses, according to Dr. Gkini. Consistent with the consensus recommendation of collaborating with mental health specialists, she said that the recommendations acknowledge evidence of greater benefits when SSRIs are combined with psychotherapy.

Katharine A. Phillips, MD, professor of psychiatry at Weill Cornell Medicine, New York, has been conducting BDD research for several years and has written numerous books and articles about this topic, including a review in the journal Focus. She cautioned that, because of a normal concern for appearance, BDD is easily missed by dermatologists.

“For BDD to be diagnosed, the preoccupation with a nonexistent or slight defect in appearance must cause clinically significant distress or impairment in functioning,” she said in an interview. “This is necessary to differentiate BDD from more normal and common appearance concerns that do not qualify for the diagnosis”

She specified that patients should be considered for cognitive-behavioral therapy rather than psychotherapy, a generic term that covers many forms of treatment. She said that most other types of psychotherapy “are probably not effective” for BDD.

Dr. Phillips highly endorsed the development of BDD guidelines for dermatologists because of the frequency with which physicians in this specialty encounter BDD – and believes that more attention to this diagnosis is needed.

“I recommend that dermatologists who have a patient with BDD collaborate with a psychiatrist in delivering care with an SSRI,” she said. “High doses of these medications are often needed to effectively treat BDD.”

Dr. Gkini reported financial relationships with AbbVie, Almirall, Celgene, Eli Lilly, Janssen, LEO, Novartis, Sanofi, and Regenlab. Dr. Phillips reported no relevant financial relationships.

BERLIN – European guidelines now in press for the diagnosis and treatment of body dysmorphic disorder (BDD), a condition defined largely by abnormal perceptions about – and behavior surrounding personal appearance, were outlined in a late-breaker presentation at the annual Congress of the European Academy of Dermatology and Venereology.

The development of guidelines for BDD, a disorder familiar to many clinical dermatologists, is intended as a practical tool, according to Maria-Angeliki Gkini, MD, who has appointments at both Bart’s Health NHS Trust in London and the 401 General Army Hospital in Athens.

Consensus reached by 17 experts

Specifically, 17 experts, all of whom were members of the European Society for Dermatology and Psychiatry proceeded to systematically address a series of clinical questions and recommendations. Consensus was defined as at least 75% of the participants strongly agreeing or agreeing. Several rounds of discussion were often required.

Among the conclusions, the guidelines support uniform screening for BDD in all patients prior to cosmetic procedures. In identifying depression, anxiety, and distorted perceptions, simple tools, such as the Patient Health Questionnaire might be adequate for an initial evaluation, but Dr. Gkini also recommended routinely inquiring about suicidal ideation, which has been reported in up to 80% of individuals with BDD.

Other instruments for screening that can be considered include DSM-5 criteria for BDD and the Body Dysmorphic Disorder Questionnaire–Dermatology Version, which might be particularly useful and appropriate for dermatologists.

One of the reasons to screen for BDD is that these patients often convince themselves that some specific procedure is needed to resolve the source of their obsession. The goal of screening is to verify that it is the dermatologic concern, not an underlying psychiatric disorder that is driving their search for relief. The risk of dermatologic interventions is not only that expectations are not met, but the patient’s perception of a failed intervention “sometimes makes these worse,” Dr. Gkini explained.
 

Collaboration with psychiatrists recommended

The guidelines include suggestions for treatment of BDD. Of these, SSRIs are recommended at high relative doses, according to Dr. Gkini. Consistent with the consensus recommendation of collaborating with mental health specialists, she said that the recommendations acknowledge evidence of greater benefits when SSRIs are combined with psychotherapy.

Katharine A. Phillips, MD, professor of psychiatry at Weill Cornell Medicine, New York, has been conducting BDD research for several years and has written numerous books and articles about this topic, including a review in the journal Focus. She cautioned that, because of a normal concern for appearance, BDD is easily missed by dermatologists.

“For BDD to be diagnosed, the preoccupation with a nonexistent or slight defect in appearance must cause clinically significant distress or impairment in functioning,” she said in an interview. “This is necessary to differentiate BDD from more normal and common appearance concerns that do not qualify for the diagnosis”

She specified that patients should be considered for cognitive-behavioral therapy rather than psychotherapy, a generic term that covers many forms of treatment. She said that most other types of psychotherapy “are probably not effective” for BDD.

Dr. Phillips highly endorsed the development of BDD guidelines for dermatologists because of the frequency with which physicians in this specialty encounter BDD – and believes that more attention to this diagnosis is needed.

“I recommend that dermatologists who have a patient with BDD collaborate with a psychiatrist in delivering care with an SSRI,” she said. “High doses of these medications are often needed to effectively treat BDD.”

Dr. Gkini reported financial relationships with AbbVie, Almirall, Celgene, Eli Lilly, Janssen, LEO, Novartis, Sanofi, and Regenlab. Dr. Phillips reported no relevant financial relationships.

BERLIN – European guidelines now in press for the diagnosis and treatment of body dysmorphic disorder (BDD), a condition defined largely by abnormal perceptions about – and behavior surrounding personal appearance, were outlined in a late-breaker presentation at the annual Congress of the European Academy of Dermatology and Venereology.

The development of guidelines for BDD, a disorder familiar to many clinical dermatologists, is intended as a practical tool, according to Maria-Angeliki Gkini, MD, who has appointments at both Bart’s Health NHS Trust in London and the 401 General Army Hospital in Athens.

