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Severe atopic dermatitis often puts a dent in quality of life
In his role as head of the division of pediatric behavioral health at National Jewish Health, Denver, Bruce G. Bender, PhD, helps children and adults navigate the adverse effects of severe atopic dermatitis (AD) on their quality of life.
“There have been many surveys of adults with AD who report impairment of their sleep, reduced activity level, increased work absence, financial burden, emotional distress, and social avoidance,” he said at the Revolutionizing Atopic Dermatitis virtual symposium. “Similarly, children with AD or their parents report emotional distress, reduced activity, and increased school absence, social avoidance, and sleep disturbance. Families report financial burdens, conflict, particularly among the adults, social avoidance, sleep disturbance in the parents, and reduction of well-being in the siblings.”
In an effort to objectively measure sleep change in this population, Dr. Bender and colleagues recruited 14 adults with AD and 14 healthy controls who wore an ActiGraph for 1 week and completed questionnaires about sleep, itch, and quality of life. Patients with AD were awake almost twice as many minutes each night as the healthy controls (a mean of 57.3 vs. 32.3 minutes, respectively; P = .0480). Consequently, their sleep efficiency was significantly reduced based on the Pittsburgh sleep quality index (a mean of 90.6 vs. 95; P = .0305).
In another study, Dr. Bender and colleagues enrolled 20 adults with AD who underwent 2 nights of polysomnography and actigraphy. The lab was set up to measure a scratching event, which was recorded when a burst of electromyographic activity of at least 3 seconds was accompanied by a visible scratching motion. “We learned that sleep efficiency as measured by both PSG and actigraphy correlated with total body surface area and scratching index,” he said. “As we might assume, the more skin involved, the more patients scratch, the less well they sleep.”
Behavioral, neurocognitive effects
In a separate study of AD, sleep, and behavior, the researchers studied 1,041 children with asthma who were enrolled in the Childhood Asthma Management Program at eight North American sites. They used baseline parent ratings on standardized sleep and behavior rating scales and found that increased awakenings were associated with increased school absence and daytime behavior problems. “So, not only do children with AD sleep less well, but this shows up to impair their functioning during the day,” said Dr. Bender, professor of psychiatry at the University of Colorado, Denver.
In a report from Australia, researchers set out to explore the association between sleep and neurocognitive function in 21 children with eczema and 20 healthy controls. Participants underwent cognitive testing and polysomnography. The authors found that the children with eczema demonstrated lower test scores. Reduced scores were correlated with parental reports of sleep problems but not polysomnography.
In a much larger study funded by the Agency for Healthcare Research and Quality, investigators analyzed data on 354,416 children and 34,613 adults from 19 U.S. population surveys including the National Health Interview Survey 1997-2013 and the National Survey of Children’s Health 2003/4 and 2007/8. They found that AD was associated with ADHD in children (adjusted odds ratio, 1.14) and adults (aOR, 1.61). Higher odds of ADHD were found in children who had significant sleep disturbance (aOR, 16.83) and other allergic disease and asthma (aOR, 1.61).
“All of these findings show that AD can impact quality of life, especially sleep, with the result of poorer daytime functioning,” Dr. Bender said. “But those studies don’t answer this question: Are patients with AD at increased risk for psychological disorders such as depression and anxiety?”
Impact on depression, anxiety
Two systematic reviews on the topic suggest that patients with AD are twice as likely to experience depression. One was published in 2018 and the other in 2019. The 2018 review reported a little more than a twofold increase (OR, 2.19), the 2019 review a little bit less (OR, 1.71).
“At the more severe end of the depression continuum, we sometimes see suicidal ideation and suicide attempts,” Dr. Bender said. “A number of studies have asked whether these are increased in patients with AD. Quite a few studies collectively show an increased incidence of suicidal ideation. The question of suicide attempts is reflected in fewer studies. And while the result is small, it is significant. There is a significant increase reported of suicide attempts in AD patients.”
The 2018 review also found an increased incidence of anxiety in AD patients: a little more than twofold in adults (OR, 2.19) and a little less than twofold in children (OR, 1.81).
“It’s a two-way relationship between AD and psychological factors,” Dr. Bender said. “We generally think about AD – the stress that it brings, the burden that it puts on children, adults, and families. But it can work the other way around,” he said, referring to patients who have psychological problems, experience a great deal of stress, have trouble being adherent to their treatment regimen, and find it difficult to resist scratching. “The behavioral/psychological characteristics of the patient also drive the AD. It is well established that acute and chronic stress can result in a worsening of skin conditions in AD patients.”
Behavioral health interventions that have been described in the literature include cognitive therapy, stress management, biofeedback, hypnotherapy, relaxation training, mindfulness, habit reversal, and patient education – some of which have been tested in randomized trials. “All of them report a decrease in scratching as a consequence of the behavioral intervention,” Dr. Bender said.
“Other studies have been reported that look at the impact of behavioral interventions on the severity of the skin condition. Most report an improvement in the skin condition from these behavioral interventions but it’s not a perfect literature.” Critiques of these studies include the fact that there is often not enough detail about the intervention or the framework for the intervention that would allow a clinician to test an intervention in another study or actually pull that intervention into clinical practice (Cochrane Database Syst Rev. 2014 Jan 7;2014[1]:CD004054), (Int Arch Allergy Immunol.2007;144[1]:1-9).
“Some of the studies lack rigorous designs, some have sampling bias, and some have inadequate outcome measurements,” he said. “We really need additional, high-quality studies to look at what is helpful for patients with AD.”
Dr. Bender reported having no financial disclosures.
In his role as head of the division of pediatric behavioral health at National Jewish Health, Denver, Bruce G. Bender, PhD, helps children and adults navigate the adverse effects of severe atopic dermatitis (AD) on their quality of life.
“There have been many surveys of adults with AD who report impairment of their sleep, reduced activity level, increased work absence, financial burden, emotional distress, and social avoidance,” he said at the Revolutionizing Atopic Dermatitis virtual symposium. “Similarly, children with AD or their parents report emotional distress, reduced activity, and increased school absence, social avoidance, and sleep disturbance. Families report financial burdens, conflict, particularly among the adults, social avoidance, sleep disturbance in the parents, and reduction of well-being in the siblings.”
In an effort to objectively measure sleep change in this population, Dr. Bender and colleagues recruited 14 adults with AD and 14 healthy controls who wore an ActiGraph for 1 week and completed questionnaires about sleep, itch, and quality of life. Patients with AD were awake almost twice as many minutes each night as the healthy controls (a mean of 57.3 vs. 32.3 minutes, respectively; P = .0480). Consequently, their sleep efficiency was significantly reduced based on the Pittsburgh sleep quality index (a mean of 90.6 vs. 95; P = .0305).
In another study, Dr. Bender and colleagues enrolled 20 adults with AD who underwent 2 nights of polysomnography and actigraphy. The lab was set up to measure a scratching event, which was recorded when a burst of electromyographic activity of at least 3 seconds was accompanied by a visible scratching motion. “We learned that sleep efficiency as measured by both PSG and actigraphy correlated with total body surface area and scratching index,” he said. “As we might assume, the more skin involved, the more patients scratch, the less well they sleep.”
Behavioral, neurocognitive effects
In a separate study of AD, sleep, and behavior, the researchers studied 1,041 children with asthma who were enrolled in the Childhood Asthma Management Program at eight North American sites. They used baseline parent ratings on standardized sleep and behavior rating scales and found that increased awakenings were associated with increased school absence and daytime behavior problems. “So, not only do children with AD sleep less well, but this shows up to impair their functioning during the day,” said Dr. Bender, professor of psychiatry at the University of Colorado, Denver.
In a report from Australia, researchers set out to explore the association between sleep and neurocognitive function in 21 children with eczema and 20 healthy controls. Participants underwent cognitive testing and polysomnography. The authors found that the children with eczema demonstrated lower test scores. Reduced scores were correlated with parental reports of sleep problems but not polysomnography.
In a much larger study funded by the Agency for Healthcare Research and Quality, investigators analyzed data on 354,416 children and 34,613 adults from 19 U.S. population surveys including the National Health Interview Survey 1997-2013 and the National Survey of Children’s Health 2003/4 and 2007/8. They found that AD was associated with ADHD in children (adjusted odds ratio, 1.14) and adults (aOR, 1.61). Higher odds of ADHD were found in children who had significant sleep disturbance (aOR, 16.83) and other allergic disease and asthma (aOR, 1.61).
“All of these findings show that AD can impact quality of life, especially sleep, with the result of poorer daytime functioning,” Dr. Bender said. “But those studies don’t answer this question: Are patients with AD at increased risk for psychological disorders such as depression and anxiety?”
Impact on depression, anxiety
Two systematic reviews on the topic suggest that patients with AD are twice as likely to experience depression. One was published in 2018 and the other in 2019. The 2018 review reported a little more than a twofold increase (OR, 2.19), the 2019 review a little bit less (OR, 1.71).
“At the more severe end of the depression continuum, we sometimes see suicidal ideation and suicide attempts,” Dr. Bender said. “A number of studies have asked whether these are increased in patients with AD. Quite a few studies collectively show an increased incidence of suicidal ideation. The question of suicide attempts is reflected in fewer studies. And while the result is small, it is significant. There is a significant increase reported of suicide attempts in AD patients.”
The 2018 review also found an increased incidence of anxiety in AD patients: a little more than twofold in adults (OR, 2.19) and a little less than twofold in children (OR, 1.81).
“It’s a two-way relationship between AD and psychological factors,” Dr. Bender said. “We generally think about AD – the stress that it brings, the burden that it puts on children, adults, and families. But it can work the other way around,” he said, referring to patients who have psychological problems, experience a great deal of stress, have trouble being adherent to their treatment regimen, and find it difficult to resist scratching. “The behavioral/psychological characteristics of the patient also drive the AD. It is well established that acute and chronic stress can result in a worsening of skin conditions in AD patients.”
Behavioral health interventions that have been described in the literature include cognitive therapy, stress management, biofeedback, hypnotherapy, relaxation training, mindfulness, habit reversal, and patient education – some of which have been tested in randomized trials. “All of them report a decrease in scratching as a consequence of the behavioral intervention,” Dr. Bender said.
“Other studies have been reported that look at the impact of behavioral interventions on the severity of the skin condition. Most report an improvement in the skin condition from these behavioral interventions but it’s not a perfect literature.” Critiques of these studies include the fact that there is often not enough detail about the intervention or the framework for the intervention that would allow a clinician to test an intervention in another study or actually pull that intervention into clinical practice (Cochrane Database Syst Rev. 2014 Jan 7;2014[1]:CD004054), (Int Arch Allergy Immunol.2007;144[1]:1-9).
“Some of the studies lack rigorous designs, some have sampling bias, and some have inadequate outcome measurements,” he said. “We really need additional, high-quality studies to look at what is helpful for patients with AD.”
Dr. Bender reported having no financial disclosures.
In his role as head of the division of pediatric behavioral health at National Jewish Health, Denver, Bruce G. Bender, PhD, helps children and adults navigate the adverse effects of severe atopic dermatitis (AD) on their quality of life.
“There have been many surveys of adults with AD who report impairment of their sleep, reduced activity level, increased work absence, financial burden, emotional distress, and social avoidance,” he said at the Revolutionizing Atopic Dermatitis virtual symposium. “Similarly, children with AD or their parents report emotional distress, reduced activity, and increased school absence, social avoidance, and sleep disturbance. Families report financial burdens, conflict, particularly among the adults, social avoidance, sleep disturbance in the parents, and reduction of well-being in the siblings.”
In an effort to objectively measure sleep change in this population, Dr. Bender and colleagues recruited 14 adults with AD and 14 healthy controls who wore an ActiGraph for 1 week and completed questionnaires about sleep, itch, and quality of life. Patients with AD were awake almost twice as many minutes each night as the healthy controls (a mean of 57.3 vs. 32.3 minutes, respectively; P = .0480). Consequently, their sleep efficiency was significantly reduced based on the Pittsburgh sleep quality index (a mean of 90.6 vs. 95; P = .0305).
In another study, Dr. Bender and colleagues enrolled 20 adults with AD who underwent 2 nights of polysomnography and actigraphy. The lab was set up to measure a scratching event, which was recorded when a burst of electromyographic activity of at least 3 seconds was accompanied by a visible scratching motion. “We learned that sleep efficiency as measured by both PSG and actigraphy correlated with total body surface area and scratching index,” he said. “As we might assume, the more skin involved, the more patients scratch, the less well they sleep.”
Behavioral, neurocognitive effects
In a separate study of AD, sleep, and behavior, the researchers studied 1,041 children with asthma who were enrolled in the Childhood Asthma Management Program at eight North American sites. They used baseline parent ratings on standardized sleep and behavior rating scales and found that increased awakenings were associated with increased school absence and daytime behavior problems. “So, not only do children with AD sleep less well, but this shows up to impair their functioning during the day,” said Dr. Bender, professor of psychiatry at the University of Colorado, Denver.
In a report from Australia, researchers set out to explore the association between sleep and neurocognitive function in 21 children with eczema and 20 healthy controls. Participants underwent cognitive testing and polysomnography. The authors found that the children with eczema demonstrated lower test scores. Reduced scores were correlated with parental reports of sleep problems but not polysomnography.
In a much larger study funded by the Agency for Healthcare Research and Quality, investigators analyzed data on 354,416 children and 34,613 adults from 19 U.S. population surveys including the National Health Interview Survey 1997-2013 and the National Survey of Children’s Health 2003/4 and 2007/8. They found that AD was associated with ADHD in children (adjusted odds ratio, 1.14) and adults (aOR, 1.61). Higher odds of ADHD were found in children who had significant sleep disturbance (aOR, 16.83) and other allergic disease and asthma (aOR, 1.61).
“All of these findings show that AD can impact quality of life, especially sleep, with the result of poorer daytime functioning,” Dr. Bender said. “But those studies don’t answer this question: Are patients with AD at increased risk for psychological disorders such as depression and anxiety?”
Impact on depression, anxiety
Two systematic reviews on the topic suggest that patients with AD are twice as likely to experience depression. One was published in 2018 and the other in 2019. The 2018 review reported a little more than a twofold increase (OR, 2.19), the 2019 review a little bit less (OR, 1.71).
“At the more severe end of the depression continuum, we sometimes see suicidal ideation and suicide attempts,” Dr. Bender said. “A number of studies have asked whether these are increased in patients with AD. Quite a few studies collectively show an increased incidence of suicidal ideation. The question of suicide attempts is reflected in fewer studies. And while the result is small, it is significant. There is a significant increase reported of suicide attempts in AD patients.”
The 2018 review also found an increased incidence of anxiety in AD patients: a little more than twofold in adults (OR, 2.19) and a little less than twofold in children (OR, 1.81).
“It’s a two-way relationship between AD and psychological factors,” Dr. Bender said. “We generally think about AD – the stress that it brings, the burden that it puts on children, adults, and families. But it can work the other way around,” he said, referring to patients who have psychological problems, experience a great deal of stress, have trouble being adherent to their treatment regimen, and find it difficult to resist scratching. “The behavioral/psychological characteristics of the patient also drive the AD. It is well established that acute and chronic stress can result in a worsening of skin conditions in AD patients.”
Behavioral health interventions that have been described in the literature include cognitive therapy, stress management, biofeedback, hypnotherapy, relaxation training, mindfulness, habit reversal, and patient education – some of which have been tested in randomized trials. “All of them report a decrease in scratching as a consequence of the behavioral intervention,” Dr. Bender said.
“Other studies have been reported that look at the impact of behavioral interventions on the severity of the skin condition. Most report an improvement in the skin condition from these behavioral interventions but it’s not a perfect literature.” Critiques of these studies include the fact that there is often not enough detail about the intervention or the framework for the intervention that would allow a clinician to test an intervention in another study or actually pull that intervention into clinical practice (Cochrane Database Syst Rev. 2014 Jan 7;2014[1]:CD004054), (Int Arch Allergy Immunol.2007;144[1]:1-9).
“Some of the studies lack rigorous designs, some have sampling bias, and some have inadequate outcome measurements,” he said. “We really need additional, high-quality studies to look at what is helpful for patients with AD.”
Dr. Bender reported having no financial disclosures.
FROM REVOLUTIONIZING AD 2020
PTSD prevalent in survivors of severe COVID-19
Posttraumatic stress disorder may occur in up to a third of patients who recover from severe COVID-19 infection, new research suggests.
A study of more than 300 patients who presented to the emergency department with the virus showed a 30.2% prevalence for PTSD 30-120 days after COVID recovery.
or having persistent medical symptoms after hospitalization.
Additional diagnoses, such as depressive and hypomanic episodes and generalized anxiety disorder (GAD), were also present in some of the survivors.
“Previous coronavirus epidemics were associated with PTSD diagnoses in postillness stages, with meta-analytic findings indicating a prevalence of 32.2%,” write the investigators, led by Delfina Janiri, MD, department of psychiatry, Fondazione Policlinico Universitario Agostino Gemelli IRCCS, Rome.
However, data focused specifically on COVID-19 have been “piecemeal,” they add.
The findings were published online Feb. 18 in a research letter in JAMA Psychiatry.
A traumatic event
From April to October 2020, the researchers assessed 381 consecutive patients (100% white; 56.4% men; mean age, 55.3 years) who presented to the ED and subsequently participated in a health check at the Fondazione Policlinico Universitario Agostino Gemelli.
The mean length of stay for the 309 patients hospitalized with severe COVID-19 was 18.4 days.
Results showed that 115 participants (30.2%) had PTSD, based on DSM-5 criteria, and 55.7% of the women had the disorder. Additional diagnoses found in the full patient population included:
- Depressive episodes (17.3%).
- GAD (7%).
- Hypomanic episodes (0.7%).
- Psychotic disorders (0.2%).
Patients with PTSD had higher rates than those without PTSD of a previous history of psychiatric disorders (34.8% vs. 20.7%; P = .003) and of delirium or agitation during hospitalization, as assessed with the Confusion Assessment Method (16.5% vs. 6.4%; P = .002).
In addition, 62.6% of those with PTSD had three or more persistent COVID-19 symptoms vs. 37.2% of their counterparts without PTSD (P < .001).
