Clinical Psychiatry News

This transcript has been edited for clarity. 

What do we do if we don’t like patients? We take the Hippocratic Oath as young students in Glasgow. We do that just before our graduation ceremony; we hold our hands up and repeat the Hippocratic Oath: “First, do no harm,” and so on.

What happens if we intensely dislike a patient? Is it possible to offer them the very best care? I was thinking back over a long career. I’ve been a cancer doctor for 40 years and I quite like saying that.

I can only think genuinely over a couple of times in which I’ve acted reflexively when a patient has done something awful. The couple of times it happened, it was just terrible racist comments to junior doctors who were with me. Extraordinarily dreadful things such as, “I don’t want to be touched by ...” or something of that sort.

Without really thinking about it, you react as a normal citizen and say, “That’s absolutely awful. Apologize immediately or leave the consultation room, and never ever come back again.” 

I remember that it happened once in Glasgow and once when I was a young professor in Birmingham, and it’s just an automatic gut reaction. The patient got a fright, and I immediately apologized and groveled around. In that relationship, we hold all the power, don’t we? Rather than being gentle about it, I was genuinely angry because of these ridiculous comments. 

Otherwise, I think most of the doctor-patient relationships are predicated on nonromantic love. I think patients want us to love them as one would a son, mother, father, or daughter, because if we do, then we will do better for them and we’ll pull out all the stops. “Placebo” means “I will please.” I think in the vast majority of cases, at least in our National Health Service (NHS), patients come with trust and a sense of wanting to build that relationship. That may be changing, but not for me. 

What about putting the boot on the other foot? What if the patients don’t like us rather than vice versa? As part of our accreditation appraisal process, from time to time we have to take patient surveys as to whether the patients felt that, after they had been seen in a consultation, they were treated with dignity, the quality of information given was appropriate, and they were treated with kindness. 

It’s an excellent exercise. Without bragging about it, patients objectively, according to these measures, appreciate the service that I give. It’s like getting five-star reviews on Trustpilot, or whatever these things are, that allow you to review car salesmen and so on. I have always had five-star reviews across the board. 

That, again, I thought was just a feature of that relationship, of patients wanting to please. These are patients who had been treated, who were in the outpatient department, who were in the midst of battle. Still, the scores are very high. I speak to my colleagues and that’s not uniformly the case. Patients actually do use these feedback forms, I think in a positive rather than negative way, reflecting back on the way that they were treated.

It has caused some of my colleagues to think quite hard about their personal style and approach to patients. That sense of feedback is important. 

What about losing trust? If that’s at the heart of everything that we do, then what would be an objective measure of losing trust? Again, in our healthcare system, it has been exceedingly unusual for a patient to request a second opinion. Now, that’s changing. The government is trying to change it. Leaders of the NHS are trying to change it so that patients feel assured that they can seek second opinions.

Again, in all the years I’ve been a cancer doctor, it has been incredibly infrequent that somebody has sought a second opinion after I’ve said something. That may be a measure of trust. Again, I’ve lived through an NHS in which seeking second opinions was something of a rarity. 

I’d be really interested to see what you think. In your own sphere of healthcare practice, is it possible for us to look after patients that we don’t like, or should we be honest and say, “I don’t like you. Our relationship has broken down. I want you to be seen by a colleague,” or “I want you to be nursed by somebody else”?

Has that happened? Is that something that you think is common or may become more common? What about when trust breaks down the other way? Can you think of instances in which the relationship, for whatever reason, just didn’t work and the patient had to move on because of that loss of trust and what underpinned it? I’d be really interested to know. 

I seek to be informed rather than the other way around. Can we truly look after patients that we don’t like or can we rise above it as Hippocrates might have done? 

Thanks for listening, as always. For the time being, over and out.

Dr. Kerr, Professor, Nuffield Department of Clinical Laboratory Science, University of Oxford; Professor of Cancer Medicine, Oxford Cancer Centre, Oxford, United Kingdom, disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers, Afrox, GlaxoSmithKline, Bayer HealthCare Pharmaceuticals, Genomic Health, Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

What do we do if we don’t like patients? We take the Hippocratic Oath as young students in Glasgow. We do that just before our graduation ceremony; we hold our hands up and repeat the Hippocratic Oath: “First, do no harm,” and so on.

What happens if we intensely dislike a patient? Is it possible to offer them the very best care? I was thinking back over a long career. I’ve been a cancer doctor for 40 years and I quite like saying that.

I can only think genuinely over a couple of times in which I’ve acted reflexively when a patient has done something awful. The couple of times it happened, it was just terrible racist comments to junior doctors who were with me. Extraordinarily dreadful things such as, “I don’t want to be touched by ...” or something of that sort.

Without really thinking about it, you react as a normal citizen and say, “That’s absolutely awful. Apologize immediately or leave the consultation room, and never ever come back again.” 

I remember that it happened once in Glasgow and once when I was a young professor in Birmingham, and it’s just an automatic gut reaction. The patient got a fright, and I immediately apologized and groveled around. In that relationship, we hold all the power, don’t we? Rather than being gentle about it, I was genuinely angry because of these ridiculous comments. 

Otherwise, I think most of the doctor-patient relationships are predicated on nonromantic love. I think patients want us to love them as one would a son, mother, father, or daughter, because if we do, then we will do better for them and we’ll pull out all the stops. “Placebo” means “I will please.” I think in the vast majority of cases, at least in our National Health Service (NHS), patients come with trust and a sense of wanting to build that relationship. That may be changing, but not for me. 

What about putting the boot on the other foot? What if the patients don’t like us rather than vice versa? As part of our accreditation appraisal process, from time to time we have to take patient surveys as to whether the patients felt that, after they had been seen in a consultation, they were treated with dignity, the quality of information given was appropriate, and they were treated with kindness. 

It’s an excellent exercise. Without bragging about it, patients objectively, according to these measures, appreciate the service that I give. It’s like getting five-star reviews on Trustpilot, or whatever these things are, that allow you to review car salesmen and so on. I have always had five-star reviews across the board. 

That, again, I thought was just a feature of that relationship, of patients wanting to please. These are patients who had been treated, who were in the outpatient department, who were in the midst of battle. Still, the scores are very high. I speak to my colleagues and that’s not uniformly the case. Patients actually do use these feedback forms, I think in a positive rather than negative way, reflecting back on the way that they were treated.

It has caused some of my colleagues to think quite hard about their personal style and approach to patients. That sense of feedback is important. 

What about losing trust? If that’s at the heart of everything that we do, then what would be an objective measure of losing trust? Again, in our healthcare system, it has been exceedingly unusual for a patient to request a second opinion. Now, that’s changing. The government is trying to change it. Leaders of the NHS are trying to change it so that patients feel assured that they can seek second opinions.

Again, in all the years I’ve been a cancer doctor, it has been incredibly infrequent that somebody has sought a second opinion after I’ve said something. That may be a measure of trust. Again, I’ve lived through an NHS in which seeking second opinions was something of a rarity. 

I’d be really interested to see what you think. In your own sphere of healthcare practice, is it possible for us to look after patients that we don’t like, or should we be honest and say, “I don’t like you. Our relationship has broken down. I want you to be seen by a colleague,” or “I want you to be nursed by somebody else”?

Has that happened? Is that something that you think is common or may become more common? What about when trust breaks down the other way? Can you think of instances in which the relationship, for whatever reason, just didn’t work and the patient had to move on because of that loss of trust and what underpinned it? I’d be really interested to know. 

I seek to be informed rather than the other way around. Can we truly look after patients that we don’t like or can we rise above it as Hippocrates might have done? 