Consensus reached by 17 experts

Specifically, 17 experts, all of whom were members of the European Society for Dermatology and Psychiatry proceeded to systematically address a series of clinical questions and recommendations. Consensus was defined as at least 75% of the participants strongly agreeing or agreeing. Several rounds of discussion were often required.

Among the conclusions, the guidelines support uniform screening for BDD in all patients prior to cosmetic procedures. In identifying depression, anxiety, and distorted perceptions, simple tools, such as the Patient Health Questionnaire might be adequate for an initial evaluation, but Dr. Gkini also recommended routinely inquiring about suicidal ideation, which has been reported in up to 80% of individuals with BDD.

Other instruments for screening that can be considered include DSM-5 criteria for BDD and the Body Dysmorphic Disorder Questionnaire–Dermatology Version, which might be particularly useful and appropriate for dermatologists.

One of the reasons to screen for BDD is that these patients often convince themselves that some specific procedure is needed to resolve the source of their obsession. The goal of screening is to verify that it is the dermatologic concern, not an underlying psychiatric disorder that is driving their search for relief. The risk of dermatologic interventions is not only that expectations are not met, but the patient’s perception of a failed intervention “sometimes makes these worse,” Dr. Gkini explained.
 

Collaboration with psychiatrists recommended

The guidelines include suggestions for treatment of BDD. Of these, SSRIs are recommended at high relative doses, according to Dr. Gkini. Consistent with the consensus recommendation of collaborating with mental health specialists, she said that the recommendations acknowledge evidence of greater benefits when SSRIs are combined with psychotherapy.

Katharine A. Phillips, MD, professor of psychiatry at Weill Cornell Medicine, New York, has been conducting BDD research for several years and has written numerous books and articles about this topic, including a review in the journal Focus. She cautioned that, because of a normal concern for appearance, BDD is easily missed by dermatologists.

“For BDD to be diagnosed, the preoccupation with a nonexistent or slight defect in appearance must cause clinically significant distress or impairment in functioning,” she said in an interview. “This is necessary to differentiate BDD from more normal and common appearance concerns that do not qualify for the diagnosis”

She specified that patients should be considered for cognitive-behavioral therapy rather than psychotherapy, a generic term that covers many forms of treatment. She said that most other types of psychotherapy “are probably not effective” for BDD.

Dr. Phillips highly endorsed the development of BDD guidelines for dermatologists because of the frequency with which physicians in this specialty encounter BDD – and believes that more attention to this diagnosis is needed.

“I recommend that dermatologists who have a patient with BDD collaborate with a psychiatrist in delivering care with an SSRI,” she said. “High doses of these medications are often needed to effectively treat BDD.”

Dr. Gkini reported financial relationships with AbbVie, Almirall, Celgene, Eli Lilly, Janssen, LEO, Novartis, Sanofi, and Regenlab. Dr. Phillips reported no relevant financial relationships.

Physicians in 2024 can expect a 3.4% drop in the conversion factor that determines their base Medicare pay, according to federal officials, but they also will receive more money for primary care and treating complex conditions.

The Centers for Medicare & Medicaid Services on Nov. 2 released its 2024 final physician fee schedule, triggering renewed concerns from doctors’ groups, who protested CMS’ cuts when they were first previewed earlier in 2023.

The 2024 conversion factor, or base rate for clinician pay, will be $32.74, a decrease of $1.15, or 3.4%, from 2023’s level. The pay cuts come as costs of providing health care are expected to rise as much as 4.6% in 2024, the American Medical Association said.

The new rule follows a 2% payment reduction in 2023, AMA president Jesse M. Ehrenfeld, MD, MPH, said in a statement.

“This is a recipe for financial instability,” Dr. Ehrenfeld said. “Patients and physicians will wonder why such thin gruel is being served.”

The AMA is among the many physician groups pressing Congress to change its approach to paying clinicians and consider inflation rates in determining future payments.

Medicare already includes automatic inflation adjusters in other payment rules, such as the ones for care provided in hospitals. But Congress in 2015 eliminated this feature for the physician fee schedule when it passed the Medicare Access and CHIP Reauthorization Act.

A pending House bill, the bipartisan Strengthening Medicare for Patients and Providers Act (H.R.2474), would return to permanently including a broader inflation adjuster in the Medicare physician fee schedule.

“This long-overdue change would not only help provide greater stability within the Medicare payment system, but it would also help physicians’ practices – many of whom operate as small business owners – more effectively navigate the ever-changing economic factors that impact their practices, including rising medical costs, workforce and labor challenges, administrative burdens, office rental prices and more,” Larry Bucshon, MD (R-Ind.), Ami Bera, MD (D-Calif.), Raul Ruiz, MD (D-Calif.), and Mariannette Miller-Meeks, MD (R-Iowa), wrote in an opinion article in the newspaper The Hill.

Major changes to determining Medicare physician pay remain unlikely in 2023. Still, Congress has softened or blocked slated cuts in physician pay in recent years, passing temporary “doc fixes” as add-ons to spending packages.
 

E/M add-on payment

“We’re encouraged to see that CMS listened to our concerns and extended telehealth flexibilities as well as implemented the G2211 code, which will help Medicare beneficiaries and their physicians better manage complex and chronic rheumatic diseases,” said Douglas White, MD, PhD, president of the ACR.

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

Physicians in 2024 can expect a 3.4% drop in the conversion factor that determines their base Medicare pay, according to federal officials, but they also will receive more money for primary care and treating complex conditions.