After logistic regression analyses, significant factors associated with a PTSD diagnosis were persistent medical symptoms (P = .002), delirium or agitation (P = .02), and being female (P = .02).
The investigators note that their results are “in line” with findings reported in research examining other traumatic events. This includes about 30% of Hurricane Katrina survivors who experienced PTSD, as did around 25% of survivors of the 2011 “Great Japan Earthquake and Tsunami.”
Study limitations cited include the “relatively small” size of the patient population, that it focused on only one participating center, and that it didn’t include a control group of non-COVID patients who reported to the ED.
“Further longitudinal studies are needed to tailor therapeutic interventions and prevention strategies,” the researchers write.
Dr. Janiri and four of the five other authors have disclosed no relevant financial relationships. The other author, Gabriele Sani, MD, reported having received personal fees from Angelini Spa, Janssen, and Lundbeck outside the submitted work.
A version of this article first appeared on Medscape.com.
Posttraumatic stress disorder may occur in up to a third of patients who recover from severe COVID-19 infection, new research suggests.
A study of more than 300 patients who presented to the emergency department with the virus showed a 30.2% prevalence for PTSD 30-120 days after COVID recovery.
or having persistent medical symptoms after hospitalization.
Additional diagnoses, such as depressive and hypomanic episodes and generalized anxiety disorder (GAD), were also present in some of the survivors.
“Previous coronavirus epidemics were associated with PTSD diagnoses in postillness stages, with meta-analytic findings indicating a prevalence of 32.2%,” write the investigators, led by Delfina Janiri, MD, department of psychiatry, Fondazione Policlinico Universitario Agostino Gemelli IRCCS, Rome.
However, data focused specifically on COVID-19 have been “piecemeal,” they add.
The findings were published online Feb. 18 in a research letter in JAMA Psychiatry.
A traumatic event
From April to October 2020, the researchers assessed 381 consecutive patients (100% white; 56.4% men; mean age, 55.3 years) who presented to the ED and subsequently participated in a health check at the Fondazione Policlinico Universitario Agostino Gemelli.
The mean length of stay for the 309 patients hospitalized with severe COVID-19 was 18.4 days.
Results showed that 115 participants (30.2%) had PTSD, based on DSM-5 criteria, and 55.7% of the women had the disorder. Additional diagnoses found in the full patient population included:
- Depressive episodes (17.3%).
- GAD (7%).
- Hypomanic episodes (0.7%).
- Psychotic disorders (0.2%).
Patients with PTSD had higher rates than those without PTSD of a previous history of psychiatric disorders (34.8% vs. 20.7%; P = .003) and of delirium or agitation during hospitalization, as assessed with the Confusion Assessment Method (16.5% vs. 6.4%; P = .002).
In addition, 62.6% of those with PTSD had three or more persistent COVID-19 symptoms vs. 37.2% of their counterparts without PTSD (P < .001).
After logistic regression analyses, significant factors associated with a PTSD diagnosis were persistent medical symptoms (P = .002), delirium or agitation (P = .02), and being female (P = .02).
The investigators note that their results are “in line” with findings reported in research examining other traumatic events. This includes about 30% of Hurricane Katrina survivors who experienced PTSD, as did around 25% of survivors of the 2011 “Great Japan Earthquake and Tsunami.”
Study limitations cited include the “relatively small” size of the patient population, that it focused on only one participating center, and that it didn’t include a control group of non-COVID patients who reported to the ED.
“Further longitudinal studies are needed to tailor therapeutic interventions and prevention strategies,” the researchers write.
Dr. Janiri and four of the five other authors have disclosed no relevant financial relationships. The other author, Gabriele Sani, MD, reported having received personal fees from Angelini Spa, Janssen, and Lundbeck outside the submitted work.
A version of this article first appeared on Medscape.com.
Posttraumatic stress disorder may occur in up to a third of patients who recover from severe COVID-19 infection, new research suggests.
A study of more than 300 patients who presented to the emergency department with the virus showed a 30.2% prevalence for PTSD 30-120 days after COVID recovery.
or having persistent medical symptoms after hospitalization.
Additional diagnoses, such as depressive and hypomanic episodes and generalized anxiety disorder (GAD), were also present in some of the survivors.
“Previous coronavirus epidemics were associated with PTSD diagnoses in postillness stages, with meta-analytic findings indicating a prevalence of 32.2%,” write the investigators, led by Delfina Janiri, MD, department of psychiatry, Fondazione Policlinico Universitario Agostino Gemelli IRCCS, Rome.
However, data focused specifically on COVID-19 have been “piecemeal,” they add.
The findings were published online Feb. 18 in a research letter in JAMA Psychiatry.
A traumatic event
From April to October 2020, the researchers assessed 381 consecutive patients (100% white; 56.4% men; mean age, 55.3 years) who presented to the ED and subsequently participated in a health check at the Fondazione Policlinico Universitario Agostino Gemelli.
The mean length of stay for the 309 patients hospitalized with severe COVID-19 was 18.4 days.
Results showed that 115 participants (30.2%) had PTSD, based on DSM-5 criteria, and 55.7% of the women had the disorder. Additional diagnoses found in the full patient population included:
- Depressive episodes (17.3%).
- GAD (7%).
- Hypomanic episodes (0.7%).
- Psychotic disorders (0.2%).
Patients with PTSD had higher rates than those without PTSD of a previous history of psychiatric disorders (34.8% vs. 20.7%; P = .003) and of delirium or agitation during hospitalization, as assessed with the Confusion Assessment Method (16.5% vs. 6.4%; P = .002).
In addition, 62.6% of those with PTSD had three or more persistent COVID-19 symptoms vs. 37.2% of their counterparts without PTSD (P < .001).
After logistic regression analyses, significant factors associated with a PTSD diagnosis were persistent medical symptoms (P = .002), delirium or agitation (P = .02), and being female (P = .02).
The investigators note that their results are “in line” with findings reported in research examining other traumatic events. This includes about 30% of Hurricane Katrina survivors who experienced PTSD, as did around 25% of survivors of the 2011 “Great Japan Earthquake and Tsunami.”
Study limitations cited include the “relatively small” size of the patient population, that it focused on only one participating center, and that it didn’t include a control group of non-COVID patients who reported to the ED.
“Further longitudinal studies are needed to tailor therapeutic interventions and prevention strategies,” the researchers write.
Dr. Janiri and four of the five other authors have disclosed no relevant financial relationships. The other author, Gabriele Sani, MD, reported having received personal fees from Angelini Spa, Janssen, and Lundbeck outside the submitted work.
A version of this article first appeared on Medscape.com.
Heroes: Nurses’ sacrifice in the age of COVID-19
This past year, the referrals to my private practice have taken a noticeable shift and caused me to pause.
More calls have come from nurses, many who work directly with COVID-19 patients, understandably seeking mental health treatment, or support. Especially in this time, nurses are facing trauma and stress that is unimaginable to many, myself included. Despite the collective efforts we have made as a society to recognize their work, I do not think we have given enough consideration to the enormous sacrifice nurses are currently undertaking to save our collective psyche.
As physicians and mental health providers, we have a glimpse into the complexities and stressors of medical treatment. In our line of work, we support patients with trauma on a regular basis. We feel deeply connected to patients, some of whom we have treated until the end of their lives. Despite that, I am not sure that I, or anyone, can truly comprehend what nurses face in today’s climate of care.
There is no denying that doctors are of value to our system, but our service has limits; nurses and doctors operate as two sides to a shared coin. As doctors, we diagnose and prescribe, while nurses explain and dispense. As doctors, we talk to patients, while nurses comfort them. Imagine spending an entire year working in a hospital diligently wiping endotracheal tubes that are responsible for maintaining someone’s life. Imagine spending an entire year laboring through the heavy task of lifting patients to prone them in a position that may save their lives. Imagine spending an entire year holding the hands of comatose patients in hopes of maintaining a sense of humanity.
And this only begins to describe the tasks bestowed upon nurses. While doctors answer pagers or complete insurance authorization forms, nurses empathize and reassure scared and isolated patients. Imagine spending an entire year updating crying family members who cannot see their loved ones. Imagine spending an entire year explaining and pleading to the outside world that wearing a mask and washing hands would reduce the suffering that takes place inside the hospital walls.
Despite the uncertainties, pressures, and demands, nurses have continued, and will continue, to show up for their patients, shift by shift. It takes a tragic number of deaths for the nurses I see in my practice to share that they have lost count. These numbers reflect people they held to feed, carried to prevent ulcers, wiped for decency, caressed for compassion, probed with IVs and tubes, monitored for signs of life, and warmed with blankets. If love were in any job description, it would fall under that of a nurse.
And we can’t ignore the fact that all the lives lost by COVID-19 had family. Family members who, without ever stepping foot in the hospital, needed a place to be heard, a place to receive explanation, and a place for reassurance. This invaluable place is cultivated by nurses. Through Zoom and phone calls, nurses share messages of hope, love, and fear between patients and family. Through Zoom and phone calls, nurses orchestrate visits and last goodbyes.
There is no denying that we have all been affected by this shared human experience. But the pause we owe our nurses feels long overdue, and of great importance. Nurses need a space to be heard, to be comforted, to be recognized. They come to our practices, trying to contain the world’s angst, while also navigating for themselves what it means to go through what they are going through. They hope that by coming to see us, they will find the strength to go back another day, another week, another month. Sometimes, they come to talk about everything but the job, in hopes that by talking about more mundane problems, they will feel “normal” and reconnected.
I hope that our empathy, congruence, and unconditional positive regard will allow them to feel heard.1 I hope that our warmth, concern, and hopefulness provide a welcoming place to voice sadness, anger, and fears.2 I hope that our processing of traumatic memory, our challenge to avoid inaccurate self-blaming beliefs, and our encouragement to create more thought-out conclusions will allow them to understand what is happening more accurately.3
Yet, I worry. I worry that society hasn’t been particularly successful with helping prior generations of heroes. From war veterans, to Sept. 11, 2001, firefighters, it seems that we have repeated mistakes. My experience with veterans in particular has taught me that for many who are suffering, it feels like society has broken its very fabric by being bystanders to the pain.
But suffering and tragedy are an inevitable part of the human experience that we share. What we can keep sight of is this: As physicians, we work with nurses. We are witnessing firsthand the impossible sacrifice they are taking and the limits of resilience. Let us not be too busy to stop and give recognition where and when it is due. Let us listen and learn from our past, and present, heroes. And let us never forget to extend our own hand to those who make a living extending theirs.
Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com.
References
1. Rogers CR. J Consult Psychol. 1957;21(2):95-103.
2. Mallo CJ, Mintz DL. Psychodyn Psychiatry. 2013 Mar;41(1):13-37.
3. Resick PA et al. Cognitive Processing Therapy for PTSD: A Comprehensive Manual. Guilford Publications, 2016.
This past year, the referrals to my private practice have taken a noticeable shift and caused me to pause.
More calls have come from nurses, many who work directly with COVID-19 patients, understandably seeking mental health treatment, or support. Especially in this time, nurses are facing trauma and stress that is unimaginable to many, myself included. Despite the collective efforts we have made as a society to recognize their work, I do not think we have given enough consideration to the enormous sacrifice nurses are currently undertaking to save our collective psyche.
As physicians and mental health providers, we have a glimpse into the complexities and stressors of medical treatment. In our line of work, we support patients with trauma on a regular basis. We feel deeply connected to patients, some of whom we have treated until the end of their lives. Despite that, I am not sure that I, or anyone, can truly comprehend what nurses face in today’s climate of care.
There is no denying that doctors are of value to our system, but our service has limits; nurses and doctors operate as two sides to a shared coin. As doctors, we diagnose and prescribe, while nurses explain and dispense. As doctors, we talk to patients, while nurses comfort them. Imagine spending an entire year working in a hospital diligently wiping endotracheal tubes that are responsible for maintaining someone’s life. Imagine spending an entire year laboring through the heavy task of lifting patients to prone them in a position that may save their lives. Imagine spending an entire year holding the hands of comatose patients in hopes of maintaining a sense of humanity.
And this only begins to describe the tasks bestowed upon nurses. While doctors answer pagers or complete insurance authorization forms, nurses empathize and reassure scared and isolated patients. Imagine spending an entire year updating crying family members who cannot see their loved ones. Imagine spending an entire year explaining and pleading to the outside world that wearing a mask and washing hands would reduce the suffering that takes place inside the hospital walls.
Despite the uncertainties, pressures, and demands, nurses have continued, and will continue, to show up for their patients, shift by shift. It takes a tragic number of deaths for the nurses I see in my practice to share that they have lost count. These numbers reflect people they held to feed, carried to prevent ulcers, wiped for decency, caressed for compassion, probed with IVs and tubes, monitored for signs of life, and warmed with blankets. If love were in any job description, it would fall under that of a nurse.
And we can’t ignore the fact that all the lives lost by COVID-19 had family. Family members who, without ever stepping foot in the hospital, needed a place to be heard, a place to receive explanation, and a place for reassurance. This invaluable place is cultivated by nurses. Through Zoom and phone calls, nurses share messages of hope, love, and fear between patients and family. Through Zoom and phone calls, nurses orchestrate visits and last goodbyes.
There is no denying that we have all been affected by this shared human experience. But the pause we owe our nurses feels long overdue, and of great importance. Nurses need a space to be heard, to be comforted, to be recognized. They come to our practices, trying to contain the world’s angst, while also navigating for themselves what it means to go through what they are going through. They hope that by coming to see us, they will find the strength to go back another day, another week, another month. Sometimes, they come to talk about everything but the job, in hopes that by talking about more mundane problems, they will feel “normal” and reconnected.
I hope that our empathy, congruence, and unconditional positive regard will allow them to feel heard.1 I hope that our warmth, concern, and hopefulness provide a welcoming place to voice sadness, anger, and fears.2 I hope that our processing of traumatic memory, our challenge to avoid inaccurate self-blaming beliefs, and our encouragement to create more thought-out conclusions will allow them to understand what is happening more accurately.3
Yet, I worry. I worry that society hasn’t been particularly successful with helping prior generations of heroes. From war veterans, to Sept. 11, 2001, firefighters, it seems that we have repeated mistakes. My experience with veterans in particular has taught me that for many who are suffering, it feels like society has broken its very fabric by being bystanders to the pain.
But suffering and tragedy are an inevitable part of the human experience that we share. What we can keep sight of is this: As physicians, we work with nurses. We are witnessing firsthand the impossible sacrifice they are taking and the limits of resilience. Let us not be too busy to stop and give recognition where and when it is due. Let us listen and learn from our past, and present, heroes. And let us never forget to extend our own hand to those who make a living extending theirs.
Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com.
References
1. Rogers CR. J Consult Psychol. 1957;21(2):95-103.
2. Mallo CJ, Mintz DL. Psychodyn Psychiatry. 2013 Mar;41(1):13-37.
3. Resick PA et al. Cognitive Processing Therapy for PTSD: A Comprehensive Manual. Guilford Publications, 2016.
This past year, the referrals to my private practice have taken a noticeable shift and caused me to pause.
More calls have come from nurses, many who work directly with COVID-19 patients, understandably seeking mental health treatment, or support. Especially in this time, nurses are facing trauma and stress that is unimaginable to many, myself included. Despite the collective efforts we have made as a society to recognize their work, I do not think we have given enough consideration to the enormous sacrifice nurses are currently undertaking to save our collective psyche.
As physicians and mental health providers, we have a glimpse into the complexities and stressors of medical treatment. In our line of work, we support patients with trauma on a regular basis. We feel deeply connected to patients, some of whom we have treated until the end of their lives. Despite that, I am not sure that I, or anyone, can truly comprehend what nurses face in today’s climate of care.
There is no denying that doctors are of value to our system, but our service has limits; nurses and doctors operate as two sides to a shared coin. As doctors, we diagnose and prescribe, while nurses explain and dispense. As doctors, we talk to patients, while nurses comfort them. Imagine spending an entire year working in a hospital diligently wiping endotracheal tubes that are responsible for maintaining someone’s life. Imagine spending an entire year laboring through the heavy task of lifting patients to prone them in a position that may save their lives. Imagine spending an entire year holding the hands of comatose patients in hopes of maintaining a sense of humanity.
And this only begins to describe the tasks bestowed upon nurses. While doctors answer pagers or complete insurance authorization forms, nurses empathize and reassure scared and isolated patients. Imagine spending an entire year updating crying family members who cannot see their loved ones. Imagine spending an entire year explaining and pleading to the outside world that wearing a mask and washing hands would reduce the suffering that takes place inside the hospital walls.
Despite the uncertainties, pressures, and demands, nurses have continued, and will continue, to show up for their patients, shift by shift. It takes a tragic number of deaths for the nurses I see in my practice to share that they have lost count. These numbers reflect people they held to feed, carried to prevent ulcers, wiped for decency, caressed for compassion, probed with IVs and tubes, monitored for signs of life, and warmed with blankets. If love were in any job description, it would fall under that of a nurse.
And we can’t ignore the fact that all the lives lost by COVID-19 had family. Family members who, without ever stepping foot in the hospital, needed a place to be heard, a place to receive explanation, and a place for reassurance. This invaluable place is cultivated by nurses. Through Zoom and phone calls, nurses share messages of hope, love, and fear between patients and family. Through Zoom and phone calls, nurses orchestrate visits and last goodbyes.
There is no denying that we have all been affected by this shared human experience. But the pause we owe our nurses feels long overdue, and of great importance. Nurses need a space to be heard, to be comforted, to be recognized. They come to our practices, trying to contain the world’s angst, while also navigating for themselves what it means to go through what they are going through. They hope that by coming to see us, they will find the strength to go back another day, another week, another month. Sometimes, they come to talk about everything but the job, in hopes that by talking about more mundane problems, they will feel “normal” and reconnected.
I hope that our empathy, congruence, and unconditional positive regard will allow them to feel heard.1 I hope that our warmth, concern, and hopefulness provide a welcoming place to voice sadness, anger, and fears.2 I hope that our processing of traumatic memory, our challenge to avoid inaccurate self-blaming beliefs, and our encouragement to create more thought-out conclusions will allow them to understand what is happening more accurately.3
Yet, I worry. I worry that society hasn’t been particularly successful with helping prior generations of heroes. From war veterans, to Sept. 11, 2001, firefighters, it seems that we have repeated mistakes. My experience with veterans in particular has taught me that for many who are suffering, it feels like society has broken its very fabric by being bystanders to the pain.