Thanks for listening, as always. For the time being, over and out.

Dr. Kerr, Professor, Nuffield Department of Clinical Laboratory Science, University of Oxford; Professor of Cancer Medicine, Oxford Cancer Centre, Oxford, United Kingdom, disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers, Afrox, GlaxoSmithKline, Bayer HealthCare Pharmaceuticals, Genomic Health, Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

What do we do if we don’t like patients? We take the Hippocratic Oath as young students in Glasgow. We do that just before our graduation ceremony; we hold our hands up and repeat the Hippocratic Oath: “First, do no harm,” and so on.

What happens if we intensely dislike a patient? Is it possible to offer them the very best care? I was thinking back over a long career. I’ve been a cancer doctor for 40 years and I quite like saying that.

I can only think genuinely over a couple of times in which I’ve acted reflexively when a patient has done something awful. The couple of times it happened, it was just terrible racist comments to junior doctors who were with me. Extraordinarily dreadful things such as, “I don’t want to be touched by ...” or something of that sort.

Without really thinking about it, you react as a normal citizen and say, “That’s absolutely awful. Apologize immediately or leave the consultation room, and never ever come back again.” 

I remember that it happened once in Glasgow and once when I was a young professor in Birmingham, and it’s just an automatic gut reaction. The patient got a fright, and I immediately apologized and groveled around. In that relationship, we hold all the power, don’t we? Rather than being gentle about it, I was genuinely angry because of these ridiculous comments. 

Otherwise, I think most of the doctor-patient relationships are predicated on nonromantic love. I think patients want us to love them as one would a son, mother, father, or daughter, because if we do, then we will do better for them and we’ll pull out all the stops. “Placebo” means “I will please.” I think in the vast majority of cases, at least in our National Health Service (NHS), patients come with trust and a sense of wanting to build that relationship. That may be changing, but not for me. 

What about putting the boot on the other foot? What if the patients don’t like us rather than vice versa? As part of our accreditation appraisal process, from time to time we have to take patient surveys as to whether the patients felt that, after they had been seen in a consultation, they were treated with dignity, the quality of information given was appropriate, and they were treated with kindness. 

It’s an excellent exercise. Without bragging about it, patients objectively, according to these measures, appreciate the service that I give. It’s like getting five-star reviews on Trustpilot, or whatever these things are, that allow you to review car salesmen and so on. I have always had five-star reviews across the board. 

That, again, I thought was just a feature of that relationship, of patients wanting to please. These are patients who had been treated, who were in the outpatient department, who were in the midst of battle. Still, the scores are very high. I speak to my colleagues and that’s not uniformly the case. Patients actually do use these feedback forms, I think in a positive rather than negative way, reflecting back on the way that they were treated.

It has caused some of my colleagues to think quite hard about their personal style and approach to patients. That sense of feedback is important. 

What about losing trust? If that’s at the heart of everything that we do, then what would be an objective measure of losing trust? Again, in our healthcare system, it has been exceedingly unusual for a patient to request a second opinion. Now, that’s changing. The government is trying to change it. Leaders of the NHS are trying to change it so that patients feel assured that they can seek second opinions.

Again, in all the years I’ve been a cancer doctor, it has been incredibly infrequent that somebody has sought a second opinion after I’ve said something. That may be a measure of trust. Again, I’ve lived through an NHS in which seeking second opinions was something of a rarity. 

I’d be really interested to see what you think. In your own sphere of healthcare practice, is it possible for us to look after patients that we don’t like, or should we be honest and say, “I don’t like you. Our relationship has broken down. I want you to be seen by a colleague,” or “I want you to be nursed by somebody else”?

Has that happened? Is that something that you think is common or may become more common? What about when trust breaks down the other way? Can you think of instances in which the relationship, for whatever reason, just didn’t work and the patient had to move on because of that loss of trust and what underpinned it? I’d be really interested to know. 

I seek to be informed rather than the other way around. Can we truly look after patients that we don’t like or can we rise above it as Hippocrates might have done? 

Thanks for listening, as always. For the time being, over and out.

Dr. Kerr, Professor, Nuffield Department of Clinical Laboratory Science, University of Oxford; Professor of Cancer Medicine, Oxford Cancer Centre, Oxford, United Kingdom, disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers, Afrox, GlaxoSmithKline, Bayer HealthCare Pharmaceuticals, Genomic Health, Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

A new study provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) used to treat diabetes and obesity could be repurposed for opioid use disorder (OUD) and alcohol use disorder (AUD).

Researchers found that patients with OUD or AUD who were taking semaglutide (Ozempic, Novo Nordisk) or similar medications for diabetes or weight-related conditions had a 40% lower rate of opioid overdose and a 50% lower rate of alcohol intoxication than their peers with OUD or AUD who were not taking these medications.

Their real-world study of more than 1 million adults with a history of OUD or AUD provide “foundational” estimates of the association between glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 RA prescriptions and opioid overdose/alcohol intoxication “and introduce the idea that GLP-1 RA and other related drugs should be investigated as a novel pharmacotherapy treatment option for individuals with OUD or AUD,” wrote the investigators, led by Fares Qeadan, PhD, Parkinson School of Health Sciences and Public Health, Loyola University Chicago, Maywood, Illinois.

The study was published online in the journal Addiction.
 

Protective Effect?

As previously reported by Medscape Medical News, earlier studies have pointed to a link between weight loss drugs and reduced overdose risk in people with OUD and decreased alcohol intake in people with AUD.

Until now, most studies on GLP-1 RAs and GIP agonists like tirzepatide (Mounjaro) to treat substance use disorders consisted of animal studies and small-scale clinical trials, investigators noted.

This new retrospective cohort study analyzed de-identified electronic health record data from the Oracle Health Real-World Data.

Participants, all aged 18 years or older, included 503,747 patients with a history of OUD, of whom 8103 had a GLP-1 RA or GIP prescription, and 817,309 patients with a history of AUD, of whom 5621 had a GLP-1 RA or GIP prescription.

Patients with OUD who were prescribed GLP-1 RAs had a 40% lower rate of opioid overdose than those without such prescriptions (adjusted incidence rate ratio [aIRR], 0.60; 95% CI, 0.43-0.83), the study team found.

In addition, patients with AUD and a GLP-1 RA prescription exhibited a 50% lower rate of alcohol intoxication (aIRR, 0.50; 95% CI, 0.40-0.63).

The protective effect of GLP-1 RA on opioid overdose and alcohol intoxication was maintained across patients with comorbid conditions, such as type 2 diabetes and obesity.

“Future research should focus on prospective clinical trials to validate these findings, explore the underlying mechanisms, and determine the long-term efficacy and safety of GIP/GLP-1 RA medications in diverse populations,” Qeadan and colleagues concluded.

“Additionally, the study highlights the importance of interdisciplinary research in understanding the neurobiological links between metabolic disorders and problematic substance use, potentially leading to more effective treatment strategies within healthcare systems,” they added.
 

Questions Remain

In a statement from the UK nonprofit Science Media Centre, Matt Field, DPhil, professor of psychology, The University of Sheffield, in England, noted that the findings “add to those from other studies, particularly animal research, which suggest that this and similar drugs might one day be prescribed to help people with addiction.”

However, “a note of caution is that the outcomes are very extreme instances of substance intoxication,” added Field, who wasn’t involved in the study.

“Those outcomes are very different from the outcomes used when researchers test new treatments for addiction, in which case we might look at whether the treatment helps people to stop taking the substance altogether (complete abstinence), or if it helps people to reduce the amount of substance they consume, or how often they consume it. Those things could not be measured in this study,” he continued.