The Centers for Medicare & Medicaid Services on Nov. 2 released its 2024 final physician fee schedule, triggering renewed concerns from doctors’ groups, who protested CMS’ cuts when they were first previewed earlier in 2023.

The 2024 conversion factor, or base rate for clinician pay, will be $32.74, a decrease of $1.15, or 3.4%, from 2023’s level. The pay cuts come as costs of providing health care are expected to rise as much as 4.6% in 2024, the American Medical Association said.

The new rule follows a 2% payment reduction in 2023, AMA president Jesse M. Ehrenfeld, MD, MPH, said in a statement.

“This is a recipe for financial instability,” Dr. Ehrenfeld said. “Patients and physicians will wonder why such thin gruel is being served.”

The AMA is among the many physician groups pressing Congress to change its approach to paying clinicians and consider inflation rates in determining future payments.

Medicare already includes automatic inflation adjusters in other payment rules, such as the ones for care provided in hospitals. But Congress in 2015 eliminated this feature for the physician fee schedule when it passed the Medicare Access and CHIP Reauthorization Act.

A pending House bill, the bipartisan Strengthening Medicare for Patients and Providers Act (H.R.2474), would return to permanently including a broader inflation adjuster in the Medicare physician fee schedule.

“This long-overdue change would not only help provide greater stability within the Medicare payment system, but it would also help physicians’ practices – many of whom operate as small business owners – more effectively navigate the ever-changing economic factors that impact their practices, including rising medical costs, workforce and labor challenges, administrative burdens, office rental prices and more,” Larry Bucshon, MD (R-Ind.), Ami Bera, MD (D-Calif.), Raul Ruiz, MD (D-Calif.), and Mariannette Miller-Meeks, MD (R-Iowa), wrote in an opinion article in the newspaper The Hill.

Major changes to determining Medicare physician pay remain unlikely in 2023. Still, Congress has softened or blocked slated cuts in physician pay in recent years, passing temporary “doc fixes” as add-ons to spending packages.
 

E/M add-on payment

“We’re encouraged to see that CMS listened to our concerns and extended telehealth flexibilities as well as implemented the G2211 code, which will help Medicare beneficiaries and their physicians better manage complex and chronic rheumatic diseases,” said Douglas White, MD, PhD, president of the ACR.

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

Physicians in 2024 can expect a 3.4% drop in the conversion factor that determines their base Medicare pay, according to federal officials, but they also will receive more money for primary care and treating complex conditions.

The Centers for Medicare & Medicaid Services on Nov. 2 released its 2024 final physician fee schedule, triggering renewed concerns from doctors’ groups, who protested CMS’ cuts when they were first previewed earlier in 2023.

The 2024 conversion factor, or base rate for clinician pay, will be $32.74, a decrease of $1.15, or 3.4%, from 2023’s level. The pay cuts come as costs of providing health care are expected to rise as much as 4.6% in 2024, the American Medical Association said.

The new rule follows a 2% payment reduction in 2023, AMA president Jesse M. Ehrenfeld, MD, MPH, said in a statement.

“This is a recipe for financial instability,” Dr. Ehrenfeld said. “Patients and physicians will wonder why such thin gruel is being served.”

The AMA is among the many physician groups pressing Congress to change its approach to paying clinicians and consider inflation rates in determining future payments.

Medicare already includes automatic inflation adjusters in other payment rules, such as the ones for care provided in hospitals. But Congress in 2015 eliminated this feature for the physician fee schedule when it passed the Medicare Access and CHIP Reauthorization Act.

A pending House bill, the bipartisan Strengthening Medicare for Patients and Providers Act (H.R.2474), would return to permanently including a broader inflation adjuster in the Medicare physician fee schedule.

“This long-overdue change would not only help provide greater stability within the Medicare payment system, but it would also help physicians’ practices – many of whom operate as small business owners – more effectively navigate the ever-changing economic factors that impact their practices, including rising medical costs, workforce and labor challenges, administrative burdens, office rental prices and more,” Larry Bucshon, MD (R-Ind.), Ami Bera, MD (D-Calif.), Raul Ruiz, MD (D-Calif.), and Mariannette Miller-Meeks, MD (R-Iowa), wrote in an opinion article in the newspaper The Hill.

Major changes to determining Medicare physician pay remain unlikely in 2023. Still, Congress has softened or blocked slated cuts in physician pay in recent years, passing temporary “doc fixes” as add-ons to spending packages.
 

E/M add-on payment

“We’re encouraged to see that CMS listened to our concerns and extended telehealth flexibilities as well as implemented the G2211 code, which will help Medicare beneficiaries and their physicians better manage complex and chronic rheumatic diseases,” said Douglas White, MD, PhD, president of the ACR.

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

What’s in a day’s work? For doctors, it’s typically a mix of seeing patients and completing paperwork and follow-up. Often it extends well past the standard workday.

Dennis Hursh, JD, managing partner of Physician Agreements Health Law, a Pennsylvania-based law firm that represents physicians, describes one overwhelmed ob.gyn. who recently consulted him for this problem.

“My client had accepted a position in a group practice where his contract stated he would be working during normal office hours, Monday through Friday, from 8 a.m. to 5 p.m. – in other words, a 40-hour workweek,” Mr. Hursh said.

But the distressed physician discovered that actually, he was working almost twice as many hours. “He’d get to work early to do charting, then see patients during the 40 hours, perhaps grabbing a quick sandwich for a few minutes – and then stay after 5 [p.m.] for a few more hours when he’d work on charts or other administrative tasks. Then he’d get something to eat, work on more charts, then go to bed, get up in the morning, and repeat.”