But suffering and tragedy are an inevitable part of the human experience that we share. What we can keep sight of is this: As physicians, we work with nurses. We are witnessing firsthand the impossible sacrifice they are taking and the limits of resilience. Let us not be too busy to stop and give recognition where and when it is due. Let us listen and learn from our past, and present, heroes. And let us never forget to extend our own hand to those who make a living extending theirs.
Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com.
References
1. Rogers CR. J Consult Psychol. 1957;21(2):95-103.
2. Mallo CJ, Mintz DL. Psychodyn Psychiatry. 2013 Mar;41(1):13-37.
3. Resick PA et al. Cognitive Processing Therapy for PTSD: A Comprehensive Manual. Guilford Publications, 2016.
Inflammatory immune findings likely in acute schizophrenia, MDD, bipolar
Researchers have come a long way in understanding the link between acute inflammation and treatment-resistant depression, but more work needs to be done, according to Mark Hyman Rapaport, MD.
“Inflammation has been a hot topic in the past decade, both because of its impact in medical disorders and in psychiatric disorders,” Dr. Rapaport, CEO of the Huntsman Mental Health Institute in Salt Lake City, Utah, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “We run into difficulty with chronic inflammation, which we see with rheumatic disorders, and when we think of metabolic syndrome and obesity.”
The immune system helps to control energy regulation and neuroendocrine function in acute inflammation and chronic inflammatory diseases. “We see a variety of effects on the central nervous system or liver function or on homeostasis of the body,” said Dr. Rapaport, who also chairs the department of psychiatry at the University of Utah, also in Salt Lake City. “These are all normal and necessary to channel energy to the immune system in order to fight what’s necessary in acute inflammatory response.”
A chronic state of inflammation can result in prolonged allocation of fuels to the immune system, tissue inflammation, and a chronically aberrant immune reaction, he continued. This can cause depressive symptoms/fatigue, anorexia, malnutrition, muscle wasting, cachectic obesity, insulin resistance, dyslipidemia, increased adipose tissue in the proximity of inflammatory lesion, alterations of steroid hormone axes, elevated sympathetic tone, hypertension, decreased parasympathetic tone, inflammation-related anemia, and osteopenia. “So, chronic inflammation has a lot of long-term sequelae that are detrimental,” he said.
Both physical stress and psychological stress also cause an inflammatory state. After looking at the medical literature, Dr. Rapaport and colleagues began to wonder whether inflammation and immune activation associated with psychiatric disorders are attributable to the stress of acute illness. To find out, they performed a meta-analysis of blood cytokine network alterations in psychiatric patients and evaluated comparisons between schizophrenia, bipolar disorder, and depression. A total of three meta-analyses were performed: one of acute/inpatient studies, one on the impact of acute treatment, and one of outpatient studies. The researchers hypothesized that inflammatory and immune findings in psychiatric illnesses were tied to two distinct etiologies: the acute stress of illness and intrinsic immune dysfunction.
The meta-analyses included 68 studies: 40 involving patients with schizophrenia, 18 involving those with major depressive disorder (MDD) and 10 involving those with bipolar disorder. The researchers found that levels of four cytokines were significantly increased in acutely ill patients with schizophrenia, bipolar mania, and MDD, compared with controls: interleukin-6, tumor necrosis factor–alpha (TNF-alpha), soluble IL-2 receptor (sIL-2R), and IL-1 receptor antagonist (IL-1RA). “There has not been a consistent blood panel used across studies, be it within a disorder itself like depression, or across disorders,” Dr. Rapaport noted. “This is a challenge that we face in looking at these data.”
Following treatment of acute illness, IL-6 levels significantly decreased in schizophrenia and MDD, but no significant changes in TNF-alpha levels were observed in patients with schizophrenia or MDD. In addition, sIL-2R levels increase in schizophrenia but remained unchanged in bipolar and MDD, while IL-1RA levels in bipolar mania decreased but remained unchanged in MDD. Meanwhile, assessment of the study’s 24 outpatient studies revealed that levels of IL-6 were significantly increased in outpatients with schizophrenia, euthymic bipolar disorder, and MDD, compared with controls (P < .01 for each). In addition, levels of IL-1 beta and sIL-2R were significantly increased in outpatients with schizophrenia and bipolar disorder.
According to Dr. Rapaport, these meta-analyses suggest that there are likely inflammatory immune findings present in acutely ill patients with MDD, schizophrenia, and bipolar disorder.
“Some of this activation decreases with effective acute treatment of the disorder,” he said. “The data suggest that immune changes are present in a subset of patients with all three disorders.”
“We also need to understand the regulatory role that microglia and astroglia play within the brain,” he said. “We need to identify changes in brain circuitry and function associated with inflammation and other immune changes. We also need to carefully scrutinize publications, understand the assumptions behind the statistics, and carry out more research beyond the protein level.”
He concluded his presentation by calling for research to help clinicians differentiate acute from chronic inflammation. “The study of both is important,” he said. “We need to understand the pathophysiology of immune changes in psychiatric disorders. We need to study both the triggers and pathways to resolution.”
Dr. Rapaport disclosed that he has received research support from the National Institutes of Health, the National Institute of Mental Health, and the National Center for Complementary and Integrative Health.
Researchers have come a long way in understanding the link between acute inflammation and treatment-resistant depression, but more work needs to be done, according to Mark Hyman Rapaport, MD.
“Inflammation has been a hot topic in the past decade, both because of its impact in medical disorders and in psychiatric disorders,” Dr. Rapaport, CEO of the Huntsman Mental Health Institute in Salt Lake City, Utah, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “We run into difficulty with chronic inflammation, which we see with rheumatic disorders, and when we think of metabolic syndrome and obesity.”
The immune system helps to control energy regulation and neuroendocrine function in acute inflammation and chronic inflammatory diseases. “We see a variety of effects on the central nervous system or liver function or on homeostasis of the body,” said Dr. Rapaport, who also chairs the department of psychiatry at the University of Utah, also in Salt Lake City. “These are all normal and necessary to channel energy to the immune system in order to fight what’s necessary in acute inflammatory response.”
A chronic state of inflammation can result in prolonged allocation of fuels to the immune system, tissue inflammation, and a chronically aberrant immune reaction, he continued. This can cause depressive symptoms/fatigue, anorexia, malnutrition, muscle wasting, cachectic obesity, insulin resistance, dyslipidemia, increased adipose tissue in the proximity of inflammatory lesion, alterations of steroid hormone axes, elevated sympathetic tone, hypertension, decreased parasympathetic tone, inflammation-related anemia, and osteopenia. “So, chronic inflammation has a lot of long-term sequelae that are detrimental,” he said.
Both physical stress and psychological stress also cause an inflammatory state. After looking at the medical literature, Dr. Rapaport and colleagues began to wonder whether inflammation and immune activation associated with psychiatric disorders are attributable to the stress of acute illness. To find out, they performed a meta-analysis of blood cytokine network alterations in psychiatric patients and evaluated comparisons between schizophrenia, bipolar disorder, and depression. A total of three meta-analyses were performed: one of acute/inpatient studies, one on the impact of acute treatment, and one of outpatient studies. The researchers hypothesized that inflammatory and immune findings in psychiatric illnesses were tied to two distinct etiologies: the acute stress of illness and intrinsic immune dysfunction.
The meta-analyses included 68 studies: 40 involving patients with schizophrenia, 18 involving those with major depressive disorder (MDD) and 10 involving those with bipolar disorder. The researchers found that levels of four cytokines were significantly increased in acutely ill patients with schizophrenia, bipolar mania, and MDD, compared with controls: interleukin-6, tumor necrosis factor–alpha (TNF-alpha), soluble IL-2 receptor (sIL-2R), and IL-1 receptor antagonist (IL-1RA). “There has not been a consistent blood panel used across studies, be it within a disorder itself like depression, or across disorders,” Dr. Rapaport noted. “This is a challenge that we face in looking at these data.”
Following treatment of acute illness, IL-6 levels significantly decreased in schizophrenia and MDD, but no significant changes in TNF-alpha levels were observed in patients with schizophrenia or MDD. In addition, sIL-2R levels increase in schizophrenia but remained unchanged in bipolar and MDD, while IL-1RA levels in bipolar mania decreased but remained unchanged in MDD. Meanwhile, assessment of the study’s 24 outpatient studies revealed that levels of IL-6 were significantly increased in outpatients with schizophrenia, euthymic bipolar disorder, and MDD, compared with controls (P < .01 for each). In addition, levels of IL-1 beta and sIL-2R were significantly increased in outpatients with schizophrenia and bipolar disorder.
According to Dr. Rapaport, these meta-analyses suggest that there are likely inflammatory immune findings present in acutely ill patients with MDD, schizophrenia, and bipolar disorder.
“Some of this activation decreases with effective acute treatment of the disorder,” he said. “The data suggest that immune changes are present in a subset of patients with all three disorders.”
“We also need to understand the regulatory role that microglia and astroglia play within the brain,” he said. “We need to identify changes in brain circuitry and function associated with inflammation and other immune changes. We also need to carefully scrutinize publications, understand the assumptions behind the statistics, and carry out more research beyond the protein level.”
He concluded his presentation by calling for research to help clinicians differentiate acute from chronic inflammation. “The study of both is important,” he said. “We need to understand the pathophysiology of immune changes in psychiatric disorders. We need to study both the triggers and pathways to resolution.”
Dr. Rapaport disclosed that he has received research support from the National Institutes of Health, the National Institute of Mental Health, and the National Center for Complementary and Integrative Health.
Researchers have come a long way in understanding the link between acute inflammation and treatment-resistant depression, but more work needs to be done, according to Mark Hyman Rapaport, MD.
“Inflammation has been a hot topic in the past decade, both because of its impact in medical disorders and in psychiatric disorders,” Dr. Rapaport, CEO of the Huntsman Mental Health Institute in Salt Lake City, Utah, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “We run into difficulty with chronic inflammation, which we see with rheumatic disorders, and when we think of metabolic syndrome and obesity.”
The immune system helps to control energy regulation and neuroendocrine function in acute inflammation and chronic inflammatory diseases. “We see a variety of effects on the central nervous system or liver function or on homeostasis of the body,” said Dr. Rapaport, who also chairs the department of psychiatry at the University of Utah, also in Salt Lake City. “These are all normal and necessary to channel energy to the immune system in order to fight what’s necessary in acute inflammatory response.”
A chronic state of inflammation can result in prolonged allocation of fuels to the immune system, tissue inflammation, and a chronically aberrant immune reaction, he continued. This can cause depressive symptoms/fatigue, anorexia, malnutrition, muscle wasting, cachectic obesity, insulin resistance, dyslipidemia, increased adipose tissue in the proximity of inflammatory lesion, alterations of steroid hormone axes, elevated sympathetic tone, hypertension, decreased parasympathetic tone, inflammation-related anemia, and osteopenia. “So, chronic inflammation has a lot of long-term sequelae that are detrimental,” he said.
Both physical stress and psychological stress also cause an inflammatory state. After looking at the medical literature, Dr. Rapaport and colleagues began to wonder whether inflammation and immune activation associated with psychiatric disorders are attributable to the stress of acute illness. To find out, they performed a meta-analysis of blood cytokine network alterations in psychiatric patients and evaluated comparisons between schizophrenia, bipolar disorder, and depression. A total of three meta-analyses were performed: one of acute/inpatient studies, one on the impact of acute treatment, and one of outpatient studies. The researchers hypothesized that inflammatory and immune findings in psychiatric illnesses were tied to two distinct etiologies: the acute stress of illness and intrinsic immune dysfunction.
The meta-analyses included 68 studies: 40 involving patients with schizophrenia, 18 involving those with major depressive disorder (MDD) and 10 involving those with bipolar disorder. The researchers found that levels of four cytokines were significantly increased in acutely ill patients with schizophrenia, bipolar mania, and MDD, compared with controls: interleukin-6, tumor necrosis factor–alpha (TNF-alpha), soluble IL-2 receptor (sIL-2R), and IL-1 receptor antagonist (IL-1RA). “There has not been a consistent blood panel used across studies, be it within a disorder itself like depression, or across disorders,” Dr. Rapaport noted. “This is a challenge that we face in looking at these data.”
Following treatment of acute illness, IL-6 levels significantly decreased in schizophrenia and MDD, but no significant changes in TNF-alpha levels were observed in patients with schizophrenia or MDD. In addition, sIL-2R levels increase in schizophrenia but remained unchanged in bipolar and MDD, while IL-1RA levels in bipolar mania decreased but remained unchanged in MDD. Meanwhile, assessment of the study’s 24 outpatient studies revealed that levels of IL-6 were significantly increased in outpatients with schizophrenia, euthymic bipolar disorder, and MDD, compared with controls (P < .01 for each). In addition, levels of IL-1 beta and sIL-2R were significantly increased in outpatients with schizophrenia and bipolar disorder.
According to Dr. Rapaport, these meta-analyses suggest that there are likely inflammatory immune findings present in acutely ill patients with MDD, schizophrenia, and bipolar disorder.
“Some of this activation decreases with effective acute treatment of the disorder,” he said. “The data suggest that immune changes are present in a subset of patients with all three disorders.”
“We also need to understand the regulatory role that microglia and astroglia play within the brain,” he said. “We need to identify changes in brain circuitry and function associated with inflammation and other immune changes. We also need to carefully scrutinize publications, understand the assumptions behind the statistics, and carry out more research beyond the protein level.”
He concluded his presentation by calling for research to help clinicians differentiate acute from chronic inflammation. “The study of both is important,” he said. “We need to understand the pathophysiology of immune changes in psychiatric disorders. We need to study both the triggers and pathways to resolution.”
Dr. Rapaport disclosed that he has received research support from the National Institutes of Health, the National Institute of Mental Health, and the National Center for Complementary and Integrative Health.
FROM NPA 2021
Consider connections between depression, chronic medical comorbidities
For many adults, depression and chronic medical conditions are inextricably linked.
In fact, the prevalence of depression is 2-10 times higher among people with chronic medical conditions, particularly in people with chronic pain, where the prevalence reaches 40%-60%, according to Jonathan E. Alpert, MD, PhD.
“About 60% of adults over 65 have two or more chronic conditions, of which depression is the single most common comorbidity,” Dr. Alpert, chair of the department of psychiatry and behavioral sciences at the Montefiore Medical Center and Albert Einstein College of Medicine, both in New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association.
“Premorbid depression is a risk factor for a number of medical conditions, such as heart disease. We also know that medical illness is a risk factor for depression. Comorbid depression predicts poorer health outcomes, including disability, hospital readmission, and mortality. It is also associated with up to severalfold higher general medical costs.”
Despite the pervasive nature of depression on other medical conditions, a limited evidence base exists to guide clinicians on treatment approaches.
“Most major depressive disorder randomized clinical trials exclude individuals with active medical illness, but we do know that medical comorbidity is associated with poorer depression outcomes,” Dr. Alpert said. For example, the STAR*D trial found that people with major depressive disorder plus medical comorbidity had lower remission rates, compared with those who had MDD alone (P < .001), while a large analysis from University of Pittsburgh researchers found that people with medical comorbidities had higher depression recurrence rates.
An assessment of the relationship between medical conditions and depression should include thinking about the association between the medical illness itself and medications with depressive symptoms.
“Are the medications contributing to depressive symptoms?” he asked. “We also want to be thinking of the impact of medical illness and medications on antidepressant pharmacokinetics and pharmacodynamics. We also want to know about the evidence for antidepressant safety, tolerability, efficacy, and anticipated drug-drug interactions among individuals with the medical illness. You also want to enhance focus on treatment adherence and coordination of care.”
Nontraditional routes of antidepressant administration exist for patients who have difficulty swallowing pills. Food and Drug Administration–approved options include transdermal selegiline; intranasal esketamine; liquid forms of fluoxetine, escitalopram, paroxetine, nortriptyline, doxepin, imipramine, and lithium; and oral disintegrating tablet forms of mirtazapine and selegiline. As for non–FDA-approved forms of antidepressant administration, small studies or case reports have appeared in the medical literature regarding intravenous ketamine, citalopram, amitriptyline, mirtazapine, maprotiline, and lithium; intramuscular ketamine and amitriptyline; and rectal forms of antidepressants such as trazodone, amitriptyline, doxepin, fluoxetine, and lamotrigine.
“It’s good to keep in mind that, when you’re not able to use by mouth antidepressants or typical tablet forms of antidepressants, there are other options available,” said Dr. Alpert, who is also chair of the American Psychiatric Association’s Council on Research.
Metabolism of medications occurs primarily in the liver, he continued, but some metabolic enzymes also line the intestinal tract. The metabolism of a substrate may be inhibited or induced by other drugs.
“If someone is on drug A and we give drug B, and drug B is inhibiting the metabolism of drug A, there will be a very rapid impact – hours to just a few days,” Dr. Alpert said. “The substrate levels rise very quickly, so within hours or days of taking drug B, drug A levels can rise steeply.” On the other hand, if someone is on drug A and you give a drug B – which induces the enzymes that usually metabolize drug A – the impact will be gradual. “That’s because induction requires increased synthesis of the metabolic enzyme responsible for metabolizing drug A,” he said. “That happens over days to weeks.”
Medications that are potential inducers of metabolism include carbamazepine, phenobarbital, phenytoin, primidone, prednisone, ritonavir, rifampin, chronic alcohol use, chronic smoking, St. John’s wort, and consumption of large quantities of cruciferous vegetables and charbroiled meats.
On the other hand, potential inhibitors of metabolism include antifungals, macrolide antibiotics, fluoroquinolones, antiretrovirals, isoniazid, antimalarials, disulfiram, SSRIs, phenothiazines, valproic acid, nefazodone, duloxetine, bupropion, beta-blockers, acute alcohol use, cimetidine, quinidine, calcium channel blockers, grapefruit juice, propafenone, and amiodarone.