“This leaves open the possibility that while Ozempic may — for reasons currently unknown — prevent people from taking so much alcohol or heroin that they overdose and end up in hospital, it may not actually help them to reduce their substance use, or to abstain altogether,” Field said.

The study had no specific funding. The study authors and Field declared no relevant conflicts of interest.
 

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

A new study provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) used to treat diabetes and obesity could be repurposed for opioid use disorder (OUD) and alcohol use disorder (AUD).

Researchers found that patients with OUD or AUD who were taking semaglutide (Ozempic, Novo Nordisk) or similar medications for diabetes or weight-related conditions had a 40% lower rate of opioid overdose and a 50% lower rate of alcohol intoxication than their peers with OUD or AUD who were not taking these medications.

Their real-world study of more than 1 million adults with a history of OUD or AUD provide “foundational” estimates of the association between glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 RA prescriptions and opioid overdose/alcohol intoxication “and introduce the idea that GLP-1 RA and other related drugs should be investigated as a novel pharmacotherapy treatment option for individuals with OUD or AUD,” wrote the investigators, led by Fares Qeadan, PhD, Parkinson School of Health Sciences and Public Health, Loyola University Chicago, Maywood, Illinois.

The study was published online in the journal Addiction.
 

Protective Effect?

As previously reported by Medscape Medical News, earlier studies have pointed to a link between weight loss drugs and reduced overdose risk in people with OUD and decreased alcohol intake in people with AUD.

Until now, most studies on GLP-1 RAs and GIP agonists like tirzepatide (Mounjaro) to treat substance use disorders consisted of animal studies and small-scale clinical trials, investigators noted.

This new retrospective cohort study analyzed de-identified electronic health record data from the Oracle Health Real-World Data.

Participants, all aged 18 years or older, included 503,747 patients with a history of OUD, of whom 8103 had a GLP-1 RA or GIP prescription, and 817,309 patients with a history of AUD, of whom 5621 had a GLP-1 RA or GIP prescription.

Patients with OUD who were prescribed GLP-1 RAs had a 40% lower rate of opioid overdose than those without such prescriptions (adjusted incidence rate ratio [aIRR], 0.60; 95% CI, 0.43-0.83), the study team found.

In addition, patients with AUD and a GLP-1 RA prescription exhibited a 50% lower rate of alcohol intoxication (aIRR, 0.50; 95% CI, 0.40-0.63).

The protective effect of GLP-1 RA on opioid overdose and alcohol intoxication was maintained across patients with comorbid conditions, such as type 2 diabetes and obesity.

“Future research should focus on prospective clinical trials to validate these findings, explore the underlying mechanisms, and determine the long-term efficacy and safety of GIP/GLP-1 RA medications in diverse populations,” Qeadan and colleagues concluded.

“Additionally, the study highlights the importance of interdisciplinary research in understanding the neurobiological links between metabolic disorders and problematic substance use, potentially leading to more effective treatment strategies within healthcare systems,” they added.
 

Questions Remain

In a statement from the UK nonprofit Science Media Centre, Matt Field, DPhil, professor of psychology, The University of Sheffield, in England, noted that the findings “add to those from other studies, particularly animal research, which suggest that this and similar drugs might one day be prescribed to help people with addiction.”

However, “a note of caution is that the outcomes are very extreme instances of substance intoxication,” added Field, who wasn’t involved in the study.

“Those outcomes are very different from the outcomes used when researchers test new treatments for addiction, in which case we might look at whether the treatment helps people to stop taking the substance altogether (complete abstinence), or if it helps people to reduce the amount of substance they consume, or how often they consume it. Those things could not be measured in this study,” he continued.

“This leaves open the possibility that while Ozempic may — for reasons currently unknown — prevent people from taking so much alcohol or heroin that they overdose and end up in hospital, it may not actually help them to reduce their substance use, or to abstain altogether,” Field said.

The study had no specific funding. The study authors and Field declared no relevant conflicts of interest.
 

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

A new study provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) used to treat diabetes and obesity could be repurposed for opioid use disorder (OUD) and alcohol use disorder (AUD).

Researchers found that patients with OUD or AUD who were taking semaglutide (Ozempic, Novo Nordisk) or similar medications for diabetes or weight-related conditions had a 40% lower rate of opioid overdose and a 50% lower rate of alcohol intoxication than their peers with OUD or AUD who were not taking these medications.

Their real-world study of more than 1 million adults with a history of OUD or AUD provide “foundational” estimates of the association between glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 RA prescriptions and opioid overdose/alcohol intoxication “and introduce the idea that GLP-1 RA and other related drugs should be investigated as a novel pharmacotherapy treatment option for individuals with OUD or AUD,” wrote the investigators, led by Fares Qeadan, PhD, Parkinson School of Health Sciences and Public Health, Loyola University Chicago, Maywood, Illinois.

The study was published online in the journal Addiction.
 

Protective Effect?

As previously reported by Medscape Medical News, earlier studies have pointed to a link between weight loss drugs and reduced overdose risk in people with OUD and decreased alcohol intake in people with AUD.

Until now, most studies on GLP-1 RAs and GIP agonists like tirzepatide (Mounjaro) to treat substance use disorders consisted of animal studies and small-scale clinical trials, investigators noted.

This new retrospective cohort study analyzed de-identified electronic health record data from the Oracle Health Real-World Data.

Participants, all aged 18 years or older, included 503,747 patients with a history of OUD, of whom 8103 had a GLP-1 RA or GIP prescription, and 817,309 patients with a history of AUD, of whom 5621 had a GLP-1 RA or GIP prescription.

Patients with OUD who were prescribed GLP-1 RAs had a 40% lower rate of opioid overdose than those without such prescriptions (adjusted incidence rate ratio [aIRR], 0.60; 95% CI, 0.43-0.83), the study team found.

In addition, patients with AUD and a GLP-1 RA prescription exhibited a 50% lower rate of alcohol intoxication (aIRR, 0.50; 95% CI, 0.40-0.63).

The protective effect of GLP-1 RA on opioid overdose and alcohol intoxication was maintained across patients with comorbid conditions, such as type 2 diabetes and obesity.

“Future research should focus on prospective clinical trials to validate these findings, explore the underlying mechanisms, and determine the long-term efficacy and safety of GIP/GLP-1 RA medications in diverse populations,” Qeadan and colleagues concluded.

“Additionally, the study highlights the importance of interdisciplinary research in understanding the neurobiological links between metabolic disorders and problematic substance use, potentially leading to more effective treatment strategies within healthcare systems,” they added.
 

Questions Remain

In a statement from the UK nonprofit Science Media Centre, Matt Field, DPhil, professor of psychology, The University of Sheffield, in England, noted that the findings “add to those from other studies, particularly animal research, which suggest that this and similar drugs might one day be prescribed to help people with addiction.”

However, “a note of caution is that the outcomes are very extreme instances of substance intoxication,” added Field, who wasn’t involved in the study.

“Those outcomes are very different from the outcomes used when researchers test new treatments for addiction, in which case we might look at whether the treatment helps people to stop taking the substance altogether (complete abstinence), or if it helps people to reduce the amount of substance they consume, or how often they consume it. Those things could not be measured in this study,” he continued.

“This leaves open the possibility that while Ozempic may — for reasons currently unknown — prevent people from taking so much alcohol or heroin that they overdose and end up in hospital, it may not actually help them to reduce their substance use, or to abstain altogether,” Field said.

The study had no specific funding. The study authors and Field declared no relevant conflicts of interest.
 