Mr. Hursh summarized the client’s life: “Eating, sleeping, practicing clinical medicine, and doing nonclinical tasks.”

It turned out that the 40-hour workweek included in the contract referred to patient-facing hours, not to all of the ancillary tasks that are part of practicing medicine in this day and age. “Unfortunately, this is far from an isolated story,” said Mr. Hursh.
 

Be aware of what’s in the contract

“The first draft of many standard physician employment contracts often omits mention of patient contact hour requirements and rather uses vague verbiage such as ‘full-time’ employment or ‘1.0 FTE’ – or full-time equivalent – without defining that term,” said Mr. Hursh. Typically, the 40 hours exclude call coverage, but most physicians understand that and, at least at first glance, it all sounds very reasonable.

But once charting, hours on the phone, arguing with managed care companies, sending in prescriptions, administrative meetings, and other tasks are thrown in, the work hours expand dramatically. Moreover, if your employer doesn’t utilize hospitalists, you may be expected to “round” outside of the 40 hours, which can be particularly burdensome if the employer admits patients to multiple hospitals.

Amanda Hill, JD, owner of Hill Health Law based in Austin, Texas, told this news organization that this predicament isn’t unique to physicians. Exempt employees who don’t clock in and out are often expected to work overtime – that is, to “work as long as it takes to get the job done.” It can affect NPs, PAs, and many others in the health care space. But the number of tasks that fall upon a doctor’s shoulders and the fact that patients’ health and lives are at stake up the ante and make the situation far more difficult for doctors than for employees in other industries.

So it’s important to nail down precise terms in the contract and, if possible, negotiate for a more humane schedule by specifying how the working hours will be used.

“It’s true that a 1.0 FTE definition is too vague,” Ms. Hill said. “I’ve negotiated a lot of contracts where we nail down in writing that the in-office schedule equals 34 hours per week, so the physician is guaranteed an additional 6 hours for administrative time.”

Mr. Hursh usually asks for 32 hours of patient contact per week, which leaves 1 full day per week to catch up on basic administrative tasks. “It’s important for employers to recognize that seeing patients isn’t the only thing a doctor does and there’s a lot of work in addition to face-to-face time,” he said.

But he hasn’t always been successful. One physician client was seeking a workweek consisting of 36 patient contact hours, “which is 90% of the usual FTE of a 40-hour week,” said Mr. Hursh. “But the employer called it ‘part-time,’ as if the doctor were planning to be lying in the sun for the other 4 hours.”

The client decided to accept a 10% pay cut and 10% less vacation to guarantee that she had those extra hours for administrative tasks. “She’s probably working way more than 36 hours a week, but maybe closer to 50 or 60 instead of 70 or more,” he said.
 

Clarify call coverage

Call coverage is typically not included in the hours a physician is contracted to work on a weekly basis. “Most contracts have call, and it’s usually evenly distributed among parties in a practice, but call can expand if another doctor is out sick, for example,” said Ms. Hill.

Sometimes the language in the contract is vague regarding call coverage. “I ask, how many shifts per year is the doctor is expected to work? Then, I try to negotiate extra pay if more shifts arise,” she said. “The hospital or practice may not demand extra call because they don’t want to pay extra money to the physician.”

On the other hand, some physicians may be eager to take extra call if it means extra income.

Ms. Hill stated that one of her clients was being paid as a “part-time, 2-day-a-week provider” but was asked to be on call and take night and weekend work. When you added it all up, she was putting in almost 30 hours a week.

“This is abusive to a provider that works so hard for patients,” Ms. Hill said. “We have to protect them through the contract language, so they have something hard and fast to point to when their administrator pushes them too hard. Doctors should get value for their time.”

Ms. Hill and her client pushed for more money, and the employer gave in. “All we had to do was to point out how many hours she was actually working. She didn’t mind all the extra call, but she wanted to be compensated.” The doctor’s salary was hiked by $25,000.
 

Differences in specialties and settings

There are some specialties where it might be easier to have more defined hours, while other specialties are more challenging. Anu Murthy, Esq., an attorney and associate contract review specialist at Contract Diagnostics (a national firm that reviews physician contracts) told this news organization that the work of hospitalists, intensivists, and emergency department physicians, for example, is done in shifts, which tend to be fixed hours.

“They need to get their charting completed so that whoever takes over on the next shift has access to the most recent notes about the patient,” she said. By contrast, surgeons can’t always account for how long a given surgery will take. “It could be as long as 9 hours,” she said. Notes need to be written immediately for the sake of the patient’s postsurgical care.

Dermatologists tend to deal with fewer emergencies, compared with other specialists, and it’s easier for their patients to be slotted into an organized schedule. On the other hand, primary care doctors – internists, family practice physicians, and pediatricians – may be seeing 40-50 patients a day, one every 15 minutes.

Practice setting also makes a difference, said Ms. Murthy. Veterans Administration (VA) hospitals or government-run clinics tend to have more rigidly defined hours, compared with other settings, so if you’re in a VA hospital or government-run clinic, work-life balance tends to be better.

Physicians who work remotely via telehealth also tend to have a better work-life balance, compared with those who see patients in person, Ms. Murthy said. But the difference may be in not having to spend extra time commuting to work or interacting with others in the work environment, since some research has suggested that telehealth physicians may actually spend more time engaged in charting after hours, compared with their in-person counterparts.
 