“When treating people with significant medical comorbidity, start low and go slow, but persevere,” Dr. Alpert advised. “We want to always think about the risk of treating versus the risk of not treating, or not treating actively enough. Often, people with comorbid medical illness require the same or even more assertive treatment with pharmacotherapy for their depression as people without medical illness. So, we don’t want to make the mistake of undertreating depression. We also want to anticipate and address challenges with adherence.”
He also recommended being mindful of the most salient side effects for a given condition, such as lowered seizure threshold or QT prolongation in populations with brain injury or with cardiovascular disease, and to leverage dual benefits when they might exist, such as using [selective norepinephrine reuptake inhibitors] for depression and pain or hot flashes, or bupropion for depression and smoking cessation, or mirtazapine, which is effective for nausea, cachexia, or insomnia, as well as depression itself.
“We want to collaborate closely and regularly with other treaters, sharing our notes and diagnostic impressions,” Dr. Alpert said. “We want to use all the tools in the box in addition to pharmacotherapy, thinking about psychotherapy, neuromodulation, and peer navigators. We want to strive for measurement-based care using rating scales when we can, to augment our treatment. And
Dr. Alpert reports having received speaker’s honoraria, consulting fees, and research support from numerous pharmaceutical companies.
For many adults, depression and chronic medical conditions are inextricably linked.
In fact, the prevalence of depression is 2-10 times higher among people with chronic medical conditions, particularly in people with chronic pain, where the prevalence reaches 40%-60%, according to Jonathan E. Alpert, MD, PhD.
“About 60% of adults over 65 have two or more chronic conditions, of which depression is the single most common comorbidity,” Dr. Alpert, chair of the department of psychiatry and behavioral sciences at the Montefiore Medical Center and Albert Einstein College of Medicine, both in New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association.
“Premorbid depression is a risk factor for a number of medical conditions, such as heart disease. We also know that medical illness is a risk factor for depression. Comorbid depression predicts poorer health outcomes, including disability, hospital readmission, and mortality. It is also associated with up to severalfold higher general medical costs.”
Despite the pervasive nature of depression on other medical conditions, a limited evidence base exists to guide clinicians on treatment approaches.
“Most major depressive disorder randomized clinical trials exclude individuals with active medical illness, but we do know that medical comorbidity is associated with poorer depression outcomes,” Dr. Alpert said. For example, the STAR*D trial found that people with major depressive disorder plus medical comorbidity had lower remission rates, compared with those who had MDD alone (P < .001), while a large analysis from University of Pittsburgh researchers found that people with medical comorbidities had higher depression recurrence rates.
An assessment of the relationship between medical conditions and depression should include thinking about the association between the medical illness itself and medications with depressive symptoms.
“Are the medications contributing to depressive symptoms?” he asked. “We also want to be thinking of the impact of medical illness and medications on antidepressant pharmacokinetics and pharmacodynamics. We also want to know about the evidence for antidepressant safety, tolerability, efficacy, and anticipated drug-drug interactions among individuals with the medical illness. You also want to enhance focus on treatment adherence and coordination of care.”
Nontraditional routes of antidepressant administration exist for patients who have difficulty swallowing pills. Food and Drug Administration–approved options include transdermal selegiline; intranasal esketamine; liquid forms of fluoxetine, escitalopram, paroxetine, nortriptyline, doxepin, imipramine, and lithium; and oral disintegrating tablet forms of mirtazapine and selegiline. As for non–FDA-approved forms of antidepressant administration, small studies or case reports have appeared in the medical literature regarding intravenous ketamine, citalopram, amitriptyline, mirtazapine, maprotiline, and lithium; intramuscular ketamine and amitriptyline; and rectal forms of antidepressants such as trazodone, amitriptyline, doxepin, fluoxetine, and lamotrigine.
“It’s good to keep in mind that, when you’re not able to use by mouth antidepressants or typical tablet forms of antidepressants, there are other options available,” said Dr. Alpert, who is also chair of the American Psychiatric Association’s Council on Research.
Metabolism of medications occurs primarily in the liver, he continued, but some metabolic enzymes also line the intestinal tract. The metabolism of a substrate may be inhibited or induced by other drugs.
“If someone is on drug A and we give drug B, and drug B is inhibiting the metabolism of drug A, there will be a very rapid impact – hours to just a few days,” Dr. Alpert said. “The substrate levels rise very quickly, so within hours or days of taking drug B, drug A levels can rise steeply.” On the other hand, if someone is on drug A and you give a drug B – which induces the enzymes that usually metabolize drug A – the impact will be gradual. “That’s because induction requires increased synthesis of the metabolic enzyme responsible for metabolizing drug A,” he said. “That happens over days to weeks.”
Medications that are potential inducers of metabolism include carbamazepine, phenobarbital, phenytoin, primidone, prednisone, ritonavir, rifampin, chronic alcohol use, chronic smoking, St. John’s wort, and consumption of large quantities of cruciferous vegetables and charbroiled meats.
On the other hand, potential inhibitors of metabolism include antifungals, macrolide antibiotics, fluoroquinolones, antiretrovirals, isoniazid, antimalarials, disulfiram, SSRIs, phenothiazines, valproic acid, nefazodone, duloxetine, bupropion, beta-blockers, acute alcohol use, cimetidine, quinidine, calcium channel blockers, grapefruit juice, propafenone, and amiodarone.
“When treating people with significant medical comorbidity, start low and go slow, but persevere,” Dr. Alpert advised. “We want to always think about the risk of treating versus the risk of not treating, or not treating actively enough. Often, people with comorbid medical illness require the same or even more assertive treatment with pharmacotherapy for their depression as people without medical illness. So, we don’t want to make the mistake of undertreating depression. We also want to anticipate and address challenges with adherence.”
He also recommended being mindful of the most salient side effects for a given condition, such as lowered seizure threshold or QT prolongation in populations with brain injury or with cardiovascular disease, and to leverage dual benefits when they might exist, such as using [selective norepinephrine reuptake inhibitors] for depression and pain or hot flashes, or bupropion for depression and smoking cessation, or mirtazapine, which is effective for nausea, cachexia, or insomnia, as well as depression itself.
“We want to collaborate closely and regularly with other treaters, sharing our notes and diagnostic impressions,” Dr. Alpert said. “We want to use all the tools in the box in addition to pharmacotherapy, thinking about psychotherapy, neuromodulation, and peer navigators. We want to strive for measurement-based care using rating scales when we can, to augment our treatment. And
Dr. Alpert reports having received speaker’s honoraria, consulting fees, and research support from numerous pharmaceutical companies.
For many adults, depression and chronic medical conditions are inextricably linked.
In fact, the prevalence of depression is 2-10 times higher among people with chronic medical conditions, particularly in people with chronic pain, where the prevalence reaches 40%-60%, according to Jonathan E. Alpert, MD, PhD.
“About 60% of adults over 65 have two or more chronic conditions, of which depression is the single most common comorbidity,” Dr. Alpert, chair of the department of psychiatry and behavioral sciences at the Montefiore Medical Center and Albert Einstein College of Medicine, both in New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association.
“Premorbid depression is a risk factor for a number of medical conditions, such as heart disease. We also know that medical illness is a risk factor for depression. Comorbid depression predicts poorer health outcomes, including disability, hospital readmission, and mortality. It is also associated with up to severalfold higher general medical costs.”
Despite the pervasive nature of depression on other medical conditions, a limited evidence base exists to guide clinicians on treatment approaches.
“Most major depressive disorder randomized clinical trials exclude individuals with active medical illness, but we do know that medical comorbidity is associated with poorer depression outcomes,” Dr. Alpert said. For example, the STAR*D trial found that people with major depressive disorder plus medical comorbidity had lower remission rates, compared with those who had MDD alone (P < .001), while a large analysis from University of Pittsburgh researchers found that people with medical comorbidities had higher depression recurrence rates.
An assessment of the relationship between medical conditions and depression should include thinking about the association between the medical illness itself and medications with depressive symptoms.
“Are the medications contributing to depressive symptoms?” he asked. “We also want to be thinking of the impact of medical illness and medications on antidepressant pharmacokinetics and pharmacodynamics. We also want to know about the evidence for antidepressant safety, tolerability, efficacy, and anticipated drug-drug interactions among individuals with the medical illness. You also want to enhance focus on treatment adherence and coordination of care.”
Nontraditional routes of antidepressant administration exist for patients who have difficulty swallowing pills. Food and Drug Administration–approved options include transdermal selegiline; intranasal esketamine; liquid forms of fluoxetine, escitalopram, paroxetine, nortriptyline, doxepin, imipramine, and lithium; and oral disintegrating tablet forms of mirtazapine and selegiline. As for non–FDA-approved forms of antidepressant administration, small studies or case reports have appeared in the medical literature regarding intravenous ketamine, citalopram, amitriptyline, mirtazapine, maprotiline, and lithium; intramuscular ketamine and amitriptyline; and rectal forms of antidepressants such as trazodone, amitriptyline, doxepin, fluoxetine, and lamotrigine.
“It’s good to keep in mind that, when you’re not able to use by mouth antidepressants or typical tablet forms of antidepressants, there are other options available,” said Dr. Alpert, who is also chair of the American Psychiatric Association’s Council on Research.
Metabolism of medications occurs primarily in the liver, he continued, but some metabolic enzymes also line the intestinal tract. The metabolism of a substrate may be inhibited or induced by other drugs.
“If someone is on drug A and we give drug B, and drug B is inhibiting the metabolism of drug A, there will be a very rapid impact – hours to just a few days,” Dr. Alpert said. “The substrate levels rise very quickly, so within hours or days of taking drug B, drug A levels can rise steeply.” On the other hand, if someone is on drug A and you give a drug B – which induces the enzymes that usually metabolize drug A – the impact will be gradual. “That’s because induction requires increased synthesis of the metabolic enzyme responsible for metabolizing drug A,” he said. “That happens over days to weeks.”
Medications that are potential inducers of metabolism include carbamazepine, phenobarbital, phenytoin, primidone, prednisone, ritonavir, rifampin, chronic alcohol use, chronic smoking, St. John’s wort, and consumption of large quantities of cruciferous vegetables and charbroiled meats.
On the other hand, potential inhibitors of metabolism include antifungals, macrolide antibiotics, fluoroquinolones, antiretrovirals, isoniazid, antimalarials, disulfiram, SSRIs, phenothiazines, valproic acid, nefazodone, duloxetine, bupropion, beta-blockers, acute alcohol use, cimetidine, quinidine, calcium channel blockers, grapefruit juice, propafenone, and amiodarone.
“When treating people with significant medical comorbidity, start low and go slow, but persevere,” Dr. Alpert advised. “We want to always think about the risk of treating versus the risk of not treating, or not treating actively enough. Often, people with comorbid medical illness require the same or even more assertive treatment with pharmacotherapy for their depression as people without medical illness. So, we don’t want to make the mistake of undertreating depression. We also want to anticipate and address challenges with adherence.”
He also recommended being mindful of the most salient side effects for a given condition, such as lowered seizure threshold or QT prolongation in populations with brain injury or with cardiovascular disease, and to leverage dual benefits when they might exist, such as using [selective norepinephrine reuptake inhibitors] for depression and pain or hot flashes, or bupropion for depression and smoking cessation, or mirtazapine, which is effective for nausea, cachexia, or insomnia, as well as depression itself.
“We want to collaborate closely and regularly with other treaters, sharing our notes and diagnostic impressions,” Dr. Alpert said. “We want to use all the tools in the box in addition to pharmacotherapy, thinking about psychotherapy, neuromodulation, and peer navigators. We want to strive for measurement-based care using rating scales when we can, to augment our treatment. And
Dr. Alpert reports having received speaker’s honoraria, consulting fees, and research support from numerous pharmaceutical companies.
FROM NPA 2021
Screening tool may help better predict suicide attempts in adolescents
Researchers have developed a proprietary computer adaptive screening tool that may help emergency departments more accurately predict suicide attempts in adolescents, according to a recent study in JAMA Psychiatry.
The computerized adaptive screen for suicidal youth (CASSY) had an area under the curve (AUC) of 0.87 in an independent validation cohort that predicted an adolescent suicide attempt within 3 months, according to Cheryl A. King, PhD, of the department of psychiatry at the University of Michigan in Ann Arbor, and colleagues. CASSY’s adaptive design, which presents different questions based on a respondent’s answers, means “an individual’s initial item responses are used to determine a provisional estimate of their standing on the measured trait,” the researchers said.
Dr. King and colleagues evaluated the CASSY algorithm in a first study that consisted of 2,845 adolescents who were mean 15.1 years old, mostly girls (63%) enrolled from 13 different emergency departments across the United States within the Pediatric Emergency Care Applied Research Network (PECARN) between June 2015 and July 2016. To develop the CASSY algorithm, the participants received a 92-item self-report survey at baseline with three “anchor” questions from the Ask Suicide-Screening Questions (ASQ) and Columbia–Suicide Severity Rating Scale (C-SSRS). Based on the answers to the baseline survey, the researchers categorized participants as being at low, medium, or high risk for a suicide attempt, and followed participants for 3 months to record suicide attempts reported by a patient or parent.
Retention of participants at 3 months was 72.9%, leaving data available for 2,075 adolescents for review. The researchers found that the AUC was 0.89 (95% confidence interval, 0.85-0.91) in the first study, with a sensitivity of 82.4% and a specificity of 80%. Participants answered a mean number of 11 items during an assessment (range, 5-21 items) administered in a median time of 1 minute, 24 seconds.
In a second study consisting of a validation cohort, 4,050 adolescents from 14 PECARN emergency departments and 1 Indian Health Service hospital were followed, with a retention of 2,754 participants (69.5%) at the end of 3 months. Of the adolescents available at the end of 3 months, 62.1% were girls with a mean age of 15.0 years. The AUC for this validation group was 0.87 (95% CI, 0.85-0.89). Of these participants, 71.5% reported no previous suicide attempts, 9% reported one prior attempt, 18.2% reported multiple attempts, and 1.2% had an unknown number of suicide attempts. During the 3-month window of the second study, 6.0% of participants had at least one suicide attempt.
The researchers said that while the CASSY instrument may be advantageous for some emergency departments, “a standard screen such as the ASQ, which consists of fewer items, may be preferred in some settings, particularly those in which the cost and technical setup of a computerized adaptive screen poses too high a barrier.”
Dr. King and colleagues concluded.
Climbing adolescent suicide rate
In an interview, Igor Galynker, MD, PhD, professor in the department of psychiatry, and director of the suicide lab and the Zirinsky Center for Bipolar Disorder at the Icahn School of Medicine at Mount Sinai, New York, said the study by Dr. King and colleagues is important during a time when the suicide rate for adolescents is substantially increasing.
According to data from the CDC’s Web-based Injury Statistics Query and Reporting System, 1,750 adolescents died of suicide in 2018, and the rate of deaths by suicide has increased by 62% since the year 2000. “The issue really needs to be addressed,” said Dr. Galynker, who was not involved with the study.
Some methods of screening suicidal ideation that open with a direct question can miss suicide attempts in individuals who do not express these suicidal ideations, he explained, and the problem can be magnified in adolescent patients. “This is particularly difficult with adolescents because they’re notoriously poor historians. They cannot describe their feelings as well. It’s even more important to have methods that work for suicide prevention for adolescents and to support those predictors which do not rely on self-report,” he said.
Dr. Galynker said that CASSY is innovative because asking whether the patient is suicidal is not the “gateway question” and does not categorize people into groups determined to be at low, medium, or high risk for a suicide attempt.
“When you categorize people – adolescents in this particular case – you remove clinical judgment from [the] clinician. You deprive [the] clinician of exercising their clinical judgment in terms of somebody is or is not likely to die by suicide. That’s a serious problem,” he said, noting it may be one reason why these screening tools have difficulty identifying patients at risk of suicide.
Regarding limitations, the 3-month follow-up window for patients in the study may be too long to be clinically meaningful.
“If somebody is in treatment, 3 months is a long time. You want to know whether somebody is going to attempt suicide before the next time you see them, which is usually a month or a week,” he said.
But a strength of the CASSY instrument, Dr. Galynker said, is its ability to capture the patient’s mental state in the moment, as opposed to relying only a patient’s electronic medical record. The study also demonstrates “it should be possible to introduce detailed suicide risk assessment in the emergency rooms, and [it] should be done,” he said.
This study was funded with support from the Health Resources and Services Administration, the Maternal and Child Health Bureau, and the Emergency Medical Services for Children Network Development Demonstration Program, and a grant by the National Institute of Mental Health for the Emergency Department Screen for Teens at Risk for Suicide. Twelve authors reported personal and institutional relationships in the form of fees, grants, consultancies, royalties, copyrighted work, founding of technologies, and scientific council memberships for a variety of agencies, societies, foundations, and other organizations inside and outside of the study. Dr. Galynker reported his work unrelated to the study is supported by the National Institute of Mental Health and the American Foundation for Suicide Prevention. But he has no proprietary interests.
Researchers have developed a proprietary computer adaptive screening tool that may help emergency departments more accurately predict suicide attempts in adolescents, according to a recent study in JAMA Psychiatry.
The computerized adaptive screen for suicidal youth (CASSY) had an area under the curve (AUC) of 0.87 in an independent validation cohort that predicted an adolescent suicide attempt within 3 months, according to Cheryl A. King, PhD, of the department of psychiatry at the University of Michigan in Ann Arbor, and colleagues. CASSY’s adaptive design, which presents different questions based on a respondent’s answers, means “an individual’s initial item responses are used to determine a provisional estimate of their standing on the measured trait,” the researchers said.
Dr. King and colleagues evaluated the CASSY algorithm in a first study that consisted of 2,845 adolescents who were mean 15.1 years old, mostly girls (63%) enrolled from 13 different emergency departments across the United States within the Pediatric Emergency Care Applied Research Network (PECARN) between June 2015 and July 2016. To develop the CASSY algorithm, the participants received a 92-item self-report survey at baseline with three “anchor” questions from the Ask Suicide-Screening Questions (ASQ) and Columbia–Suicide Severity Rating Scale (C-SSRS). Based on the answers to the baseline survey, the researchers categorized participants as being at low, medium, or high risk for a suicide attempt, and followed participants for 3 months to record suicide attempts reported by a patient or parent.