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

Premenstrual disorders (PMDs), including premenstrual dysphoric disorder (PMDD), adversely affect the lives of millions of women worldwide. Most girls and women — as many as 80%-90%— will experience some premenstrual discomfort such as irritability, depressed mood, food or alcohol cravings, bloating, body aches, breast pain, constipation, or fatigue.

Diagnosable menstrual disorders include, collectively, premenstrual syndrome (PMS); PMDD, formerly called late luteal phase dysphoric disorder; and premenstrual worsening of another medical condition.

The most debilitating of these is PMDD, which has an estimated prevalence of about 4%-8% in women of reproductive age, according to obstetrician/gynecologist Hoosna Haque, MD, assistant professor of medicine at Columbia University Irving Medical Center in New York City.

“It’s difficult to be sure because this condition is underreported,” said Luu D. Ireland, MD, MPH, assistant professor of obstetrics and gynecology at UMass Memorial Medical Center in Worcester, Massachusetts. “But more women are coming forward, and there’s more discussion and media coverage of this condition.”

Occurring in the same post-follicular timeframe as PMS, PMDD takes cyclical discomfort to a more intense level, with a trifecta of affective comorbidities, somatic manifestations, and behavioral changes, all of which can seriously impair daily functioning, including work, physical activities, and personal relationships. Romantic and marital relationships can be particularly impaired.

Although recent cost figures are lacking, PMDs exact a considerable economic toll with increased direct healthcare costs from doctor visits and pharmaceuticals. A 2010 study found that US women with PMS were more likely to accrue in excess of $500 in healthcare visit costs over 2 years, and the figure would likely be higher today. PMDs also increase work/school absenteeism and reduce productivity.
 

Etiology

Brain areas that regulate emotion and behavior contain receptors for estrogen, progesterone, and other sex hormones, which affect the functioning of neurotransmitter systems influencing mood and thinking. Although the precise pathophysiology remains unclear, PMDD is likely multifactorial and results in a heightened sensitivity to normal fluctuations in estrogen and progesterone during the luteal phase of the menstrual cycle and dysfunction of the serotonin and gamma-aminobutyric acid neurotransmitter systems.

Patients with PMDD have lower levels of cortisol and beta-endorphins during both the follicular and luteal phases, suggesting abnormalities in the hypothalamic-pituitary-gonadal axis (HPGA), which is consistent with dysregulation in mood disorders.
 

Risk Factors

These include family history, past traumatic events, smoking, chronic pain syndrome, and obesity. There may be a genetic component as recent studies have suggested the involvement of the gene that codes for the serotonergic 5HT1A receptor and allelic variants of ESR1 in the development of PMS/PMDD.

A particularly concerning aspect of PMDs of any sort is their possible association with a higher risk for death from non-natural causes. In a recent Swedish study, which did not distinguish between PMDs in general and PMDD in particular, patients had an almost 60% greater risk for death from non-natural causes and nearly twice the risk for death by suicide compared with women without PMDs.

Those diagnosed with a PMD at an early age showed excess mortality, and the risk for suicide was elevated regardless of age. “These findings support the need for careful follow-up for young women with PMDs and the need for suicide prevention strategies,” wrote lead author Marion Opatowski, PhD, a medical epidemiologist at Karolinska Institutet in Stockholm, Sweden. “Women with severe PMDD should definitely be monitored for suicidal thoughts or behavior and they should have an emergency outreach plan in place,” Haque added.
 

Diagnosis

Although the somatic manifestations of PMDD resemble those of PMS, they are more severe and associated psychological symptoms are greater. “In my experience, PMDD symptoms can last the whole 2 weeks of the luteal phase, whereas PMS might occur a couple of days before menstruation,” said Ireland.

Symptoms include labile mood, nervousness, hopelessness, anger and aggressiveness, as well as tension and irritability. Those affected may have suicidal thoughts or even behaviors. In addition to a lethargic loss of interest in normal activities, patients with PMDD may feel paranoid, confused, exhausted, or out of control and experience insomnia or hypersomnia. They may have trouble concentrating or remembering. Some patients with PMDD may already be prone to attention-deficit/hyperactivity disorder and non–cycle-related depression, anxiety, and panic attacks.

Diagnosis is based on the presence of any five of the typical affective, somatic, or behavioral symptoms outlined above in the week before onset of menses.

“It’s important to do a careful diagnosis for PMDD and rule out other underlying conditions such as existing depressive or anxiety disorders,” said Haque. “Symptoms tend to be more intense in periods of high hormonal fluctuation such as in the postpartum and perimenopause periods. Women with PMDD should be monitored for postpartum depression.”

PMDD is considered both a gynecologic-genitourinary disorder and an affective condition.

In 2013, it was controversially included as a depressive disorder in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition. Strongly advocated by some patients, psychiatrists, and pharmaceutical companies, its inclusion was criticized by psychologists and generalists, who feared it would lead to overdiagnosis and pathologization of normal female hormonal changes. Women’s advocates protested that this inclusion would stigmatize female biology and harm their advance in society and the workplace, while some doctors continued to dismiss PMDD as not a serious concern.
 

Treatments

In its latest clinical practice guideline on PMDs, the American College of Obstetricians and Gynecologists (ACOG), for which Ireland served as the lead author, recommends that most patients with PMDD get medical treatment and outlines the following therapies, based on varying degrees of evidence strength.

Antidepressants. These may benefit patients with strong affective symptoms. Selective serotonin reuptake inhibitors such as sertraline (Zoloft), citalopram (Celexa), escitalopram (Lexapro), or fluoxetine (Prozac) are first choices.

Antidepressants may interrupt aberrant signaling in the HPGA, the circuit linking brain and ovaries and regulating the reproductive cycle. Serotonin norepinephrine reuptake inhibitor venlafaxine (Effexor) may also improve symptoms, but other types of antidepressants have not proven effective.

“The response to these well-tolerated drugs is rapid and can happen in the first 2 days,” said Ireland. The drugs may be taken either just in the luteal period or over the month, especially by patients with chronic depression or anxiety.

Hormonal therapy. ACOG recommends the use of combined oral contraceptives (COCs), gonadotropin-releasing hormone (GnRH) agonists to induce anovulation (with combined add-back hormones), progestin-only methods, and noncontraceptive continuous estrogen formulations. It notes, however, that COCs have not been more effective than placebo in reducing depressive symptom scores.

If symptoms do not improve over two to three cycles, an alternate therapy should be considered. Haque recommends an assessment after three cycles and then yearly.

Some women in her practice take both antidepressant and hormone therapy. “Unfortunately, there are no new pharmaceutical treatments on the horizon, but we have good ones already and we would love for patients to utilize them more often,” Ireland said.

Nonsteroidal anti-inflammatory drugs. Limited evidence shows these may reduce physical symptoms such as abdominal cramps, headaches, and general body aches, as well as some mood-related symptoms, which may be an indirect effect of pain alleviation.

Surgery. For women with the most severe intractable symptoms, bilateral oophorectomy with or without hysterectomy may be a last-resort option when medical management has failed. A trial period of GnRH agonist therapy (with or without adjunctive estrogen add-back treatment) is advised before surgery to predict a patient’s response to surgical management.

Acupuncture. ACOG suggests that acupuncture may help manage physical and affective premenstrual symptoms.

Diet. The usual dietary advice for premenstrual symptoms — such as consuming less caffeine, sugar, or alcohol and eating smaller, more frequent meals — is unlikely to help women with PMDD.