Using scribes to maximize your time

Elliott Trotter, MD, is an emergency medicine physician, associate clinical professor of emergency medicine at Texas Christian University Medical Schools, and founder of the ScribeNest, a Texas-based company that trains health care scribes. He told this news organization that there are ways to maximize one’s time during shifts so that much of the charting can be accomplished during working hours.

“About 28 years ago, I realized that the documentation load for physicians was enormous and at that time I developed the Modern Scribe, using premed students for ‘elbow support’ to help with the workload by documenting the ED encounters in real time during the encounter so I wouldn’t have to do so later.”

Over the years, as EHRs have become more ubiquitous and onerous, the role of the scribe has “evolved from a luxury to a necessity,” said Dr. Trotter. The scribes can actually record the encounter directly into the EHR so that the physician doesn’t have to do so later and doesn’t have to look at a computer screen but can look at the patient during the encounter.

“This enhances communication and has been shown to improve patient care,” he said.

Dr. Trotter said he rarely, if ever, needs to do documentation after hours. “But one of my physician colleagues had over 500 charts in his in-basket on a regular basis, which was overwhelming and untenable.”

The use of AI in health care is rapidly growing. Tools to help hasten the process of taking notes through use of AI-generated summaries is something appealing to many doctors. Ms. Hill warned physicians to “be careful not to rely so heavily on AI that you trust it over your own words.” She noted that it can make mistakes, and the liability always remains with the clinician.
 

Creating time-efficient strategies

Wilfrid Noel Raby, PhD, MD, a psychiatrist in private practice in Teaneck, N.J., was formerly a psychiatrist in the substance abuse unit at Montefiore Hospital, New York. He told this news organization that he developed a system whereby he rarely had to take work home with him. “I was working only 20 hours a week, but I was usually able to do my charting during those hours, as well as seeing patients,” he said. “I scheduled my appointments and structured a little ‘buffer time’ between them so that I had time to document the first appointment before moving on to the next one.”

There were days when this wasn’t possible because there were too many patients who needed to be seen back-to-back. “So I developed my own template where I could take rapid, very standardized notes that fit into the format of the EHR and met those expectations.” Then, when he had finished seeing patients, he could quickly enter the content of his notes into the EHR. If necessary, he completed his charting on a different day.

Viwek Bisen, DO, assistant professor of psychiatry, Hackensack (N.J.) University Medical Center, is a psychiatrist in the emergency department. “My contract is based on a traditional 40-hour workweek, with 80% of my time allotted to seeing patients and 20% of my time allotted to administration.”

But the way his time actually plays out is that he’s seeing patients during about half of the 32 hours. “The rest of the time, I’m charting, speaking to family members of patients, writing notes, engaging in team meetings, and dealing with insurance companies.” Dr. Bisen has developed his own system of completing his notes while still in the hospital. “I’ve learned to be efficient and manage my time better, so I no longer have to take work home with me.”

“At the end of the day, doctors are people,” Ms. Hill said. “They are not machines. Maybe in residency and fellowship they may grind out impossible shifts with little sleep, but this pace isn’t tenable for an entire career.”

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

What’s in a day’s work? For doctors, it’s typically a mix of seeing patients and completing paperwork and follow-up. Often it extends well past the standard workday.

Dennis Hursh, JD, managing partner of Physician Agreements Health Law, a Pennsylvania-based law firm that represents physicians, describes one overwhelmed ob.gyn. who recently consulted him for this problem.

“My client had accepted a position in a group practice where his contract stated he would be working during normal office hours, Monday through Friday, from 8 a.m. to 5 p.m. – in other words, a 40-hour workweek,” Mr. Hursh said.

But the distressed physician discovered that actually, he was working almost twice as many hours. “He’d get to work early to do charting, then see patients during the 40 hours, perhaps grabbing a quick sandwich for a few minutes – and then stay after 5 [p.m.] for a few more hours when he’d work on charts or other administrative tasks. Then he’d get something to eat, work on more charts, then go to bed, get up in the morning, and repeat.”

Mr. Hursh summarized the client’s life: “Eating, sleeping, practicing clinical medicine, and doing nonclinical tasks.”

It turned out that the 40-hour workweek included in the contract referred to patient-facing hours, not to all of the ancillary tasks that are part of practicing medicine in this day and age. “Unfortunately, this is far from an isolated story,” said Mr. Hursh.
 

Be aware of what’s in the contract

“The first draft of many standard physician employment contracts often omits mention of patient contact hour requirements and rather uses vague verbiage such as ‘full-time’ employment or ‘1.0 FTE’ – or full-time equivalent – without defining that term,” said Mr. Hursh. Typically, the 40 hours exclude call coverage, but most physicians understand that and, at least at first glance, it all sounds very reasonable.

But once charting, hours on the phone, arguing with managed care companies, sending in prescriptions, administrative meetings, and other tasks are thrown in, the work hours expand dramatically. Moreover, if your employer doesn’t utilize hospitalists, you may be expected to “round” outside of the 40 hours, which can be particularly burdensome if the employer admits patients to multiple hospitals.

Amanda Hill, JD, owner of Hill Health Law based in Austin, Texas, told this news organization that this predicament isn’t unique to physicians. Exempt employees who don’t clock in and out are often expected to work overtime – that is, to “work as long as it takes to get the job done.” It can affect NPs, PAs, and many others in the health care space. But the number of tasks that fall upon a doctor’s shoulders and the fact that patients’ health and lives are at stake up the ante and make the situation far more difficult for doctors than for employees in other industries.