Retention of participants at 3 months was 72.9%, leaving data available for 2,075 adolescents for review. The researchers found that the AUC was 0.89 (95% confidence interval, 0.85-0.91) in the first study, with a sensitivity of 82.4% and a specificity of 80%. Participants answered a mean number of 11 items during an assessment (range, 5-21 items) administered in a median time of 1 minute, 24 seconds.
In a second study consisting of a validation cohort, 4,050 adolescents from 14 PECARN emergency departments and 1 Indian Health Service hospital were followed, with a retention of 2,754 participants (69.5%) at the end of 3 months. Of the adolescents available at the end of 3 months, 62.1% were girls with a mean age of 15.0 years. The AUC for this validation group was 0.87 (95% CI, 0.85-0.89). Of these participants, 71.5% reported no previous suicide attempts, 9% reported one prior attempt, 18.2% reported multiple attempts, and 1.2% had an unknown number of suicide attempts. During the 3-month window of the second study, 6.0% of participants had at least one suicide attempt.
The researchers said that while the CASSY instrument may be advantageous for some emergency departments, “a standard screen such as the ASQ, which consists of fewer items, may be preferred in some settings, particularly those in which the cost and technical setup of a computerized adaptive screen poses too high a barrier.”
Dr. King and colleagues concluded.
Climbing adolescent suicide rate
In an interview, Igor Galynker, MD, PhD, professor in the department of psychiatry, and director of the suicide lab and the Zirinsky Center for Bipolar Disorder at the Icahn School of Medicine at Mount Sinai, New York, said the study by Dr. King and colleagues is important during a time when the suicide rate for adolescents is substantially increasing.
According to data from the CDC’s Web-based Injury Statistics Query and Reporting System, 1,750 adolescents died of suicide in 2018, and the rate of deaths by suicide has increased by 62% since the year 2000. “The issue really needs to be addressed,” said Dr. Galynker, who was not involved with the study.
Some methods of screening suicidal ideation that open with a direct question can miss suicide attempts in individuals who do not express these suicidal ideations, he explained, and the problem can be magnified in adolescent patients. “This is particularly difficult with adolescents because they’re notoriously poor historians. They cannot describe their feelings as well. It’s even more important to have methods that work for suicide prevention for adolescents and to support those predictors which do not rely on self-report,” he said.
Dr. Galynker said that CASSY is innovative because asking whether the patient is suicidal is not the “gateway question” and does not categorize people into groups determined to be at low, medium, or high risk for a suicide attempt.
“When you categorize people – adolescents in this particular case – you remove clinical judgment from [the] clinician. You deprive [the] clinician of exercising their clinical judgment in terms of somebody is or is not likely to die by suicide. That’s a serious problem,” he said, noting it may be one reason why these screening tools have difficulty identifying patients at risk of suicide.
Regarding limitations, the 3-month follow-up window for patients in the study may be too long to be clinically meaningful.
“If somebody is in treatment, 3 months is a long time. You want to know whether somebody is going to attempt suicide before the next time you see them, which is usually a month or a week,” he said.
But a strength of the CASSY instrument, Dr. Galynker said, is its ability to capture the patient’s mental state in the moment, as opposed to relying only a patient’s electronic medical record. The study also demonstrates “it should be possible to introduce detailed suicide risk assessment in the emergency rooms, and [it] should be done,” he said.
This study was funded with support from the Health Resources and Services Administration, the Maternal and Child Health Bureau, and the Emergency Medical Services for Children Network Development Demonstration Program, and a grant by the National Institute of Mental Health for the Emergency Department Screen for Teens at Risk for Suicide. Twelve authors reported personal and institutional relationships in the form of fees, grants, consultancies, royalties, copyrighted work, founding of technologies, and scientific council memberships for a variety of agencies, societies, foundations, and other organizations inside and outside of the study. Dr. Galynker reported his work unrelated to the study is supported by the National Institute of Mental Health and the American Foundation for Suicide Prevention. But he has no proprietary interests.
Researchers have developed a proprietary computer adaptive screening tool that may help emergency departments more accurately predict suicide attempts in adolescents, according to a recent study in JAMA Psychiatry.
The computerized adaptive screen for suicidal youth (CASSY) had an area under the curve (AUC) of 0.87 in an independent validation cohort that predicted an adolescent suicide attempt within 3 months, according to Cheryl A. King, PhD, of the department of psychiatry at the University of Michigan in Ann Arbor, and colleagues. CASSY’s adaptive design, which presents different questions based on a respondent’s answers, means “an individual’s initial item responses are used to determine a provisional estimate of their standing on the measured trait,” the researchers said.
Dr. King and colleagues evaluated the CASSY algorithm in a first study that consisted of 2,845 adolescents who were mean 15.1 years old, mostly girls (63%) enrolled from 13 different emergency departments across the United States within the Pediatric Emergency Care Applied Research Network (PECARN) between June 2015 and July 2016. To develop the CASSY algorithm, the participants received a 92-item self-report survey at baseline with three “anchor” questions from the Ask Suicide-Screening Questions (ASQ) and Columbia–Suicide Severity Rating Scale (C-SSRS). Based on the answers to the baseline survey, the researchers categorized participants as being at low, medium, or high risk for a suicide attempt, and followed participants for 3 months to record suicide attempts reported by a patient or parent.
Retention of participants at 3 months was 72.9%, leaving data available for 2,075 adolescents for review. The researchers found that the AUC was 0.89 (95% confidence interval, 0.85-0.91) in the first study, with a sensitivity of 82.4% and a specificity of 80%. Participants answered a mean number of 11 items during an assessment (range, 5-21 items) administered in a median time of 1 minute, 24 seconds.
In a second study consisting of a validation cohort, 4,050 adolescents from 14 PECARN emergency departments and 1 Indian Health Service hospital were followed, with a retention of 2,754 participants (69.5%) at the end of 3 months. Of the adolescents available at the end of 3 months, 62.1% were girls with a mean age of 15.0 years. The AUC for this validation group was 0.87 (95% CI, 0.85-0.89). Of these participants, 71.5% reported no previous suicide attempts, 9% reported one prior attempt, 18.2% reported multiple attempts, and 1.2% had an unknown number of suicide attempts. During the 3-month window of the second study, 6.0% of participants had at least one suicide attempt.
The researchers said that while the CASSY instrument may be advantageous for some emergency departments, “a standard screen such as the ASQ, which consists of fewer items, may be preferred in some settings, particularly those in which the cost and technical setup of a computerized adaptive screen poses too high a barrier.”
Dr. King and colleagues concluded.
Climbing adolescent suicide rate
In an interview, Igor Galynker, MD, PhD, professor in the department of psychiatry, and director of the suicide lab and the Zirinsky Center for Bipolar Disorder at the Icahn School of Medicine at Mount Sinai, New York, said the study by Dr. King and colleagues is important during a time when the suicide rate for adolescents is substantially increasing.
According to data from the CDC’s Web-based Injury Statistics Query and Reporting System, 1,750 adolescents died of suicide in 2018, and the rate of deaths by suicide has increased by 62% since the year 2000. “The issue really needs to be addressed,” said Dr. Galynker, who was not involved with the study.
Some methods of screening suicidal ideation that open with a direct question can miss suicide attempts in individuals who do not express these suicidal ideations, he explained, and the problem can be magnified in adolescent patients. “This is particularly difficult with adolescents because they’re notoriously poor historians. They cannot describe their feelings as well. It’s even more important to have methods that work for suicide prevention for adolescents and to support those predictors which do not rely on self-report,” he said.
Dr. Galynker said that CASSY is innovative because asking whether the patient is suicidal is not the “gateway question” and does not categorize people into groups determined to be at low, medium, or high risk for a suicide attempt.
“When you categorize people – adolescents in this particular case – you remove clinical judgment from [the] clinician. You deprive [the] clinician of exercising their clinical judgment in terms of somebody is or is not likely to die by suicide. That’s a serious problem,” he said, noting it may be one reason why these screening tools have difficulty identifying patients at risk of suicide.
Regarding limitations, the 3-month follow-up window for patients in the study may be too long to be clinically meaningful.
“If somebody is in treatment, 3 months is a long time. You want to know whether somebody is going to attempt suicide before the next time you see them, which is usually a month or a week,” he said.
But a strength of the CASSY instrument, Dr. Galynker said, is its ability to capture the patient’s mental state in the moment, as opposed to relying only a patient’s electronic medical record. The study also demonstrates “it should be possible to introduce detailed suicide risk assessment in the emergency rooms, and [it] should be done,” he said.
This study was funded with support from the Health Resources and Services Administration, the Maternal and Child Health Bureau, and the Emergency Medical Services for Children Network Development Demonstration Program, and a grant by the National Institute of Mental Health for the Emergency Department Screen for Teens at Risk for Suicide. Twelve authors reported personal and institutional relationships in the form of fees, grants, consultancies, royalties, copyrighted work, founding of technologies, and scientific council memberships for a variety of agencies, societies, foundations, and other organizations inside and outside of the study. Dr. Galynker reported his work unrelated to the study is supported by the National Institute of Mental Health and the American Foundation for Suicide Prevention. But he has no proprietary interests.
FROM JAMA PSYCHIATRY
Being in the now
Mindfulness as an intervention in challenging, changing, and uncertain times
The COVID-19 pandemic, multiple national displays of racial and social injustice, and recent political strife have left many feeling uncertain, anxious, sad, angry, grief-stricken, and struggling to cope. Coping may be especially difficult for our clients already grappling with mental health concerns, and many are looking to mental health professionals to restore a sense of well-being.
As professionals, we may be unsure about the best approach; after all, we haven’t experienced anything like this before! We’re facing many unknowns and unanswered questions, but one thing we do know is that we’re dealing with constant change. And, in fact, the only certainty is continued change and uncertainty. The truth of uncertainty can be challenging to contend with, especially when so much, including our country’s future, is in question. In times like this, there is likely no perfect treatment, but mindfulness can serve as a powerful intervention for coping with uncertainty and change, and for managing a range of difficult reactions.
The ‘what’ of mindfulness: Awareness, being in the now, and nonattachment
It’s crucial that we understand what mindfulness really is. It’s become something of a buzzword in American society, complete with misconceptions. Mindfulness has roots in many faith traditions, but as it’s practiced in the Western world, it usually has roots in Hinduism and Buddhism.
Mindfulness roughly means “awareness”; this is an approximate translation of the Pali (an ancient Indian language) word “Sati.” Mindfulness is moment-to-moment awareness and acceptance of our present experiences, thoughts, and feelings, without judgment or attachment. Attachment relates to the continually changing nature of all thoughts, feelings, and situations. Because everything is continuously changing, we needn’t become attached; attachment can keep us from being in the now. Acceptance means facing the now, which is essential when we feel tempted to avoid or deny painful feelings or situations. Acceptance doesn’t mean that we’ve resigned to being in pain forever; it merely means that we’re willing to see things as they actually are right now. This honest assessment of the present can prepare us for next steps.
Being in touch with the now helps us reconnect with ourselves, promote clarity about our situation and choices, and increases our awareness of our thoughts and feelings, moment to moment. It can also help us realize when we’ve fallen into unhelpful or catastrophic thinking, the risk of which is high during intense stress and uncertainty like what we’re facing now. Mindfulness helps us catch ourselves so we have the opportunity to make different choices, and feel better.
The how of mindfulness: Symptom management and changes in the brain
Research on mindfulness suggests that it can improve coping with anxiety,1 regulate mood,2 improve depression,3 reduce rumination,4 and mitigate trauma symptom severity.
Because mindfulness can effectively address psychiatric concerns, mindfulness-based clinical interventions such as mindfulness-based stress reduction and mindfulness-based cognitive therapy have been developed. These may reduce anxiety,5 depression, and posttraumatic stress disorder.6 Mindfulness can have a powerful impact on the brain; it’s been shown to improve the functioning of the regions associated with emotional regulation7 and change the regions related to awareness and fear.8 So, whether mindfulness is practiced in our clients’ everyday lives or used as the basis of therapeutic programs, it can promote well-being.
The how of mindfulness: In everyday life and treatment
How can we help our clients enjoy mindfulness’ benefits? I suggest that we start with ourselves. We’ll be more effective at guiding our clients in using mindfulness if we have our own experience.
And, mindfulness may help us to be more attentive to and effective in treatment. There is research demonstrating that treatment providers can benefit from mindfulness practices,9 and that clinicians who practice mindfulness report higher levels of empathy toward their clients.10 Because mindfulness is about attention and nonjudgmental and nonattached observation, it can be incorporated into many aspects of everyday life. Many options are available; we might encourage our clients to begin their day with a mindful pause, simply breathing and observing thoughts, feelings, sensations, or anything else that comes up. If they find themselves fixated on negative thinking or feelings, nonjudgmentally recognizing these experiences as temporary can help to prevent immersion and overwhelm. , perhaps during tasks such as housekeeping, working, talking with others, exercising, and even eating.
It can be beneficial to practice mindfulness before, during, and after situations that our clients know may bring on increased stress, anxiety, negative mood, and other undesirable experiences, such as watching the news or using some forms of social media. For clients who want more structure or guidance, several mobile apps are available, such as InsightTimer, Ten Percent Happier, or for Black clients, Liberate, which may be especially helpful for the impacts of racial injustice. Apps may also help clients who want to establish a formal mindfulness meditation practice, which may decrease anxiety and depression in some clinical populations.11 And, of course, with training, we can incorporate mindfulness into treatment. We may encourage clients to start our treatment or therapy sessions with a mindful pause to help them attain calm and focus, and depending on their concerns and needs, during times at which they feel particularly strong emotions. Clients may consider taking a Mindfulness-Based Stress Reduction course if something more intensive is needed, or clinicians may consider becoming trained in mindfulness-based cognitive therapy. Because recognition is increasing that mindfulness can address many clinical concerns, and because we’re contending with unprecedented challenges, mindfulness training for clinicians has become widely available.
Calm, clarity, and choices
None of us as individuals can eliminate the strife our country is living through, and none of us as clinicians can completely prevent or alleviate our clients’ pain. But by employing mindfulness, we can help clients cope with change and uncertainty, gain greater awareness of themselves and their experiences, feel calmer, attain more clarity to make better choices, and ultimately, feel better.
References
1. Bernstein A et al. J Cogn Psychother. 2011;25(2):99-113.
2. Remmers C et al. Mindfulness. 2016;7(4):829-37.
3. Rodrigues MF et al. Trends Psychiatry Psychother. Jul-Sep 2017;39(3):207-15.
4. Chambers R et al. Cogn Ther Res. 2008;32(3):303-22.
5. Montero-Marin et al. Psychol Med. 2019 Oct;49(13)2118-33.
6. Khusid MA, Vythilingam M. Mil Med. 2016 Sep;181(9):961-8.
7. Kral TRA et al. Neuroimage. 2018 Nov 1;181:301-13.
8. Desbordes G et al. Front Hum Neurosci. 2012 Nov 1. doi: 10.33891/fnhum.2012.00292.
9. Escuriex BF, Labbé EE. Mindfulness. 2011;2(4):242-53.
10. Aiken GA. Dissertation Abstracts Int Sec B: Sci Eng. 2006;67(4-B),2212.
11. Goyal M et al. JAMA Intern Med. 2014 Mar;174:357-68.
Dr. Collins is a Brooklyn-based licensed counseling psychologist, educator, and speaker. She is experienced in addressing a wide range of mental health concerns within youth, adult, and family populations. Her work has a strong social justice emphasis, and she is particularly skilled at working with clients of color. She has been a mindfulness practitioner for 10 years and is passionate about sharing the practice with others. Dr. Collins has no conflicts of interest.
Mindfulness as an intervention in challenging, changing, and uncertain times
Mindfulness as an intervention in challenging, changing, and uncertain times
The COVID-19 pandemic, multiple national displays of racial and social injustice, and recent political strife have left many feeling uncertain, anxious, sad, angry, grief-stricken, and struggling to cope. Coping may be especially difficult for our clients already grappling with mental health concerns, and many are looking to mental health professionals to restore a sense of well-being.
As professionals, we may be unsure about the best approach; after all, we haven’t experienced anything like this before! We’re facing many unknowns and unanswered questions, but one thing we do know is that we’re dealing with constant change. And, in fact, the only certainty is continued change and uncertainty. The truth of uncertainty can be challenging to contend with, especially when so much, including our country’s future, is in question. In times like this, there is likely no perfect treatment, but mindfulness can serve as a powerful intervention for coping with uncertainty and change, and for managing a range of difficult reactions.
The ‘what’ of mindfulness: Awareness, being in the now, and nonattachment
It’s crucial that we understand what mindfulness really is. It’s become something of a buzzword in American society, complete with misconceptions. Mindfulness has roots in many faith traditions, but as it’s practiced in the Western world, it usually has roots in Hinduism and Buddhism.
Mindfulness roughly means “awareness”; this is an approximate translation of the Pali (an ancient Indian language) word “Sati.” Mindfulness is moment-to-moment awareness and acceptance of our present experiences, thoughts, and feelings, without judgment or attachment. Attachment relates to the continually changing nature of all thoughts, feelings, and situations. Because everything is continuously changing, we needn’t become attached; attachment can keep us from being in the now. Acceptance means facing the now, which is essential when we feel tempted to avoid or deny painful feelings or situations. Acceptance doesn’t mean that we’ve resigned to being in pain forever; it merely means that we’re willing to see things as they actually are right now. This honest assessment of the present can prepare us for next steps.
Being in touch with the now helps us reconnect with ourselves, promote clarity about our situation and choices, and increases our awareness of our thoughts and feelings, moment to moment. It can also help us realize when we’ve fallen into unhelpful or catastrophic thinking, the risk of which is high during intense stress and uncertainty like what we’re facing now. Mindfulness helps us catch ourselves so we have the opportunity to make different choices, and feel better.
The how of mindfulness: Symptom management and changes in the brain
Research on mindfulness suggests that it can improve coping with anxiety,1 regulate mood,2 improve depression,3 reduce rumination,4 and mitigate trauma symptom severity.