Exercise. Although it has not been well studied for PMDD, aerobic exercises such as walking, swimming, and biking tend to improve mood and energy levels in general. Exercise may reduce symptoms through several pathways, including effects on beta-endorphin, cortisol, and ovarian hormone levels.

Supplements. Vitamin B6, calcium and magnesium supplements, and herbal remedies are not supported by consistent or compelling evidence of efficacy. ACOG conditionally recommends calcium supplementation of 100-200 mg/d in adults to help manage physical and affective symptoms.

A small study suggested that supplemental zinc may improve both physical and psychological symptoms.

Cognitive-behavioral therapy. This treatment aims to interrupt negative and irrational thought patterns and may include awareness and education, as well as relaxation techniques, problem-solving and coping skills, and stress management. It has been associated with small to moderate improvement in anxiety and depression, said Ireland.

Peer support. Patients should consider joining a support group. The International Association for Premenstrual Disorders can help patients connect and develop coping skills.

The bottom line is that people with strong symptomatic evidence of PMDD should have medical intervention — to the benefit of their health and quality of life. Screening for PMDD should be part of women’s wellness examinations, said Ireland. “The impact of PMDD should not be minimized or dismissed,” said Haque. “And patients need to know there are very effective treatments.”

Ireland and Haque had no competing interests with regard to their comments.
 

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

Premenstrual disorders (PMDs), including premenstrual dysphoric disorder (PMDD), adversely affect the lives of millions of women worldwide. Most girls and women — as many as 80%-90%— will experience some premenstrual discomfort such as irritability, depressed mood, food or alcohol cravings, bloating, body aches, breast pain, constipation, or fatigue.

Diagnosable menstrual disorders include, collectively, premenstrual syndrome (PMS); PMDD, formerly called late luteal phase dysphoric disorder; and premenstrual worsening of another medical condition.

The most debilitating of these is PMDD, which has an estimated prevalence of about 4%-8% in women of reproductive age, according to obstetrician/gynecologist Hoosna Haque, MD, assistant professor of medicine at Columbia University Irving Medical Center in New York City.

“It’s difficult to be sure because this condition is underreported,” said Luu D. Ireland, MD, MPH, assistant professor of obstetrics and gynecology at UMass Memorial Medical Center in Worcester, Massachusetts. “But more women are coming forward, and there’s more discussion and media coverage of this condition.”

Occurring in the same post-follicular timeframe as PMS, PMDD takes cyclical discomfort to a more intense level, with a trifecta of affective comorbidities, somatic manifestations, and behavioral changes, all of which can seriously impair daily functioning, including work, physical activities, and personal relationships. Romantic and marital relationships can be particularly impaired.

Although recent cost figures are lacking, PMDs exact a considerable economic toll with increased direct healthcare costs from doctor visits and pharmaceuticals. A 2010 study found that US women with PMS were more likely to accrue in excess of $500 in healthcare visit costs over 2 years, and the figure would likely be higher today. PMDs also increase work/school absenteeism and reduce productivity.
 

Etiology

Brain areas that regulate emotion and behavior contain receptors for estrogen, progesterone, and other sex hormones, which affect the functioning of neurotransmitter systems influencing mood and thinking. Although the precise pathophysiology remains unclear, PMDD is likely multifactorial and results in a heightened sensitivity to normal fluctuations in estrogen and progesterone during the luteal phase of the menstrual cycle and dysfunction of the serotonin and gamma-aminobutyric acid neurotransmitter systems.

Patients with PMDD have lower levels of cortisol and beta-endorphins during both the follicular and luteal phases, suggesting abnormalities in the hypothalamic-pituitary-gonadal axis (HPGA), which is consistent with dysregulation in mood disorders.
 

Risk Factors

These include family history, past traumatic events, smoking, chronic pain syndrome, and obesity. There may be a genetic component as recent studies have suggested the involvement of the gene that codes for the serotonergic 5HT1A receptor and allelic variants of ESR1 in the development of PMS/PMDD.

A particularly concerning aspect of PMDs of any sort is their possible association with a higher risk for death from non-natural causes. In a recent Swedish study, which did not distinguish between PMDs in general and PMDD in particular, patients had an almost 60% greater risk for death from non-natural causes and nearly twice the risk for death by suicide compared with women without PMDs.

Those diagnosed with a PMD at an early age showed excess mortality, and the risk for suicide was elevated regardless of age. “These findings support the need for careful follow-up for young women with PMDs and the need for suicide prevention strategies,” wrote lead author Marion Opatowski, PhD, a medical epidemiologist at Karolinska Institutet in Stockholm, Sweden. “Women with severe PMDD should definitely be monitored for suicidal thoughts or behavior and they should have an emergency outreach plan in place,” Haque added.
 

Diagnosis

Although the somatic manifestations of PMDD resemble those of PMS, they are more severe and associated psychological symptoms are greater. “In my experience, PMDD symptoms can last the whole 2 weeks of the luteal phase, whereas PMS might occur a couple of days before menstruation,” said Ireland.

Symptoms include labile mood, nervousness, hopelessness, anger and aggressiveness, as well as tension and irritability. Those affected may have suicidal thoughts or even behaviors. In addition to a lethargic loss of interest in normal activities, patients with PMDD may feel paranoid, confused, exhausted, or out of control and experience insomnia or hypersomnia. They may have trouble concentrating or remembering. Some patients with PMDD may already be prone to attention-deficit/hyperactivity disorder and non–cycle-related depression, anxiety, and panic attacks.

Diagnosis is based on the presence of any five of the typical affective, somatic, or behavioral symptoms outlined above in the week before onset of menses.

“It’s important to do a careful diagnosis for PMDD and rule out other underlying conditions such as existing depressive or anxiety disorders,” said Haque. “Symptoms tend to be more intense in periods of high hormonal fluctuation such as in the postpartum and perimenopause periods. Women with PMDD should be monitored for postpartum depression.”

PMDD is considered both a gynecologic-genitourinary disorder and an affective condition.

In 2013, it was controversially included as a depressive disorder in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition. Strongly advocated by some patients, psychiatrists, and pharmaceutical companies, its inclusion was criticized by psychologists and generalists, who feared it would lead to overdiagnosis and pathologization of normal female hormonal changes. Women’s advocates protested that this inclusion would stigmatize female biology and harm their advance in society and the workplace, while some doctors continued to dismiss PMDD as not a serious concern.
 

Treatments

In its latest clinical practice guideline on PMDs, the American College of Obstetricians and Gynecologists (ACOG), for which Ireland served as the lead author, recommends that most patients with PMDD get medical treatment and outlines the following therapies, based on varying degrees of evidence strength.

Antidepressants. These may benefit patients with strong affective symptoms. Selective serotonin reuptake inhibitors such as sertraline (Zoloft), citalopram (Celexa), escitalopram (Lexapro), or fluoxetine (Prozac) are first choices.

Antidepressants may interrupt aberrant signaling in the HPGA, the circuit linking brain and ovaries and regulating the reproductive cycle. Serotonin norepinephrine reuptake inhibitor venlafaxine (Effexor) may also improve symptoms, but other types of antidepressants have not proven effective.

“The response to these well-tolerated drugs is rapid and can happen in the first 2 days,” said Ireland. The drugs may be taken either just in the luteal period or over the month, especially by patients with chronic depression or anxiety.

Hormonal therapy. ACOG recommends the use of combined oral contraceptives (COCs), gonadotropin-releasing hormone (GnRH) agonists to induce anovulation (with combined add-back hormones), progestin-only methods, and noncontraceptive continuous estrogen formulations. It notes, however, that COCs have not been more effective than placebo in reducing depressive symptom scores.