So it’s important to nail down precise terms in the contract and, if possible, negotiate for a more humane schedule by specifying how the working hours will be used.

“It’s true that a 1.0 FTE definition is too vague,” Ms. Hill said. “I’ve negotiated a lot of contracts where we nail down in writing that the in-office schedule equals 34 hours per week, so the physician is guaranteed an additional 6 hours for administrative time.”

Mr. Hursh usually asks for 32 hours of patient contact per week, which leaves 1 full day per week to catch up on basic administrative tasks. “It’s important for employers to recognize that seeing patients isn’t the only thing a doctor does and there’s a lot of work in addition to face-to-face time,” he said.

But he hasn’t always been successful. One physician client was seeking a workweek consisting of 36 patient contact hours, “which is 90% of the usual FTE of a 40-hour week,” said Mr. Hursh. “But the employer called it ‘part-time,’ as if the doctor were planning to be lying in the sun for the other 4 hours.”

The client decided to accept a 10% pay cut and 10% less vacation to guarantee that she had those extra hours for administrative tasks. “She’s probably working way more than 36 hours a week, but maybe closer to 50 or 60 instead of 70 or more,” he said.
 

Clarify call coverage

Call coverage is typically not included in the hours a physician is contracted to work on a weekly basis. “Most contracts have call, and it’s usually evenly distributed among parties in a practice, but call can expand if another doctor is out sick, for example,” said Ms. Hill.

Sometimes the language in the contract is vague regarding call coverage. “I ask, how many shifts per year is the doctor is expected to work? Then, I try to negotiate extra pay if more shifts arise,” she said. “The hospital or practice may not demand extra call because they don’t want to pay extra money to the physician.”

On the other hand, some physicians may be eager to take extra call if it means extra income.

Ms. Hill stated that one of her clients was being paid as a “part-time, 2-day-a-week provider” but was asked to be on call and take night and weekend work. When you added it all up, she was putting in almost 30 hours a week.

“This is abusive to a provider that works so hard for patients,” Ms. Hill said. “We have to protect them through the contract language, so they have something hard and fast to point to when their administrator pushes them too hard. Doctors should get value for their time.”

Ms. Hill and her client pushed for more money, and the employer gave in. “All we had to do was to point out how many hours she was actually working. She didn’t mind all the extra call, but she wanted to be compensated.” The doctor’s salary was hiked by $25,000.
 

Differences in specialties and settings

There are some specialties where it might be easier to have more defined hours, while other specialties are more challenging. Anu Murthy, Esq., an attorney and associate contract review specialist at Contract Diagnostics (a national firm that reviews physician contracts) told this news organization that the work of hospitalists, intensivists, and emergency department physicians, for example, is done in shifts, which tend to be fixed hours.

“They need to get their charting completed so that whoever takes over on the next shift has access to the most recent notes about the patient,” she said. By contrast, surgeons can’t always account for how long a given surgery will take. “It could be as long as 9 hours,” she said. Notes need to be written immediately for the sake of the patient’s postsurgical care.

Dermatologists tend to deal with fewer emergencies, compared with other specialists, and it’s easier for their patients to be slotted into an organized schedule. On the other hand, primary care doctors – internists, family practice physicians, and pediatricians – may be seeing 40-50 patients a day, one every 15 minutes.

Practice setting also makes a difference, said Ms. Murthy. Veterans Administration (VA) hospitals or government-run clinics tend to have more rigidly defined hours, compared with other settings, so if you’re in a VA hospital or government-run clinic, work-life balance tends to be better.

Physicians who work remotely via telehealth also tend to have a better work-life balance, compared with those who see patients in person, Ms. Murthy said. But the difference may be in not having to spend extra time commuting to work or interacting with others in the work environment, since some research has suggested that telehealth physicians may actually spend more time engaged in charting after hours, compared with their in-person counterparts.
 

Using scribes to maximize your time

Elliott Trotter, MD, is an emergency medicine physician, associate clinical professor of emergency medicine at Texas Christian University Medical Schools, and founder of the ScribeNest, a Texas-based company that trains health care scribes. He told this news organization that there are ways to maximize one’s time during shifts so that much of the charting can be accomplished during working hours.

“About 28 years ago, I realized that the documentation load for physicians was enormous and at that time I developed the Modern Scribe, using premed students for ‘elbow support’ to help with the workload by documenting the ED encounters in real time during the encounter so I wouldn’t have to do so later.”

Over the years, as EHRs have become more ubiquitous and onerous, the role of the scribe has “evolved from a luxury to a necessity,” said Dr. Trotter. The scribes can actually record the encounter directly into the EHR so that the physician doesn’t have to do so later and doesn’t have to look at a computer screen but can look at the patient during the encounter.

“This enhances communication and has been shown to improve patient care,” he said.

Dr. Trotter said he rarely, if ever, needs to do documentation after hours. “But one of my physician colleagues had over 500 charts in his in-basket on a regular basis, which was overwhelming and untenable.”

The use of AI in health care is rapidly growing. Tools to help hasten the process of taking notes through use of AI-generated summaries is something appealing to many doctors. Ms. Hill warned physicians to “be careful not to rely so heavily on AI that you trust it over your own words.” She noted that it can make mistakes, and the liability always remains with the clinician.
 