Because mindfulness can effectively address psychiatric concerns, mindfulness-based clinical interventions such as mindfulness-based stress reduction and mindfulness-based cognitive therapy have been developed. These may reduce anxiety,5 depression, and posttraumatic stress disorder.6 Mindfulness can have a powerful impact on the brain; it’s been shown to improve the functioning of the regions associated with emotional regulation7 and change the regions related to awareness and fear.8 So, whether mindfulness is practiced in our clients’ everyday lives or used as the basis of therapeutic programs, it can promote well-being.
The how of mindfulness: In everyday life and treatment
How can we help our clients enjoy mindfulness’ benefits? I suggest that we start with ourselves. We’ll be more effective at guiding our clients in using mindfulness if we have our own experience.
And, mindfulness may help us to be more attentive to and effective in treatment. There is research demonstrating that treatment providers can benefit from mindfulness practices,9 and that clinicians who practice mindfulness report higher levels of empathy toward their clients.10 Because mindfulness is about attention and nonjudgmental and nonattached observation, it can be incorporated into many aspects of everyday life. Many options are available; we might encourage our clients to begin their day with a mindful pause, simply breathing and observing thoughts, feelings, sensations, or anything else that comes up. If they find themselves fixated on negative thinking or feelings, nonjudgmentally recognizing these experiences as temporary can help to prevent immersion and overwhelm. , perhaps during tasks such as housekeeping, working, talking with others, exercising, and even eating.
It can be beneficial to practice mindfulness before, during, and after situations that our clients know may bring on increased stress, anxiety, negative mood, and other undesirable experiences, such as watching the news or using some forms of social media. For clients who want more structure or guidance, several mobile apps are available, such as InsightTimer, Ten Percent Happier, or for Black clients, Liberate, which may be especially helpful for the impacts of racial injustice. Apps may also help clients who want to establish a formal mindfulness meditation practice, which may decrease anxiety and depression in some clinical populations.11 And, of course, with training, we can incorporate mindfulness into treatment. We may encourage clients to start our treatment or therapy sessions with a mindful pause to help them attain calm and focus, and depending on their concerns and needs, during times at which they feel particularly strong emotions. Clients may consider taking a Mindfulness-Based Stress Reduction course if something more intensive is needed, or clinicians may consider becoming trained in mindfulness-based cognitive therapy. Because recognition is increasing that mindfulness can address many clinical concerns, and because we’re contending with unprecedented challenges, mindfulness training for clinicians has become widely available.
Calm, clarity, and choices
None of us as individuals can eliminate the strife our country is living through, and none of us as clinicians can completely prevent or alleviate our clients’ pain. But by employing mindfulness, we can help clients cope with change and uncertainty, gain greater awareness of themselves and their experiences, feel calmer, attain more clarity to make better choices, and ultimately, feel better.
References
1. Bernstein A et al. J Cogn Psychother. 2011;25(2):99-113.
2. Remmers C et al. Mindfulness. 2016;7(4):829-37.
3. Rodrigues MF et al. Trends Psychiatry Psychother. Jul-Sep 2017;39(3):207-15.
4. Chambers R et al. Cogn Ther Res. 2008;32(3):303-22.
5. Montero-Marin et al. Psychol Med. 2019 Oct;49(13)2118-33.
6. Khusid MA, Vythilingam M. Mil Med. 2016 Sep;181(9):961-8.
7. Kral TRA et al. Neuroimage. 2018 Nov 1;181:301-13.
8. Desbordes G et al. Front Hum Neurosci. 2012 Nov 1. doi: 10.33891/fnhum.2012.00292.
9. Escuriex BF, Labbé EE. Mindfulness. 2011;2(4):242-53.
10. Aiken GA. Dissertation Abstracts Int Sec B: Sci Eng. 2006;67(4-B),2212.
11. Goyal M et al. JAMA Intern Med. 2014 Mar;174:357-68.
Dr. Collins is a Brooklyn-based licensed counseling psychologist, educator, and speaker. She is experienced in addressing a wide range of mental health concerns within youth, adult, and family populations. Her work has a strong social justice emphasis, and she is particularly skilled at working with clients of color. She has been a mindfulness practitioner for 10 years and is passionate about sharing the practice with others. Dr. Collins has no conflicts of interest.
The COVID-19 pandemic, multiple national displays of racial and social injustice, and recent political strife have left many feeling uncertain, anxious, sad, angry, grief-stricken, and struggling to cope. Coping may be especially difficult for our clients already grappling with mental health concerns, and many are looking to mental health professionals to restore a sense of well-being.
As professionals, we may be unsure about the best approach; after all, we haven’t experienced anything like this before! We’re facing many unknowns and unanswered questions, but one thing we do know is that we’re dealing with constant change. And, in fact, the only certainty is continued change and uncertainty. The truth of uncertainty can be challenging to contend with, especially when so much, including our country’s future, is in question. In times like this, there is likely no perfect treatment, but mindfulness can serve as a powerful intervention for coping with uncertainty and change, and for managing a range of difficult reactions.
The ‘what’ of mindfulness: Awareness, being in the now, and nonattachment
It’s crucial that we understand what mindfulness really is. It’s become something of a buzzword in American society, complete with misconceptions. Mindfulness has roots in many faith traditions, but as it’s practiced in the Western world, it usually has roots in Hinduism and Buddhism.
Mindfulness roughly means “awareness”; this is an approximate translation of the Pali (an ancient Indian language) word “Sati.” Mindfulness is moment-to-moment awareness and acceptance of our present experiences, thoughts, and feelings, without judgment or attachment. Attachment relates to the continually changing nature of all thoughts, feelings, and situations. Because everything is continuously changing, we needn’t become attached; attachment can keep us from being in the now. Acceptance means facing the now, which is essential when we feel tempted to avoid or deny painful feelings or situations. Acceptance doesn’t mean that we’ve resigned to being in pain forever; it merely means that we’re willing to see things as they actually are right now. This honest assessment of the present can prepare us for next steps.
Being in touch with the now helps us reconnect with ourselves, promote clarity about our situation and choices, and increases our awareness of our thoughts and feelings, moment to moment. It can also help us realize when we’ve fallen into unhelpful or catastrophic thinking, the risk of which is high during intense stress and uncertainty like what we’re facing now. Mindfulness helps us catch ourselves so we have the opportunity to make different choices, and feel better.
The how of mindfulness: Symptom management and changes in the brain
Research on mindfulness suggests that it can improve coping with anxiety,1 regulate mood,2 improve depression,3 reduce rumination,4 and mitigate trauma symptom severity.
Because mindfulness can effectively address psychiatric concerns, mindfulness-based clinical interventions such as mindfulness-based stress reduction and mindfulness-based cognitive therapy have been developed. These may reduce anxiety,5 depression, and posttraumatic stress disorder.6 Mindfulness can have a powerful impact on the brain; it’s been shown to improve the functioning of the regions associated with emotional regulation7 and change the regions related to awareness and fear.8 So, whether mindfulness is practiced in our clients’ everyday lives or used as the basis of therapeutic programs, it can promote well-being.
The how of mindfulness: In everyday life and treatment
How can we help our clients enjoy mindfulness’ benefits? I suggest that we start with ourselves. We’ll be more effective at guiding our clients in using mindfulness if we have our own experience.
And, mindfulness may help us to be more attentive to and effective in treatment. There is research demonstrating that treatment providers can benefit from mindfulness practices,9 and that clinicians who practice mindfulness report higher levels of empathy toward their clients.10 Because mindfulness is about attention and nonjudgmental and nonattached observation, it can be incorporated into many aspects of everyday life. Many options are available; we might encourage our clients to begin their day with a mindful pause, simply breathing and observing thoughts, feelings, sensations, or anything else that comes up. If they find themselves fixated on negative thinking or feelings, nonjudgmentally recognizing these experiences as temporary can help to prevent immersion and overwhelm. , perhaps during tasks such as housekeeping, working, talking with others, exercising, and even eating.
It can be beneficial to practice mindfulness before, during, and after situations that our clients know may bring on increased stress, anxiety, negative mood, and other undesirable experiences, such as watching the news or using some forms of social media. For clients who want more structure or guidance, several mobile apps are available, such as InsightTimer, Ten Percent Happier, or for Black clients, Liberate, which may be especially helpful for the impacts of racial injustice. Apps may also help clients who want to establish a formal mindfulness meditation practice, which may decrease anxiety and depression in some clinical populations.11 And, of course, with training, we can incorporate mindfulness into treatment. We may encourage clients to start our treatment or therapy sessions with a mindful pause to help them attain calm and focus, and depending on their concerns and needs, during times at which they feel particularly strong emotions. Clients may consider taking a Mindfulness-Based Stress Reduction course if something more intensive is needed, or clinicians may consider becoming trained in mindfulness-based cognitive therapy. Because recognition is increasing that mindfulness can address many clinical concerns, and because we’re contending with unprecedented challenges, mindfulness training for clinicians has become widely available.
Calm, clarity, and choices
None of us as individuals can eliminate the strife our country is living through, and none of us as clinicians can completely prevent or alleviate our clients’ pain. But by employing mindfulness, we can help clients cope with change and uncertainty, gain greater awareness of themselves and their experiences, feel calmer, attain more clarity to make better choices, and ultimately, feel better.
References
1. Bernstein A et al. J Cogn Psychother. 2011;25(2):99-113.
2. Remmers C et al. Mindfulness. 2016;7(4):829-37.
3. Rodrigues MF et al. Trends Psychiatry Psychother. Jul-Sep 2017;39(3):207-15.
4. Chambers R et al. Cogn Ther Res. 2008;32(3):303-22.
5. Montero-Marin et al. Psychol Med. 2019 Oct;49(13)2118-33.
6. Khusid MA, Vythilingam M. Mil Med. 2016 Sep;181(9):961-8.
7. Kral TRA et al. Neuroimage. 2018 Nov 1;181:301-13.
8. Desbordes G et al. Front Hum Neurosci. 2012 Nov 1. doi: 10.33891/fnhum.2012.00292.
9. Escuriex BF, Labbé EE. Mindfulness. 2011;2(4):242-53.
10. Aiken GA. Dissertation Abstracts Int Sec B: Sci Eng. 2006;67(4-B),2212.
11. Goyal M et al. JAMA Intern Med. 2014 Mar;174:357-68.
Dr. Collins is a Brooklyn-based licensed counseling psychologist, educator, and speaker. She is experienced in addressing a wide range of mental health concerns within youth, adult, and family populations. Her work has a strong social justice emphasis, and she is particularly skilled at working with clients of color. She has been a mindfulness practitioner for 10 years and is passionate about sharing the practice with others. Dr. Collins has no conflicts of interest.
Psychiatrists’ happiness, well-being hit hard by COVID-19
Events of the past year have taken a huge toll on the happiness, wellness, and lifestyles of many, but especially those in the health care field, including psychiatrists.
The newly released Medscape Psychiatrist Lifestyle, Happiness & Burnout Report 2021 reveals how psychiatrists are coping with burnout and trying to maintain personal wellness, and how they view their workplaces and their futures amid the ongoing COVID-19 pandemic.
Before the pandemic hit in March 2020, 84% of psychiatrists who responded to the survey reported being happy outside of work, similar to the percentage (82%) of physicians overall.
But as the pandemic has worn on, feelings have shifted, and there are clear signs of strain on those in the health care field. Now, just over half (55%) of psychiatrists say they are happy outside of work, similar to the percentage (58%) of physicians overall.
Perhaps not surprising given the specific challenges of COVID-19, infectious disease physicians, pulmonologists, rheumatologists, and intensivists currently rank lowest in happiness outside of work.
Anxiety, depression, burnout
With the ongoing COVID-19 pandemic, more than three quarters (77%) of psychiatrists surveyed report experiencing some degree of anxiety about their future, the same percentage as for physicians overall.
This year, more psychiatrists reported being either burned out or burned out and depressed (41% vs. 35% last year). About two-thirds of psychiatrists said burnout has had at least a moderate impact on their lives; 5% consider the impact so severe that they are thinking of leaving medicine altogether.
The majority of burned-out psychiatrists (63%) said they felt that way even before the pandemic began; for about one-third (37%), burnout set in after the pandemic began.
in the workplace (39%) and spending too many hours at work (37%).
Psychiatrists’ top tactic to cope with burnout is talking with family or friends (53%), followed by isolating themselves from others (51%), sleeping (45%), and exercising (43%); 42% said they eat junk food to cope; 35% play music; and 25% drink alcohol.
Most psychiatrists (63%) suffering burnout and/or depression don’t plan on seeking professional help. About one-third are currently seeking help or plan to do so, the highest proportion among all specialties.
Considering their symptoms not severe enough (57%) and feeling that they could deal with the problem on their own (41%) are the top reasons for not seeking professional help; 36% said they were too busy to get help, and 17% said they didn’t want to risk disclosing a problem.
Fifteen percent of psychiatrists who are burned out, depressed, or both have contemplated suicide, and 2% have attempted suicide.
Striving for work-life balance
Work-life balance is the most pressing workplace issue for 45% of psychiatrists, and 44% would sacrifice some of their salary for better work-life balance. These figures are about the same for physicians overall.
Forty-seven percent of psychiatrists take 3-4 weeks of vacation each year; 16% take 5 or more weeks. In this there was no change from last year’s report.
About one-third (35%) of psychiatrists generally make time to focus on their own well-being, the same proportion as physicians overall.
About two-thirds (68%) of psychiatrists exercise two or more times per week. Half of psychiatrists said they are currently trying to lose weight; about one-quarter are trying to maintain their current weight.
About one-quarter (26%) of psychiatrists said they do not drink alcohol at all; 17% have five or more drinks per week.
Most psychiatrists are currently in a committed relationship, with 81% either married or living with a partner. Among psychiatrists who are married or living with a partner, 43% are with someone who also works in medicine. About 81% of psychiatrists say their marriages are very good or good. These percentages are similar to those of physicians overall (85%).
Most psychiatrists (58%) spend up to 10 hours per week online for personal reasons; 82% spend this amount of time online each week for work.
It’s likely that the amount of time spent online for work will increase, given the pandemic-fueled surge in telemedicine. Yet even when their personal and professional Internet use are combined, psychiatrists, on average, spend far less time online than the nearly 7 hours per day of the average Internet user, according to recent data.
Findings from the latest happiness, wellness, and lifestyle survey are based on 12,339 Medscape member physicians practicing in the United States who completed an online survey conducted between Aug. 30 and Nov. 5, 2020.
A version of this article first appeared on Medscape.com.
Events of the past year have taken a huge toll on the happiness, wellness, and lifestyles of many, but especially those in the health care field, including psychiatrists.
The newly released Medscape Psychiatrist Lifestyle, Happiness & Burnout Report 2021 reveals how psychiatrists are coping with burnout and trying to maintain personal wellness, and how they view their workplaces and their futures amid the ongoing COVID-19 pandemic.
Before the pandemic hit in March 2020, 84% of psychiatrists who responded to the survey reported being happy outside of work, similar to the percentage (82%) of physicians overall.
But as the pandemic has worn on, feelings have shifted, and there are clear signs of strain on those in the health care field. Now, just over half (55%) of psychiatrists say they are happy outside of work, similar to the percentage (58%) of physicians overall.
Perhaps not surprising given the specific challenges of COVID-19, infectious disease physicians, pulmonologists, rheumatologists, and intensivists currently rank lowest in happiness outside of work.
Anxiety, depression, burnout
With the ongoing COVID-19 pandemic, more than three quarters (77%) of psychiatrists surveyed report experiencing some degree of anxiety about their future, the same percentage as for physicians overall.
This year, more psychiatrists reported being either burned out or burned out and depressed (41% vs. 35% last year). About two-thirds of psychiatrists said burnout has had at least a moderate impact on their lives; 5% consider the impact so severe that they are thinking of leaving medicine altogether.
The majority of burned-out psychiatrists (63%) said they felt that way even before the pandemic began; for about one-third (37%), burnout set in after the pandemic began.
in the workplace (39%) and spending too many hours at work (37%).
Psychiatrists’ top tactic to cope with burnout is talking with family or friends (53%), followed by isolating themselves from others (51%), sleeping (45%), and exercising (43%); 42% said they eat junk food to cope; 35% play music; and 25% drink alcohol.
Most psychiatrists (63%) suffering burnout and/or depression don’t plan on seeking professional help. About one-third are currently seeking help or plan to do so, the highest proportion among all specialties.
Considering their symptoms not severe enough (57%) and feeling that they could deal with the problem on their own (41%) are the top reasons for not seeking professional help; 36% said they were too busy to get help, and 17% said they didn’t want to risk disclosing a problem.
Fifteen percent of psychiatrists who are burned out, depressed, or both have contemplated suicide, and 2% have attempted suicide.
Striving for work-life balance
Work-life balance is the most pressing workplace issue for 45% of psychiatrists, and 44% would sacrifice some of their salary for better work-life balance. These figures are about the same for physicians overall.
Forty-seven percent of psychiatrists take 3-4 weeks of vacation each year; 16% take 5 or more weeks. In this there was no change from last year’s report.
About one-third (35%) of psychiatrists generally make time to focus on their own well-being, the same proportion as physicians overall.
About two-thirds (68%) of psychiatrists exercise two or more times per week. Half of psychiatrists said they are currently trying to lose weight; about one-quarter are trying to maintain their current weight.
About one-quarter (26%) of psychiatrists said they do not drink alcohol at all; 17% have five or more drinks per week.
Most psychiatrists are currently in a committed relationship, with 81% either married or living with a partner. Among psychiatrists who are married or living with a partner, 43% are with someone who also works in medicine. About 81% of psychiatrists say their marriages are very good or good. These percentages are similar to those of physicians overall (85%).
Most psychiatrists (58%) spend up to 10 hours per week online for personal reasons; 82% spend this amount of time online each week for work.
It’s likely that the amount of time spent online for work will increase, given the pandemic-fueled surge in telemedicine. Yet even when their personal and professional Internet use are combined, psychiatrists, on average, spend far less time online than the nearly 7 hours per day of the average Internet user, according to recent data.
Findings from the latest happiness, wellness, and lifestyle survey are based on 12,339 Medscape member physicians practicing in the United States who completed an online survey conducted between Aug. 30 and Nov. 5, 2020.
A version of this article first appeared on Medscape.com.
Events of the past year have taken a huge toll on the happiness, wellness, and lifestyles of many, but especially those in the health care field, including psychiatrists.