If symptoms do not improve over two to three cycles, an alternate therapy should be considered. Haque recommends an assessment after three cycles and then yearly.

Some women in her practice take both antidepressant and hormone therapy. “Unfortunately, there are no new pharmaceutical treatments on the horizon, but we have good ones already and we would love for patients to utilize them more often,” Ireland said.

Nonsteroidal anti-inflammatory drugs. Limited evidence shows these may reduce physical symptoms such as abdominal cramps, headaches, and general body aches, as well as some mood-related symptoms, which may be an indirect effect of pain alleviation.

Surgery. For women with the most severe intractable symptoms, bilateral oophorectomy with or without hysterectomy may be a last-resort option when medical management has failed. A trial period of GnRH agonist therapy (with or without adjunctive estrogen add-back treatment) is advised before surgery to predict a patient’s response to surgical management.

Acupuncture. ACOG suggests that acupuncture may help manage physical and affective premenstrual symptoms.

Diet. The usual dietary advice for premenstrual symptoms — such as consuming less caffeine, sugar, or alcohol and eating smaller, more frequent meals — is unlikely to help women with PMDD.

Exercise. Although it has not been well studied for PMDD, aerobic exercises such as walking, swimming, and biking tend to improve mood and energy levels in general. Exercise may reduce symptoms through several pathways, including effects on beta-endorphin, cortisol, and ovarian hormone levels.

Supplements. Vitamin B6, calcium and magnesium supplements, and herbal remedies are not supported by consistent or compelling evidence of efficacy. ACOG conditionally recommends calcium supplementation of 100-200 mg/d in adults to help manage physical and affective symptoms.

A small study suggested that supplemental zinc may improve both physical and psychological symptoms.

Cognitive-behavioral therapy. This treatment aims to interrupt negative and irrational thought patterns and may include awareness and education, as well as relaxation techniques, problem-solving and coping skills, and stress management. It has been associated with small to moderate improvement in anxiety and depression, said Ireland.

Peer support. Patients should consider joining a support group. The International Association for Premenstrual Disorders can help patients connect and develop coping skills.

The bottom line is that people with strong symptomatic evidence of PMDD should have medical intervention — to the benefit of their health and quality of life. Screening for PMDD should be part of women’s wellness examinations, said Ireland. “The impact of PMDD should not be minimized or dismissed,” said Haque. “And patients need to know there are very effective treatments.”

Ireland and Haque had no competing interests with regard to their comments.
 

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

Premenstrual disorders (PMDs), including premenstrual dysphoric disorder (PMDD), adversely affect the lives of millions of women worldwide. Most girls and women — as many as 80%-90%— will experience some premenstrual discomfort such as irritability, depressed mood, food or alcohol cravings, bloating, body aches, breast pain, constipation, or fatigue.

Diagnosable menstrual disorders include, collectively, premenstrual syndrome (PMS); PMDD, formerly called late luteal phase dysphoric disorder; and premenstrual worsening of another medical condition.

The most debilitating of these is PMDD, which has an estimated prevalence of about 4%-8% in women of reproductive age, according to obstetrician/gynecologist Hoosna Haque, MD, assistant professor of medicine at Columbia University Irving Medical Center in New York City.

“It’s difficult to be sure because this condition is underreported,” said Luu D. Ireland, MD, MPH, assistant professor of obstetrics and gynecology at UMass Memorial Medical Center in Worcester, Massachusetts. “But more women are coming forward, and there’s more discussion and media coverage of this condition.”

Occurring in the same post-follicular timeframe as PMS, PMDD takes cyclical discomfort to a more intense level, with a trifecta of affective comorbidities, somatic manifestations, and behavioral changes, all of which can seriously impair daily functioning, including work, physical activities, and personal relationships. Romantic and marital relationships can be particularly impaired.

Although recent cost figures are lacking, PMDs exact a considerable economic toll with increased direct healthcare costs from doctor visits and pharmaceuticals. A 2010 study found that US women with PMS were more likely to accrue in excess of $500 in healthcare visit costs over 2 years, and the figure would likely be higher today. PMDs also increase work/school absenteeism and reduce productivity.
 

Etiology

Brain areas that regulate emotion and behavior contain receptors for estrogen, progesterone, and other sex hormones, which affect the functioning of neurotransmitter systems influencing mood and thinking. Although the precise pathophysiology remains unclear, PMDD is likely multifactorial and results in a heightened sensitivity to normal fluctuations in estrogen and progesterone during the luteal phase of the menstrual cycle and dysfunction of the serotonin and gamma-aminobutyric acid neurotransmitter systems.

Patients with PMDD have lower levels of cortisol and beta-endorphins during both the follicular and luteal phases, suggesting abnormalities in the hypothalamic-pituitary-gonadal axis (HPGA), which is consistent with dysregulation in mood disorders.
 

Risk Factors

These include family history, past traumatic events, smoking, chronic pain syndrome, and obesity. There may be a genetic component as recent studies have suggested the involvement of the gene that codes for the serotonergic 5HT1A receptor and allelic variants of ESR1 in the development of PMS/PMDD.

A particularly concerning aspect of PMDs of any sort is their possible association with a higher risk for death from non-natural causes. In a recent Swedish study, which did not distinguish between PMDs in general and PMDD in particular, patients had an almost 60% greater risk for death from non-natural causes and nearly twice the risk for death by suicide compared with women without PMDs.

Those diagnosed with a PMD at an early age showed excess mortality, and the risk for suicide was elevated regardless of age. “These findings support the need for careful follow-up for young women with PMDs and the need for suicide prevention strategies,” wrote lead author Marion Opatowski, PhD, a medical epidemiologist at Karolinska Institutet in Stockholm, Sweden. “Women with severe PMDD should definitely be monitored for suicidal thoughts or behavior and they should have an emergency outreach plan in place,” Haque added.
 

Diagnosis

Although the somatic manifestations of PMDD resemble those of PMS, they are more severe and associated psychological symptoms are greater. “In my experience, PMDD symptoms can last the whole 2 weeks of the luteal phase, whereas PMS might occur a couple of days before menstruation,” said Ireland.

Symptoms include labile mood, nervousness, hopelessness, anger and aggressiveness, as well as tension and irritability. Those affected may have suicidal thoughts or even behaviors. In addition to a lethargic loss of interest in normal activities, patients with PMDD may feel paranoid, confused, exhausted, or out of control and experience insomnia or hypersomnia. They may have trouble concentrating or remembering. Some patients with PMDD may already be prone to attention-deficit/hyperactivity disorder and non–cycle-related depression, anxiety, and panic attacks.

Diagnosis is based on the presence of any five of the typical affective, somatic, or behavioral symptoms outlined above in the week before onset of menses.

“It’s important to do a careful diagnosis for PMDD and rule out other underlying conditions such as existing depressive or anxiety disorders,” said Haque. “Symptoms tend to be more intense in periods of high hormonal fluctuation such as in the postpartum and perimenopause periods. Women with PMDD should be monitored for postpartum depression.”

PMDD is considered both a gynecologic-genitourinary disorder and an affective condition.

In 2013, it was controversially included as a depressive disorder in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition. Strongly advocated by some patients, psychiatrists, and pharmaceutical companies, its inclusion was criticized by psychologists and generalists, who feared it would lead to overdiagnosis and pathologization of normal female hormonal changes. Women’s advocates protested that this inclusion would stigmatize female biology and harm their advance in society and the workplace, while some doctors continued to dismiss PMDD as not a serious concern.
 