Creating time-efficient strategies

Wilfrid Noel Raby, PhD, MD, a psychiatrist in private practice in Teaneck, N.J., was formerly a psychiatrist in the substance abuse unit at Montefiore Hospital, New York. He told this news organization that he developed a system whereby he rarely had to take work home with him. “I was working only 20 hours a week, but I was usually able to do my charting during those hours, as well as seeing patients,” he said. “I scheduled my appointments and structured a little ‘buffer time’ between them so that I had time to document the first appointment before moving on to the next one.”

There were days when this wasn’t possible because there were too many patients who needed to be seen back-to-back. “So I developed my own template where I could take rapid, very standardized notes that fit into the format of the EHR and met those expectations.” Then, when he had finished seeing patients, he could quickly enter the content of his notes into the EHR. If necessary, he completed his charting on a different day.

Viwek Bisen, DO, assistant professor of psychiatry, Hackensack (N.J.) University Medical Center, is a psychiatrist in the emergency department. “My contract is based on a traditional 40-hour workweek, with 80% of my time allotted to seeing patients and 20% of my time allotted to administration.”

But the way his time actually plays out is that he’s seeing patients during about half of the 32 hours. “The rest of the time, I’m charting, speaking to family members of patients, writing notes, engaging in team meetings, and dealing with insurance companies.” Dr. Bisen has developed his own system of completing his notes while still in the hospital. “I’ve learned to be efficient and manage my time better, so I no longer have to take work home with me.”

“At the end of the day, doctors are people,” Ms. Hill said. “They are not machines. Maybe in residency and fellowship they may grind out impossible shifts with little sleep, but this pace isn’t tenable for an entire career.”

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

What’s in a day’s work? For doctors, it’s typically a mix of seeing patients and completing paperwork and follow-up. Often it extends well past the standard workday.

Dennis Hursh, JD, managing partner of Physician Agreements Health Law, a Pennsylvania-based law firm that represents physicians, describes one overwhelmed ob.gyn. who recently consulted him for this problem.

“My client had accepted a position in a group practice where his contract stated he would be working during normal office hours, Monday through Friday, from 8 a.m. to 5 p.m. – in other words, a 40-hour workweek,” Mr. Hursh said.

But the distressed physician discovered that actually, he was working almost twice as many hours. “He’d get to work early to do charting, then see patients during the 40 hours, perhaps grabbing a quick sandwich for a few minutes – and then stay after 5 [p.m.] for a few more hours when he’d work on charts or other administrative tasks. Then he’d get something to eat, work on more charts, then go to bed, get up in the morning, and repeat.”

Mr. Hursh summarized the client’s life: “Eating, sleeping, practicing clinical medicine, and doing nonclinical tasks.”

It turned out that the 40-hour workweek included in the contract referred to patient-facing hours, not to all of the ancillary tasks that are part of practicing medicine in this day and age. “Unfortunately, this is far from an isolated story,” said Mr. Hursh.
 

Be aware of what’s in the contract

“The first draft of many standard physician employment contracts often omits mention of patient contact hour requirements and rather uses vague verbiage such as ‘full-time’ employment or ‘1.0 FTE’ – or full-time equivalent – without defining that term,” said Mr. Hursh. Typically, the 40 hours exclude call coverage, but most physicians understand that and, at least at first glance, it all sounds very reasonable.

But once charting, hours on the phone, arguing with managed care companies, sending in prescriptions, administrative meetings, and other tasks are thrown in, the work hours expand dramatically. Moreover, if your employer doesn’t utilize hospitalists, you may be expected to “round” outside of the 40 hours, which can be particularly burdensome if the employer admits patients to multiple hospitals.

Amanda Hill, JD, owner of Hill Health Law based in Austin, Texas, told this news organization that this predicament isn’t unique to physicians. Exempt employees who don’t clock in and out are often expected to work overtime – that is, to “work as long as it takes to get the job done.” It can affect NPs, PAs, and many others in the health care space. But the number of tasks that fall upon a doctor’s shoulders and the fact that patients’ health and lives are at stake up the ante and make the situation far more difficult for doctors than for employees in other industries.

So it’s important to nail down precise terms in the contract and, if possible, negotiate for a more humane schedule by specifying how the working hours will be used.

“It’s true that a 1.0 FTE definition is too vague,” Ms. Hill said. “I’ve negotiated a lot of contracts where we nail down in writing that the in-office schedule equals 34 hours per week, so the physician is guaranteed an additional 6 hours for administrative time.”

Mr. Hursh usually asks for 32 hours of patient contact per week, which leaves 1 full day per week to catch up on basic administrative tasks. “It’s important for employers to recognize that seeing patients isn’t the only thing a doctor does and there’s a lot of work in addition to face-to-face time,” he said.

But he hasn’t always been successful. One physician client was seeking a workweek consisting of 36 patient contact hours, “which is 90% of the usual FTE of a 40-hour week,” said Mr. Hursh. “But the employer called it ‘part-time,’ as if the doctor were planning to be lying in the sun for the other 4 hours.”

The client decided to accept a 10% pay cut and 10% less vacation to guarantee that she had those extra hours for administrative tasks. “She’s probably working way more than 36 hours a week, but maybe closer to 50 or 60 instead of 70 or more,” he said.
 

Clarify call coverage

Call coverage is typically not included in the hours a physician is contracted to work on a weekly basis. “Most contracts have call, and it’s usually evenly distributed among parties in a practice, but call can expand if another doctor is out sick, for example,” said Ms. Hill.