The newly released Medscape Psychiatrist Lifestyle, Happiness & Burnout Report 2021 reveals how psychiatrists are coping with burnout and trying to maintain personal wellness, and how they view their workplaces and their futures amid the ongoing COVID-19 pandemic.
Before the pandemic hit in March 2020, 84% of psychiatrists who responded to the survey reported being happy outside of work, similar to the percentage (82%) of physicians overall.
But as the pandemic has worn on, feelings have shifted, and there are clear signs of strain on those in the health care field. Now, just over half (55%) of psychiatrists say they are happy outside of work, similar to the percentage (58%) of physicians overall.
Perhaps not surprising given the specific challenges of COVID-19, infectious disease physicians, pulmonologists, rheumatologists, and intensivists currently rank lowest in happiness outside of work.
Anxiety, depression, burnout
With the ongoing COVID-19 pandemic, more than three quarters (77%) of psychiatrists surveyed report experiencing some degree of anxiety about their future, the same percentage as for physicians overall.
This year, more psychiatrists reported being either burned out or burned out and depressed (41% vs. 35% last year). About two-thirds of psychiatrists said burnout has had at least a moderate impact on their lives; 5% consider the impact so severe that they are thinking of leaving medicine altogether.
The majority of burned-out psychiatrists (63%) said they felt that way even before the pandemic began; for about one-third (37%), burnout set in after the pandemic began.
in the workplace (39%) and spending too many hours at work (37%).
Psychiatrists’ top tactic to cope with burnout is talking with family or friends (53%), followed by isolating themselves from others (51%), sleeping (45%), and exercising (43%); 42% said they eat junk food to cope; 35% play music; and 25% drink alcohol.
Most psychiatrists (63%) suffering burnout and/or depression don’t plan on seeking professional help. About one-third are currently seeking help or plan to do so, the highest proportion among all specialties.
Considering their symptoms not severe enough (57%) and feeling that they could deal with the problem on their own (41%) are the top reasons for not seeking professional help; 36% said they were too busy to get help, and 17% said they didn’t want to risk disclosing a problem.
Fifteen percent of psychiatrists who are burned out, depressed, or both have contemplated suicide, and 2% have attempted suicide.
Striving for work-life balance
Work-life balance is the most pressing workplace issue for 45% of psychiatrists, and 44% would sacrifice some of their salary for better work-life balance. These figures are about the same for physicians overall.
Forty-seven percent of psychiatrists take 3-4 weeks of vacation each year; 16% take 5 or more weeks. In this there was no change from last year’s report.
About one-third (35%) of psychiatrists generally make time to focus on their own well-being, the same proportion as physicians overall.
About two-thirds (68%) of psychiatrists exercise two or more times per week. Half of psychiatrists said they are currently trying to lose weight; about one-quarter are trying to maintain their current weight.
About one-quarter (26%) of psychiatrists said they do not drink alcohol at all; 17% have five or more drinks per week.
Most psychiatrists are currently in a committed relationship, with 81% either married or living with a partner. Among psychiatrists who are married or living with a partner, 43% are with someone who also works in medicine. About 81% of psychiatrists say their marriages are very good or good. These percentages are similar to those of physicians overall (85%).
Most psychiatrists (58%) spend up to 10 hours per week online for personal reasons; 82% spend this amount of time online each week for work.
It’s likely that the amount of time spent online for work will increase, given the pandemic-fueled surge in telemedicine. Yet even when their personal and professional Internet use are combined, psychiatrists, on average, spend far less time online than the nearly 7 hours per day of the average Internet user, according to recent data.
Findings from the latest happiness, wellness, and lifestyle survey are based on 12,339 Medscape member physicians practicing in the United States who completed an online survey conducted between Aug. 30 and Nov. 5, 2020.
A version of this article first appeared on Medscape.com.
Emerging research shows link between suicidality, ‘high-potency’ cannabis products
Number of suicides positive for marijuana on rise soared among Colorado youth
In the days since recreational sales of marijuana became legal in Colorado in January 2014, concerning trends have emerged among the state’s young cannabis users.
According to a report from the Rocky Mountain High Intensity Drug Trafficking Area, between 2014 and 2017, the number of suicides positive for marijuana increased 250% among those aged 10-19 years (from 4 to 14) and 22% among those aged 20 and older (from 118 to 144). “Other states are seeing something similar, and there is an emerging research showing a relationship between suicidality and the use of marijuana, especially high-potency products that are available in legalized markets,” Paula D. Riggs, MD, reported during an annual psychopharmacology update held by the Nevada Psychiatric Association.
During that same 3-year time span, the proportion of Colorado youth aged 12 years and older who used marijuana in the past month jumped by 45%, which is more than 85% above the national average. “Similarly, among college-age students, we’ve seen an 18% increase in past-month marijuana use, which is 60% above the national average,” said Dr. Riggs, professor and vice chair of psychiatry at the University of Colorado at Denver, Aurora.
Among adolescents, state health officials have observed a 5% increase in the proportion of those who used marijuana in the past month, which is more than 54% above the national average. “But a concerning trend is that we’re seeing an increase in the use of concentrates such as dabs and waxes,” she said. “That’s worrisome in terms of exposure to high-potency products.”
In other findings, 48% of young marijuana users reported going to work high (40% at least once per week), and there has been a 170% increase in youth ED urgent care visits for marijuana-related illnesses such as cannabinoid hyperemesis syndrome or first-episode psychosis. State health officials have also observed a 148% increase in marijuana-related hospitalizations.
According to Dr. Riggs, who also directs the University of Colorado’s division of addiction science, prevention, and treatment, the average marijuana joint in the 1960s contained about 3% tetrahydrocannabinol (THC), a level that crept up to the 4%-6% range in 2002. In today’s postlegalization era, the average joint now contains 13%-23% THC. “What’s concerning is that the concentrates – the dabs, waxes, shatter, and butane hash oils – contain upward of 70%-95% THC,” Dr. Riggs said. “Those are highly potent products that represent about 25% of the market share now. That’s a very big concern because the higher the potency the cannabis product used, the greater the abuse liability and addictive potential.”
The use of high-potency products also doubles the risk of developing generalized anxiety disorder, triples the risk of tobacco dependence, doubles the risk of other illicit substance disorders, and it at least quadruples the risk of developing first-episode psychosis in young people. “So, when you’re taking a cannabis use history, it’s important to ask patients about the potency of the products being used,” she said.
In the 2019 Monitoring the Future survey, 12% of U.S. 8th graders self-reported marijuana use in the past year and 7% in the past month, compared with 29% and 18% of 10th graders, respectively. Self-reported use by 12th graders was even more elevated (36% in the past year and 29% in the past month). “The concern is, this survey doesn’t really capture what’s happening with marijuana concentrates,” Dr. Riggs said.
A survey of Colorado youth conducted by the state’s Department of Public Health and Environment found that the percentage of students who reported using concentrated forms of marijuana has risen steadily in recent years and now stands at roughly 34%. “The use of edibles has also crept up,” said Dr. Riggs, who noted that marijuana dispensaries in Colorado outnumber Starbucks locations and McDonald’s restaurants. “You might not think that’s particularly concerning, except that the use of edibles is even more associated with onset of psychosis than other forms. This is probably because when you eat a marijuana product, you can’t control the exposure or the dose that you’re ingesting. We need to be concerned about these trends.”
European studies report that 30%-50% of new cases of first-onset psychosis are attributed to high-potency cannabis. “There is a dose-response relationship between cannabis and psychosis,” Dr. Riggs said. “That is, the frequency and duration of cannabis use, or the use of high-potency products, and the age of onset, are strongly associated with the risk of first-episode psychosis.
Researchers have known for some time that alterations in the endocannabinoid system are associated with psychosis independent of cannabis exposure. “Dysregulation of that endocannabinoid system occurs in patients at all stages of the psychosis continuum,” she continued. “It also means that the endocannabinoid system is a potential therapeutic target for psychosis.”
According to Dr. Riggs, THC exposure acutely increases dopamine in the ventral striatum and it can produce transient psychotomimetic effects in clinical and nonclinical populations. Genetic differences in the dopaminergic system can also interact with cannabis use to increase the risk of psychosis.
“For example, the COMT (catechol-O-methyltransferase) breaks down catecholamines such as dopamine in the prefrontal cortex,” she explained. “If you have a COMT gene polymorphism, that increases your risk of developing psychosis due to increased levels of dopamine signaling.”
She emphasized the importance of clinicians to understand that the age of cannabis use onset, the duration, frequency, and THC potency is related to the psychosis risk and worse prognosis. The earlier the initiation of marijuana use, the greater potential for first-episode psychosis. “Those who continue using cannabis after a first-episode psychosis have greater severity of psychotic illness and more treatment resistance, and they’re less likely to engage or be compliant with treatment recommendations,” Dr. Riggs said. “So, Because if they resume cannabis use, this can turn into a more chronic psychotic disorder.”
She added that, while insufficient evidence exists to determine whether cannabis plays a causal role in the development of schizophrenia or not, mounting evidence suggests that cannabis use may precipitate earlier onset of schizophrenia in those with other risk factors for the disorder. “There is considerable evidence that cannabis use increases the risk of psychosis in a dose-related manner, especially with an onset before age 16,” Dr. Riggs said. “However, this does not mean that cannabis is safe for young adults. Cannabis-induced psychotic symptoms often develop during young adulthood and may become chronic.”
Dr. Riggs disclosed that she had received grant funding from the National Institute on Drug Abuse. She is also executive director for Encompass, which provides integrated treatment for adolescents and young adults.
Number of suicides positive for marijuana on rise soared among Colorado youth
Number of suicides positive for marijuana on rise soared among Colorado youth
In the days since recreational sales of marijuana became legal in Colorado in January 2014, concerning trends have emerged among the state’s young cannabis users.
According to a report from the Rocky Mountain High Intensity Drug Trafficking Area, between 2014 and 2017, the number of suicides positive for marijuana increased 250% among those aged 10-19 years (from 4 to 14) and 22% among those aged 20 and older (from 118 to 144). “Other states are seeing something similar, and there is an emerging research showing a relationship between suicidality and the use of marijuana, especially high-potency products that are available in legalized markets,” Paula D. Riggs, MD, reported during an annual psychopharmacology update held by the Nevada Psychiatric Association.
During that same 3-year time span, the proportion of Colorado youth aged 12 years and older who used marijuana in the past month jumped by 45%, which is more than 85% above the national average. “Similarly, among college-age students, we’ve seen an 18% increase in past-month marijuana use, which is 60% above the national average,” said Dr. Riggs, professor and vice chair of psychiatry at the University of Colorado at Denver, Aurora.
Among adolescents, state health officials have observed a 5% increase in the proportion of those who used marijuana in the past month, which is more than 54% above the national average. “But a concerning trend is that we’re seeing an increase in the use of concentrates such as dabs and waxes,” she said. “That’s worrisome in terms of exposure to high-potency products.”
In other findings, 48% of young marijuana users reported going to work high (40% at least once per week), and there has been a 170% increase in youth ED urgent care visits for marijuana-related illnesses such as cannabinoid hyperemesis syndrome or first-episode psychosis. State health officials have also observed a 148% increase in marijuana-related hospitalizations.
According to Dr. Riggs, who also directs the University of Colorado’s division of addiction science, prevention, and treatment, the average marijuana joint in the 1960s contained about 3% tetrahydrocannabinol (THC), a level that crept up to the 4%-6% range in 2002. In today’s postlegalization era, the average joint now contains 13%-23% THC. “What’s concerning is that the concentrates – the dabs, waxes, shatter, and butane hash oils – contain upward of 70%-95% THC,” Dr. Riggs said. “Those are highly potent products that represent about 25% of the market share now. That’s a very big concern because the higher the potency the cannabis product used, the greater the abuse liability and addictive potential.”
The use of high-potency products also doubles the risk of developing generalized anxiety disorder, triples the risk of tobacco dependence, doubles the risk of other illicit substance disorders, and it at least quadruples the risk of developing first-episode psychosis in young people. “So, when you’re taking a cannabis use history, it’s important to ask patients about the potency of the products being used,” she said.
In the 2019 Monitoring the Future survey, 12% of U.S. 8th graders self-reported marijuana use in the past year and 7% in the past month, compared with 29% and 18% of 10th graders, respectively. Self-reported use by 12th graders was even more elevated (36% in the past year and 29% in the past month). “The concern is, this survey doesn’t really capture what’s happening with marijuana concentrates,” Dr. Riggs said.
A survey of Colorado youth conducted by the state’s Department of Public Health and Environment found that the percentage of students who reported using concentrated forms of marijuana has risen steadily in recent years and now stands at roughly 34%. “The use of edibles has also crept up,” said Dr. Riggs, who noted that marijuana dispensaries in Colorado outnumber Starbucks locations and McDonald’s restaurants. “You might not think that’s particularly concerning, except that the use of edibles is even more associated with onset of psychosis than other forms. This is probably because when you eat a marijuana product, you can’t control the exposure or the dose that you’re ingesting. We need to be concerned about these trends.”
European studies report that 30%-50% of new cases of first-onset psychosis are attributed to high-potency cannabis. “There is a dose-response relationship between cannabis and psychosis,” Dr. Riggs said. “That is, the frequency and duration of cannabis use, or the use of high-potency products, and the age of onset, are strongly associated with the risk of first-episode psychosis.
Researchers have known for some time that alterations in the endocannabinoid system are associated with psychosis independent of cannabis exposure. “Dysregulation of that endocannabinoid system occurs in patients at all stages of the psychosis continuum,” she continued. “It also means that the endocannabinoid system is a potential therapeutic target for psychosis.”
According to Dr. Riggs, THC exposure acutely increases dopamine in the ventral striatum and it can produce transient psychotomimetic effects in clinical and nonclinical populations. Genetic differences in the dopaminergic system can also interact with cannabis use to increase the risk of psychosis.
“For example, the COMT (catechol-O-methyltransferase) breaks down catecholamines such as dopamine in the prefrontal cortex,” she explained. “If you have a COMT gene polymorphism, that increases your risk of developing psychosis due to increased levels of dopamine signaling.”
She emphasized the importance of clinicians to understand that the age of cannabis use onset, the duration, frequency, and THC potency is related to the psychosis risk and worse prognosis. The earlier the initiation of marijuana use, the greater potential for first-episode psychosis. “Those who continue using cannabis after a first-episode psychosis have greater severity of psychotic illness and more treatment resistance, and they’re less likely to engage or be compliant with treatment recommendations,” Dr. Riggs said. “So, Because if they resume cannabis use, this can turn into a more chronic psychotic disorder.”
She added that, while insufficient evidence exists to determine whether cannabis plays a causal role in the development of schizophrenia or not, mounting evidence suggests that cannabis use may precipitate earlier onset of schizophrenia in those with other risk factors for the disorder. “There is considerable evidence that cannabis use increases the risk of psychosis in a dose-related manner, especially with an onset before age 16,” Dr. Riggs said. “However, this does not mean that cannabis is safe for young adults. Cannabis-induced psychotic symptoms often develop during young adulthood and may become chronic.”
Dr. Riggs disclosed that she had received grant funding from the National Institute on Drug Abuse. She is also executive director for Encompass, which provides integrated treatment for adolescents and young adults.
In the days since recreational sales of marijuana became legal in Colorado in January 2014, concerning trends have emerged among the state’s young cannabis users.
According to a report from the Rocky Mountain High Intensity Drug Trafficking Area, between 2014 and 2017, the number of suicides positive for marijuana increased 250% among those aged 10-19 years (from 4 to 14) and 22% among those aged 20 and older (from 118 to 144). “Other states are seeing something similar, and there is an emerging research showing a relationship between suicidality and the use of marijuana, especially high-potency products that are available in legalized markets,” Paula D. Riggs, MD, reported during an annual psychopharmacology update held by the Nevada Psychiatric Association.
During that same 3-year time span, the proportion of Colorado youth aged 12 years and older who used marijuana in the past month jumped by 45%, which is more than 85% above the national average. “Similarly, among college-age students, we’ve seen an 18% increase in past-month marijuana use, which is 60% above the national average,” said Dr. Riggs, professor and vice chair of psychiatry at the University of Colorado at Denver, Aurora.
Among adolescents, state health officials have observed a 5% increase in the proportion of those who used marijuana in the past month, which is more than 54% above the national average. “But a concerning trend is that we’re seeing an increase in the use of concentrates such as dabs and waxes,” she said. “That’s worrisome in terms of exposure to high-potency products.”
In other findings, 48% of young marijuana users reported going to work high (40% at least once per week), and there has been a 170% increase in youth ED urgent care visits for marijuana-related illnesses such as cannabinoid hyperemesis syndrome or first-episode psychosis. State health officials have also observed a 148% increase in marijuana-related hospitalizations.
According to Dr. Riggs, who also directs the University of Colorado’s division of addiction science, prevention, and treatment, the average marijuana joint in the 1960s contained about 3% tetrahydrocannabinol (THC), a level that crept up to the 4%-6% range in 2002. In today’s postlegalization era, the average joint now contains 13%-23% THC. “What’s concerning is that the concentrates – the dabs, waxes, shatter, and butane hash oils – contain upward of 70%-95% THC,” Dr. Riggs said. “Those are highly potent products that represent about 25% of the market share now. That’s a very big concern because the higher the potency the cannabis product used, the greater the abuse liability and addictive potential.”
The use of high-potency products also doubles the risk of developing generalized anxiety disorder, triples the risk of tobacco dependence, doubles the risk of other illicit substance disorders, and it at least quadruples the risk of developing first-episode psychosis in young people. “So, when you’re taking a cannabis use history, it’s important to ask patients about the potency of the products being used,” she said.
In the 2019 Monitoring the Future survey, 12% of U.S. 8th graders self-reported marijuana use in the past year and 7% in the past month, compared with 29% and 18% of 10th graders, respectively. Self-reported use by 12th graders was even more elevated (36% in the past year and 29% in the past month). “The concern is, this survey doesn’t really capture what’s happening with marijuana concentrates,” Dr. Riggs said.