Treatments

In its latest clinical practice guideline on PMDs, the American College of Obstetricians and Gynecologists (ACOG), for which Ireland served as the lead author, recommends that most patients with PMDD get medical treatment and outlines the following therapies, based on varying degrees of evidence strength.

Antidepressants. These may benefit patients with strong affective symptoms. Selective serotonin reuptake inhibitors such as sertraline (Zoloft), citalopram (Celexa), escitalopram (Lexapro), or fluoxetine (Prozac) are first choices.

Antidepressants may interrupt aberrant signaling in the HPGA, the circuit linking brain and ovaries and regulating the reproductive cycle. Serotonin norepinephrine reuptake inhibitor venlafaxine (Effexor) may also improve symptoms, but other types of antidepressants have not proven effective.

“The response to these well-tolerated drugs is rapid and can happen in the first 2 days,” said Ireland. The drugs may be taken either just in the luteal period or over the month, especially by patients with chronic depression or anxiety.

Hormonal therapy. ACOG recommends the use of combined oral contraceptives (COCs), gonadotropin-releasing hormone (GnRH) agonists to induce anovulation (with combined add-back hormones), progestin-only methods, and noncontraceptive continuous estrogen formulations. It notes, however, that COCs have not been more effective than placebo in reducing depressive symptom scores.

If symptoms do not improve over two to three cycles, an alternate therapy should be considered. Haque recommends an assessment after three cycles and then yearly.

Some women in her practice take both antidepressant and hormone therapy. “Unfortunately, there are no new pharmaceutical treatments on the horizon, but we have good ones already and we would love for patients to utilize them more often,” Ireland said.

Nonsteroidal anti-inflammatory drugs. Limited evidence shows these may reduce physical symptoms such as abdominal cramps, headaches, and general body aches, as well as some mood-related symptoms, which may be an indirect effect of pain alleviation.

Surgery. For women with the most severe intractable symptoms, bilateral oophorectomy with or without hysterectomy may be a last-resort option when medical management has failed. A trial period of GnRH agonist therapy (with or without adjunctive estrogen add-back treatment) is advised before surgery to predict a patient’s response to surgical management.

Acupuncture. ACOG suggests that acupuncture may help manage physical and affective premenstrual symptoms.

Diet. The usual dietary advice for premenstrual symptoms — such as consuming less caffeine, sugar, or alcohol and eating smaller, more frequent meals — is unlikely to help women with PMDD.

Exercise. Although it has not been well studied for PMDD, aerobic exercises such as walking, swimming, and biking tend to improve mood and energy levels in general. Exercise may reduce symptoms through several pathways, including effects on beta-endorphin, cortisol, and ovarian hormone levels.

Supplements. Vitamin B6, calcium and magnesium supplements, and herbal remedies are not supported by consistent or compelling evidence of efficacy. ACOG conditionally recommends calcium supplementation of 100-200 mg/d in adults to help manage physical and affective symptoms.

A small study suggested that supplemental zinc may improve both physical and psychological symptoms.

Cognitive-behavioral therapy. This treatment aims to interrupt negative and irrational thought patterns and may include awareness and education, as well as relaxation techniques, problem-solving and coping skills, and stress management. It has been associated with small to moderate improvement in anxiety and depression, said Ireland.

Peer support. Patients should consider joining a support group. The International Association for Premenstrual Disorders can help patients connect and develop coping skills.

The bottom line is that people with strong symptomatic evidence of PMDD should have medical intervention — to the benefit of their health and quality of life. Screening for PMDD should be part of women’s wellness examinations, said Ireland. “The impact of PMDD should not be minimized or dismissed,” said Haque. “And patients need to know there are very effective treatments.”

Ireland and Haque had no competing interests with regard to their comments.
 

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

It has been 24 years since a pharmaceutical was last approved for posttraumatic stress disorder (PTSD). The condition is notoriously difficult to treat, with up to 40% patients finding no relief from symptoms through psychotherapy or current medications.

Many clinicians, advocates, and patients had pinned their hopes on the psychedelic drug midomafetamine with assisted therapy (MDMA-AT). However, in August, the US Food and Drug Administration (FDA) rejected it. At this point, it’s unclear when the therapy will be available, if ever.

“Not getting the FDA approval of any drug at this point is a setback for the field,” Lori Davis, MD, a senior research psychiatrist at the Birmingham Veterans Affairs (VA) Health Care System in Birmingham, Alabama, told Medscape Medical News.

Having an FDA-approved product would have helped increase public awareness of PTSD and driven interest in developing new therapies, said Davis, who is also adjunct professor of psychiatry at the Heersink School of Medicine, University of Alabama at Birmingham.
 

A Treatable Condition

So with MDMA-AT off the table, where does the field go next? 

A public meeting in September hosted by the Reagan-Udall Foundation for the FDA in sought to answer that question. Agency officials joined representatives from the Department of Defense (DoD) and VA, patients, advocates, and industry representatives to discuss the current treatment landscape and what can be done to accelerate development of PTSD treatment.

Despite the common belief that PTSD is intractable, it “is a treatable condition,” Paula P. Schnurr, PhD, executive director of the VA National Center for PTSD, said at the meeting.

“There are effective treatments that work well for a lot of people, although not everyone has a satisfactory response,” she added.

The most effective psychotherapies are “trauma-focused,” and include cognitive processing therapy, eye movement desensitization and reprocessing, and prolonged exposure, according to the VA National Center for PTSD.

Three drugs have been approved by the FDA for PTSD: Venlafaxine (Effexor) in 1993, sertraline (Zoloft) in 1999, and paroxetine (Paxil) in 2000.

However, as the September meeting demonstrated, more therapies are needed.

“It’s clear to FDA and the federal government at large that there is an unmet need for safe and effective therapies to treat PTSD,” Bernard Fischer, MD, deputy director of the Division of Psychiatry in the Office of New Drugs at FDA’s Center for Drug Evaluation and Research, said at the meeting.

There is no shortage of research, Fischer added. Nearly 500 trials focused on PTSD are listed on clinicaltrials.gov are recruiting participants now or plan to soon.

Unsurprisingly, one of the primary drivers of PTSD therapeutics research is the VA. About 14% of the 5.7 million veterans who received care through the VA in 2023 had a diagnosis of PTSD.

“The US military is currently losing thousands of service members each year to PTSD- related disability discharges,” US Army Maj. Aaron Wolfgang, MD, a psychiatrist at the Walter Reed National Military Medical Center, said at the meeting. Only about 12%-20% of patients achieve remission with conventional therapies, added Wolfgang, who also is an assistant professor at the Uniformed Services University.

“For these reasons, establishing better treatments for PTSD is not only a matter of humanitarianism but also a pressing matter of national security,” he said.

The VA has committed at least $230 million to more than 140 active research projects in PTSD, Miriam J. Smyth, PhD, acting director of the clinical science, research and development service at the VA, said at the Reagan-Udall meeting.

One of the VA projects is the PTSD psychopharmacology initiative, which began in 2017 and now has 14 active clinical trials, said Smyth, who is also acting director for brain behavior and mental health at the VA. The first study should be finished by 2025.

The Million Veteran Program, with more than 1 million enrollees, has led to the discovery of genes related to re-experiencing traumatic memories and has confirmed that both PTSD and traumatic brain injury are risk factors for dementia, Smyth said.

The DoD has created a novel platform that establishes a common infrastructure for testing multiple drugs, called M-PACT. The platform allows sharing of placebo data across treatment arms. Drugs cycle off the platform if evidence indicates probability of success or failure.