Sometimes the language in the contract is vague regarding call coverage. “I ask, how many shifts per year is the doctor is expected to work? Then, I try to negotiate extra pay if more shifts arise,” she said. “The hospital or practice may not demand extra call because they don’t want to pay extra money to the physician.”

On the other hand, some physicians may be eager to take extra call if it means extra income.

Ms. Hill stated that one of her clients was being paid as a “part-time, 2-day-a-week provider” but was asked to be on call and take night and weekend work. When you added it all up, she was putting in almost 30 hours a week.

“This is abusive to a provider that works so hard for patients,” Ms. Hill said. “We have to protect them through the contract language, so they have something hard and fast to point to when their administrator pushes them too hard. Doctors should get value for their time.”

Ms. Hill and her client pushed for more money, and the employer gave in. “All we had to do was to point out how many hours she was actually working. She didn’t mind all the extra call, but she wanted to be compensated.” The doctor’s salary was hiked by $25,000.
 

Differences in specialties and settings

There are some specialties where it might be easier to have more defined hours, while other specialties are more challenging. Anu Murthy, Esq., an attorney and associate contract review specialist at Contract Diagnostics (a national firm that reviews physician contracts) told this news organization that the work of hospitalists, intensivists, and emergency department physicians, for example, is done in shifts, which tend to be fixed hours.

“They need to get their charting completed so that whoever takes over on the next shift has access to the most recent notes about the patient,” she said. By contrast, surgeons can’t always account for how long a given surgery will take. “It could be as long as 9 hours,” she said. Notes need to be written immediately for the sake of the patient’s postsurgical care.

Dermatologists tend to deal with fewer emergencies, compared with other specialists, and it’s easier for their patients to be slotted into an organized schedule. On the other hand, primary care doctors – internists, family practice physicians, and pediatricians – may be seeing 40-50 patients a day, one every 15 minutes.

Practice setting also makes a difference, said Ms. Murthy. Veterans Administration (VA) hospitals or government-run clinics tend to have more rigidly defined hours, compared with other settings, so if you’re in a VA hospital or government-run clinic, work-life balance tends to be better.

Physicians who work remotely via telehealth also tend to have a better work-life balance, compared with those who see patients in person, Ms. Murthy said. But the difference may be in not having to spend extra time commuting to work or interacting with others in the work environment, since some research has suggested that telehealth physicians may actually spend more time engaged in charting after hours, compared with their in-person counterparts.
 

Using scribes to maximize your time

Elliott Trotter, MD, is an emergency medicine physician, associate clinical professor of emergency medicine at Texas Christian University Medical Schools, and founder of the ScribeNest, a Texas-based company that trains health care scribes. He told this news organization that there are ways to maximize one’s time during shifts so that much of the charting can be accomplished during working hours.

“About 28 years ago, I realized that the documentation load for physicians was enormous and at that time I developed the Modern Scribe, using premed students for ‘elbow support’ to help with the workload by documenting the ED encounters in real time during the encounter so I wouldn’t have to do so later.”

Over the years, as EHRs have become more ubiquitous and onerous, the role of the scribe has “evolved from a luxury to a necessity,” said Dr. Trotter. The scribes can actually record the encounter directly into the EHR so that the physician doesn’t have to do so later and doesn’t have to look at a computer screen but can look at the patient during the encounter.

“This enhances communication and has been shown to improve patient care,” he said.

Dr. Trotter said he rarely, if ever, needs to do documentation after hours. “But one of my physician colleagues had over 500 charts in his in-basket on a regular basis, which was overwhelming and untenable.”

The use of AI in health care is rapidly growing. Tools to help hasten the process of taking notes through use of AI-generated summaries is something appealing to many doctors. Ms. Hill warned physicians to “be careful not to rely so heavily on AI that you trust it over your own words.” She noted that it can make mistakes, and the liability always remains with the clinician.
 

Creating time-efficient strategies

Wilfrid Noel Raby, PhD, MD, a psychiatrist in private practice in Teaneck, N.J., was formerly a psychiatrist in the substance abuse unit at Montefiore Hospital, New York. He told this news organization that he developed a system whereby he rarely had to take work home with him. “I was working only 20 hours a week, but I was usually able to do my charting during those hours, as well as seeing patients,” he said. “I scheduled my appointments and structured a little ‘buffer time’ between them so that I had time to document the first appointment before moving on to the next one.”

There were days when this wasn’t possible because there were too many patients who needed to be seen back-to-back. “So I developed my own template where I could take rapid, very standardized notes that fit into the format of the EHR and met those expectations.” Then, when he had finished seeing patients, he could quickly enter the content of his notes into the EHR. If necessary, he completed his charting on a different day.

Viwek Bisen, DO, assistant professor of psychiatry, Hackensack (N.J.) University Medical Center, is a psychiatrist in the emergency department. “My contract is based on a traditional 40-hour workweek, with 80% of my time allotted to seeing patients and 20% of my time allotted to administration.”

But the way his time actually plays out is that he’s seeing patients during about half of the 32 hours. “The rest of the time, I’m charting, speaking to family members of patients, writing notes, engaging in team meetings, and dealing with insurance companies.” Dr. Bisen has developed his own system of completing his notes while still in the hospital. “I’ve learned to be efficient and manage my time better, so I no longer have to take work home with me.”

“At the end of the day, doctors are people,” Ms. Hill said. “They are not machines. Maybe in residency and fellowship they may grind out impossible shifts with little sleep, but this pace isn’t tenable for an entire career.”

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