A survey of Colorado youth conducted by the state’s Department of Public Health and Environment found that the percentage of students who reported using concentrated forms of marijuana has risen steadily in recent years and now stands at roughly 34%. “The use of edibles has also crept up,” said Dr. Riggs, who noted that marijuana dispensaries in Colorado outnumber Starbucks locations and McDonald’s restaurants. “You might not think that’s particularly concerning, except that the use of edibles is even more associated with onset of psychosis than other forms. This is probably because when you eat a marijuana product, you can’t control the exposure or the dose that you’re ingesting. We need to be concerned about these trends.”
European studies report that 30%-50% of new cases of first-onset psychosis are attributed to high-potency cannabis. “There is a dose-response relationship between cannabis and psychosis,” Dr. Riggs said. “That is, the frequency and duration of cannabis use, or the use of high-potency products, and the age of onset, are strongly associated with the risk of first-episode psychosis.
Researchers have known for some time that alterations in the endocannabinoid system are associated with psychosis independent of cannabis exposure. “Dysregulation of that endocannabinoid system occurs in patients at all stages of the psychosis continuum,” she continued. “It also means that the endocannabinoid system is a potential therapeutic target for psychosis.”
According to Dr. Riggs, THC exposure acutely increases dopamine in the ventral striatum and it can produce transient psychotomimetic effects in clinical and nonclinical populations. Genetic differences in the dopaminergic system can also interact with cannabis use to increase the risk of psychosis.
“For example, the COMT (catechol-O-methyltransferase) breaks down catecholamines such as dopamine in the prefrontal cortex,” she explained. “If you have a COMT gene polymorphism, that increases your risk of developing psychosis due to increased levels of dopamine signaling.”
She emphasized the importance of clinicians to understand that the age of cannabis use onset, the duration, frequency, and THC potency is related to the psychosis risk and worse prognosis. The earlier the initiation of marijuana use, the greater potential for first-episode psychosis. “Those who continue using cannabis after a first-episode psychosis have greater severity of psychotic illness and more treatment resistance, and they’re less likely to engage or be compliant with treatment recommendations,” Dr. Riggs said. “So, Because if they resume cannabis use, this can turn into a more chronic psychotic disorder.”
She added that, while insufficient evidence exists to determine whether cannabis plays a causal role in the development of schizophrenia or not, mounting evidence suggests that cannabis use may precipitate earlier onset of schizophrenia in those with other risk factors for the disorder. “There is considerable evidence that cannabis use increases the risk of psychosis in a dose-related manner, especially with an onset before age 16,” Dr. Riggs said. “However, this does not mean that cannabis is safe for young adults. Cannabis-induced psychotic symptoms often develop during young adulthood and may become chronic.”
Dr. Riggs disclosed that she had received grant funding from the National Institute on Drug Abuse. She is also executive director for Encompass, which provides integrated treatment for adolescents and young adults.
FROM NPA 2021
How does an emotionally drained workforce move on post pandemic?
Psychiatric community is facing ‘triple challenges’ tied to COVID
When cases of COVID-19 began to surge in New York City in March 2020, Carol A. Bernstein, MD, did her best to practice psychiatry and carry out administrative tasks from a home office, but by mid-May, she became stir-crazy.
“I just couldn’t stand it, anymore,” Dr. Bernstein said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “I came back to work at least just to see my colleagues, because I felt so disconnected. Normally, in a disaster, people come together – whether it’s responding to an earthquake or a fire or whatever. People come together to provide themselves with support. They hug each other and hold each other’s hands. We could not and cannot do that in this pandemic.”
According to Dr. Bernstein, stress, fear, and uncertainty triggered by the COVID-19 pandemic require special attention to the needs of health care personnel.
“Taking care of yourself and encouraging others to do the same sustains the ability to care for those in need,” said Dr. Bernstein, who is vice chair for faculty development and well-being in the departments of psychiatry and behavioral science and obstetrics and gynecology at Montefiore Medical Center/Albert Einstein College of Medicine, New York. “This includes both meeting practical needs as well as physical and emotional self-care. Everyone is impacted by this, so emotional support needs to be available to everyone. In the psychiatric community, we have triple challenges. We have to take care of our patients, our colleagues, and ourselves. It’s a lot.”
Specific challenges for health care workers include the potential for a surge in care demand and uncertainty about future outbreaks.
“Although we don’t have [personal protective] and respirator shortages at the moment, we’re worried about the vaccine shortages,” she said. Then there’s the fact that patients with comorbid conditions have the highest risk of death and the task of providing supportive care as well as medical care. “Of course, we still have a risk of becoming infected or infecting our families. There is additional psychological stress: fear, grief, frustration, guilt, insomnia, and exhaustion.”
Now, more than a year removed from the start of the pandemic, health care personnel are experiencing compassion fatigue, which she described as the inability to feel compassion for our patients because of our inability to feel compassion for ourselves. “We’re certainly experiencing burnout, although the primary aspect of burnout that we are experiencing is emotional exhaustion,” said Dr. Bernstein, who also is a past president of the American Psychiatric Association.
General risk factors for burnout and distress include sleep deprivation, high levels of work/life conflict, work interrupted by personal concerns, high levels of anger, loneliness, or anxiety, the stress of work relationships/work outcomes, anxiety about competency, difficulty “unplugging” after work, and regular use of alcohol and other drugs. At the same time, she continued, signs of burnout and secondary traumatic stress include sadness, depression, or apathy; feeling easily frustrated; feeling isolated and disconnected from others; excessive worry or fear about something bad happening; feeling like a failure, and feeling tired, exhausted, or overwhelmed.
“Why is this crisis so hard for us docs?” she asked. “Because This can lead to medical errors and unprofessional behavior. There are significant feelings of guilt that ‘I’m not doing enough.’
“This was true for a lot of us in psychiatry who were working virtually early during the pandemic while our medicine colleagues were on the front lines exposing themselves to COVID. Even the people working on the COVID units at the height on the initial surge felt guilty because treatment algorithms were changing almost every day. Fortunately, protocols are more established now, but the sense of not doing enough is pervasive and makes it difficult for us to ask for help.”
Fear of the unknown also posed a challenge to the workforce. “We didn’t know what we were dealing with at first,” she said. “The loss of control and autonomy, which is a major driver of burnout in the best of circumstances, was particularly true here in New York. People were told what to do. They were deployed into new circumstances. We experienced a significant loss of control, both of the virus and of what we were doing, and a widespread sense of isolation and loneliness.”
To cultivate resilience going forward, Dr. Bernstein advocates for the concept of psychological flexibility, which she defined as the ability to stay in contact with the present moment regardless of unpleasant thoughts, feelings, and bodily sensations, while choosing one’s behaviors based on the situation and personal values. “It is understanding that you can feel demoralized and bad one minute and better the next day,” she said. “This is a key concept for being able to continuously adapt under stressful circumstances and to tolerate uncertainty.”
She advises clinicians to identify safe areas and behaviors, and to maximize their ability to care for themselves and their families – including keeping in touch with colleagues and people you care about. “You also want to take advantage of calming skills and the maintenance of natural body rhythms,” she said. “This includes sensible nutrition and getting adequate rest and exercise.”
Dr. Bernstein also emphasized the importance of trying to maintain hope and optimism while not denying risk. “We also have to think about ethics, to provide the best possible care given the circumstances,” she said. “The crisis standards of care are necessarily different. We are not ethically required to offer futile care, but we must tell the truth.”
She pointed out that resilience is sometimes thought of as returning to the way you were before a stressful or life-altering event. “But here we refer to it as using your coping resources, connecting to others, and cultivating your values and purpose in life as you ride through this time of stress,” Dr. Bernstein said. “You are aware of the time it takes to develop and test for treatment and vaccine efficacy, and to then roll out these interventions, so you do know there will be an end to this, hopefully by the summer. While you won’t forget this time, focus on what you can control, your positive relationships, remind yourself of your purpose, and practice gratitude for what you are thankful for in your life. We need to cultivate what is positive and promote the message that emotional health should have the same priority level as physical health. The goal is to flourish.”
Dr. Bernstein reported having no financial disclosures.
Psychiatric community is facing ‘triple challenges’ tied to COVID
Psychiatric community is facing ‘triple challenges’ tied to COVID
When cases of COVID-19 began to surge in New York City in March 2020, Carol A. Bernstein, MD, did her best to practice psychiatry and carry out administrative tasks from a home office, but by mid-May, she became stir-crazy.
“I just couldn’t stand it, anymore,” Dr. Bernstein said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “I came back to work at least just to see my colleagues, because I felt so disconnected. Normally, in a disaster, people come together – whether it’s responding to an earthquake or a fire or whatever. People come together to provide themselves with support. They hug each other and hold each other’s hands. We could not and cannot do that in this pandemic.”
According to Dr. Bernstein, stress, fear, and uncertainty triggered by the COVID-19 pandemic require special attention to the needs of health care personnel.
“Taking care of yourself and encouraging others to do the same sustains the ability to care for those in need,” said Dr. Bernstein, who is vice chair for faculty development and well-being in the departments of psychiatry and behavioral science and obstetrics and gynecology at Montefiore Medical Center/Albert Einstein College of Medicine, New York. “This includes both meeting practical needs as well as physical and emotional self-care. Everyone is impacted by this, so emotional support needs to be available to everyone. In the psychiatric community, we have triple challenges. We have to take care of our patients, our colleagues, and ourselves. It’s a lot.”
Specific challenges for health care workers include the potential for a surge in care demand and uncertainty about future outbreaks.
“Although we don’t have [personal protective] and respirator shortages at the moment, we’re worried about the vaccine shortages,” she said. Then there’s the fact that patients with comorbid conditions have the highest risk of death and the task of providing supportive care as well as medical care. “Of course, we still have a risk of becoming infected or infecting our families. There is additional psychological stress: fear, grief, frustration, guilt, insomnia, and exhaustion.”
Now, more than a year removed from the start of the pandemic, health care personnel are experiencing compassion fatigue, which she described as the inability to feel compassion for our patients because of our inability to feel compassion for ourselves. “We’re certainly experiencing burnout, although the primary aspect of burnout that we are experiencing is emotional exhaustion,” said Dr. Bernstein, who also is a past president of the American Psychiatric Association.
General risk factors for burnout and distress include sleep deprivation, high levels of work/life conflict, work interrupted by personal concerns, high levels of anger, loneliness, or anxiety, the stress of work relationships/work outcomes, anxiety about competency, difficulty “unplugging” after work, and regular use of alcohol and other drugs. At the same time, she continued, signs of burnout and secondary traumatic stress include sadness, depression, or apathy; feeling easily frustrated; feeling isolated and disconnected from others; excessive worry or fear about something bad happening; feeling like a failure, and feeling tired, exhausted, or overwhelmed.
“Why is this crisis so hard for us docs?” she asked. “Because This can lead to medical errors and unprofessional behavior. There are significant feelings of guilt that ‘I’m not doing enough.’
“This was true for a lot of us in psychiatry who were working virtually early during the pandemic while our medicine colleagues were on the front lines exposing themselves to COVID. Even the people working on the COVID units at the height on the initial surge felt guilty because treatment algorithms were changing almost every day. Fortunately, protocols are more established now, but the sense of not doing enough is pervasive and makes it difficult for us to ask for help.”
Fear of the unknown also posed a challenge to the workforce. “We didn’t know what we were dealing with at first,” she said. “The loss of control and autonomy, which is a major driver of burnout in the best of circumstances, was particularly true here in New York. People were told what to do. They were deployed into new circumstances. We experienced a significant loss of control, both of the virus and of what we were doing, and a widespread sense of isolation and loneliness.”
To cultivate resilience going forward, Dr. Bernstein advocates for the concept of psychological flexibility, which she defined as the ability to stay in contact with the present moment regardless of unpleasant thoughts, feelings, and bodily sensations, while choosing one’s behaviors based on the situation and personal values. “It is understanding that you can feel demoralized and bad one minute and better the next day,” she said. “This is a key concept for being able to continuously adapt under stressful circumstances and to tolerate uncertainty.”
She advises clinicians to identify safe areas and behaviors, and to maximize their ability to care for themselves and their families – including keeping in touch with colleagues and people you care about. “You also want to take advantage of calming skills and the maintenance of natural body rhythms,” she said. “This includes sensible nutrition and getting adequate rest and exercise.”
Dr. Bernstein also emphasized the importance of trying to maintain hope and optimism while not denying risk. “We also have to think about ethics, to provide the best possible care given the circumstances,” she said. “The crisis standards of care are necessarily different. We are not ethically required to offer futile care, but we must tell the truth.”
She pointed out that resilience is sometimes thought of as returning to the way you were before a stressful or life-altering event. “But here we refer to it as using your coping resources, connecting to others, and cultivating your values and purpose in life as you ride through this time of stress,” Dr. Bernstein said. “You are aware of the time it takes to develop and test for treatment and vaccine efficacy, and to then roll out these interventions, so you do know there will be an end to this, hopefully by the summer. While you won’t forget this time, focus on what you can control, your positive relationships, remind yourself of your purpose, and practice gratitude for what you are thankful for in your life. We need to cultivate what is positive and promote the message that emotional health should have the same priority level as physical health. The goal is to flourish.”
Dr. Bernstein reported having no financial disclosures.
When cases of COVID-19 began to surge in New York City in March 2020, Carol A. Bernstein, MD, did her best to practice psychiatry and carry out administrative tasks from a home office, but by mid-May, she became stir-crazy.
“I just couldn’t stand it, anymore,” Dr. Bernstein said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “I came back to work at least just to see my colleagues, because I felt so disconnected. Normally, in a disaster, people come together – whether it’s responding to an earthquake or a fire or whatever. People come together to provide themselves with support. They hug each other and hold each other’s hands. We could not and cannot do that in this pandemic.”
According to Dr. Bernstein, stress, fear, and uncertainty triggered by the COVID-19 pandemic require special attention to the needs of health care personnel.
“Taking care of yourself and encouraging others to do the same sustains the ability to care for those in need,” said Dr. Bernstein, who is vice chair for faculty development and well-being in the departments of psychiatry and behavioral science and obstetrics and gynecology at Montefiore Medical Center/Albert Einstein College of Medicine, New York. “This includes both meeting practical needs as well as physical and emotional self-care. Everyone is impacted by this, so emotional support needs to be available to everyone. In the psychiatric community, we have triple challenges. We have to take care of our patients, our colleagues, and ourselves. It’s a lot.”
Specific challenges for health care workers include the potential for a surge in care demand and uncertainty about future outbreaks.
“Although we don’t have [personal protective] and respirator shortages at the moment, we’re worried about the vaccine shortages,” she said. Then there’s the fact that patients with comorbid conditions have the highest risk of death and the task of providing supportive care as well as medical care. “Of course, we still have a risk of becoming infected or infecting our families. There is additional psychological stress: fear, grief, frustration, guilt, insomnia, and exhaustion.”
Now, more than a year removed from the start of the pandemic, health care personnel are experiencing compassion fatigue, which she described as the inability to feel compassion for our patients because of our inability to feel compassion for ourselves. “We’re certainly experiencing burnout, although the primary aspect of burnout that we are experiencing is emotional exhaustion,” said Dr. Bernstein, who also is a past president of the American Psychiatric Association.
General risk factors for burnout and distress include sleep deprivation, high levels of work/life conflict, work interrupted by personal concerns, high levels of anger, loneliness, or anxiety, the stress of work relationships/work outcomes, anxiety about competency, difficulty “unplugging” after work, and regular use of alcohol and other drugs. At the same time, she continued, signs of burnout and secondary traumatic stress include sadness, depression, or apathy; feeling easily frustrated; feeling isolated and disconnected from others; excessive worry or fear about something bad happening; feeling like a failure, and feeling tired, exhausted, or overwhelmed.
“Why is this crisis so hard for us docs?” she asked. “Because This can lead to medical errors and unprofessional behavior. There are significant feelings of guilt that ‘I’m not doing enough.’
“This was true for a lot of us in psychiatry who were working virtually early during the pandemic while our medicine colleagues were on the front lines exposing themselves to COVID. Even the people working on the COVID units at the height on the initial surge felt guilty because treatment algorithms were changing almost every day. Fortunately, protocols are more established now, but the sense of not doing enough is pervasive and makes it difficult for us to ask for help.”
Fear of the unknown also posed a challenge to the workforce. “We didn’t know what we were dealing with at first,” she said. “The loss of control and autonomy, which is a major driver of burnout in the best of circumstances, was particularly true here in New York. People were told what to do. They were deployed into new circumstances. We experienced a significant loss of control, both of the virus and of what we were doing, and a widespread sense of isolation and loneliness.”
To cultivate resilience going forward, Dr. Bernstein advocates for the concept of psychological flexibility, which she defined as the ability to stay in contact with the present moment regardless of unpleasant thoughts, feelings, and bodily sensations, while choosing one’s behaviors based on the situation and personal values. “It is understanding that you can feel demoralized and bad one minute and better the next day,” she said. “This is a key concept for being able to continuously adapt under stressful circumstances and to tolerate uncertainty.”
She advises clinicians to identify safe areas and behaviors, and to maximize their ability to care for themselves and their families – including keeping in touch with colleagues and people you care about. “You also want to take advantage of calming skills and the maintenance of natural body rhythms,” she said. “This includes sensible nutrition and getting adequate rest and exercise.”
Dr. Bernstein also emphasized the importance of trying to maintain hope and optimism while not denying risk. “We also have to think about ethics, to provide the best possible care given the circumstances,” she said. “The crisis standards of care are necessarily different. We are not ethically required to offer futile care, but we must tell the truth.”
She pointed out that resilience is sometimes thought of as returning to the way you were before a stressful or life-altering event. “But here we refer to it as using your coping resources, connecting to others, and cultivating your values and purpose in life as you ride through this time of stress,” Dr. Bernstein said. “You are aware of the time it takes to develop and test for treatment and vaccine efficacy, and to then roll out these interventions, so you do know there will be an end to this, hopefully by the summer. While you won’t forget this time, focus on what you can control, your positive relationships, remind yourself of your purpose, and practice gratitude for what you are thankful for in your life. We need to cultivate what is positive and promote the message that emotional health should have the same priority level as physical health. The goal is to flourish.”
Dr. Bernstein reported having no financial disclosures.
FROM NPA 2021