Four trials are actively recruiting veterans and current service members. One is looking at vilazodone, approved in 2011 for major depressive disorder. It is being compared with placebo and fluoxetine in a trial that is currently recruiting.

Another trial will study daridorexant (sold as Quviviq), an orexin receptor antagonist, against placebo. The FDA approved daridorexant in 2022 as an insomnia treatment. A core issue in PTSD is sleep disruption, noted Davis.
 

New Therapies on the Way

Separately, Davis and colleagues are also studying methylphenidate, the stimulant used for attention-deficit/hyperactivity disorder. It may help with neurocognitive complaints and reduce PTSD symptoms, said Davis.

Because it is generic, few pharmaceutical manufacturers are likely to test it for PTSD, she said. But eventually, their work may lead a company to test newer stimulants for PTSD, she said.

Another potential therapeutic, BNC210, received Fast Track designation for PTSD from the FDA in 2019. Bionomics Limited in Australia will soon launch phase 3 trials of the investigational oral drug, which is a negative allosteric modulator of the alpha-7 nicotinic acetylcholine receptor. In late July, the company announced “ favorable feedback” from the agency on its phase 2 study, which led to the decision to move forward with larger trials.

Researchers at Brigham and Women’s Hospital have just reported that they may have found a target within the brain that will allow for transcranial magnetic stimulation (TMS) to ameliorate PTSD symptoms. They published results of a mapping effort in Nature Neuroscience and reported on one patient who had improved symptoms after receiving TMS for severe PTSD.

But perhaps one of the most promising treatments is a combination of sertraline and the new psychiatric medication brexpiprazole.

Brexpiprazole was developed by Otsuka Pharmaceutical and approved in the United States in 2015 as an adjunctive therapy to antidepressants for major depressive disorder and as a treatment for schizophrenia. In 2023, the FDA approved it for Alzheimer’s-related agitation. However, according to Otsuka, its mechanism of action is unknown.

Its efficacy may be mediated through a combination of partial agonist activity at serotonin 5-HT1A and dopamine D2 receptors, antagonist activity at serotonin 5-HT2A receptors, as well as antagonism of alpha-1B/2C receptors, said the company.

“It is the combination, rather than either alone, that’s going to have that broad synergistic pharmacology that is obviously potent for ameliorating the symptoms of PTSD,” said Davis, who has received consulting fees from Otsuka. “That’s an exciting development.”

Otsuka and partner Lundbeck Pharmaceuticals reported results in May from the companies’ phase 2 and 3 randomized clinical trials. The therapy achieved a statistically significant reduction (P <.05) in PTSD symptoms compared with sertraline plus placebo. This was without any supplemental psychotherapy.

The FDA accepted the companies’ new drug application in June and is expected to make a decision on approval in February 2025.
 

The Potential of Psychedelics

Though Lykos Therapeutics may have to go back to the drawing board on its MDMA-AT, psychedelics still have potential as PTSD therapies, Smyth said, who added that the VA is continuing to encourage study of MDMA and other psychedelic agents.

The VA issued a call for proposals for research on psychedelics in January, focused on MDMA or psilocybin in combination with psychotherapy. The administration received the first wave of applications early in the summer.

Scientific peer review panels made up of research experts from within and outside the VA have reviewed the applications and funding announcements are expected this fall, Smyth said.

Wolfgang, the Army psychiatrist, said, “Under the psychedelic treatment research clinical trial award, we welcome investigators to apply to what we anticipate will usher in a new era of innovation and hope for service members and their families who need it the most.”

Psychedelic studies are also proceeding without VA funding, as they have for years, when most of the trials were backed by universities or foundations or other private money. Johns Hopkins University is recruiting for a study in which patients would receive psilocybin along with trauma-focused psychotherapy, as is Ohio State University.

London-based Compass Pathways said in May that it successfully completed a phase 2 trial of Comp360, its synthetic psilocybin, in PTSD. The company has started a phase 3 study in treatment-resistant depression but has not given any further updates on PTSD.

Davis said that she believes that the FDA’s rejection of Lykos won’t lead to a shutdown of exploration of psychedelics.

“I think it informs these designs going forward, but it doesn’t eliminate that whole field of research,” she said.

Davis reported receiving consulting fees from Boehringer Ingelheim and Otsuka and research funding from Alkermes, the Patient-Centered Outcomes Research Institute, and the VA. Schnurr, Fischer, Smyth, and Wolfgang reported no relevant disclosures.
 

A version of this article appeared on Medscape.com.

It has been 24 years since a pharmaceutical was last approved for posttraumatic stress disorder (PTSD). The condition is notoriously difficult to treat, with up to 40% patients finding no relief from symptoms through psychotherapy or current medications.

Many clinicians, advocates, and patients had pinned their hopes on the psychedelic drug midomafetamine with assisted therapy (MDMA-AT). However, in August, the US Food and Drug Administration (FDA) rejected it. At this point, it’s unclear when the therapy will be available, if ever.

“Not getting the FDA approval of any drug at this point is a setback for the field,” Lori Davis, MD, a senior research psychiatrist at the Birmingham Veterans Affairs (VA) Health Care System in Birmingham, Alabama, told Medscape Medical News.

Having an FDA-approved product would have helped increase public awareness of PTSD and driven interest in developing new therapies, said Davis, who is also adjunct professor of psychiatry at the Heersink School of Medicine, University of Alabama at Birmingham.
 

A Treatable Condition

So with MDMA-AT off the table, where does the field go next? 

A public meeting in September hosted by the Reagan-Udall Foundation for the FDA in sought to answer that question. Agency officials joined representatives from the Department of Defense (DoD) and VA, patients, advocates, and industry representatives to discuss the current treatment landscape and what can be done to accelerate development of PTSD treatment.

Despite the common belief that PTSD is intractable, it “is a treatable condition,” Paula P. Schnurr, PhD, executive director of the VA National Center for PTSD, said at the meeting.

“There are effective treatments that work well for a lot of people, although not everyone has a satisfactory response,” she added.

The most effective psychotherapies are “trauma-focused,” and include cognitive processing therapy, eye movement desensitization and reprocessing, and prolonged exposure, according to the VA National Center for PTSD.

Three drugs have been approved by the FDA for PTSD: Venlafaxine (Effexor) in 1993, sertraline (Zoloft) in 1999, and paroxetine (Paxil) in 2000.

However, as the September meeting demonstrated, more therapies are needed.

“It’s clear to FDA and the federal government at large that there is an unmet need for safe and effective therapies to treat PTSD,” Bernard Fischer, MD, deputy director of the Division of Psychiatry in the Office of New Drugs at FDA’s Center for Drug Evaluation and Research, said at the meeting.

There is no shortage of research, Fischer added. Nearly 500 trials focused on PTSD are listed on clinicaltrials.gov are recruiting participants now or plan to soon.

Unsurprisingly, one of the primary drivers of PTSD therapeutics research is the VA. About 14% of the 5.7 million veterans who received care through the VA in 2023 had a diagnosis of PTSD.

“The US military is currently losing thousands of service members each year to PTSD- related disability discharges,” US Army Maj. Aaron Wolfgang, MD, a psychiatrist at the Walter Reed National Military Medical Center, said at the meeting. Only about 12%-20% of patients achieve remission with conventional therapies, added Wolfgang, who also is an assistant professor at the Uniformed Services University.

“For these reasons, establishing better treatments for PTSD is not only a matter of humanitarianism but also a pressing matter of national security,” he said.

The VA has committed at least $230 million to more than 140 active research projects in PTSD, Miriam J. Smyth, PhD, acting director of the clinical science, research and development service at the VA, said at the Reagan-Udall meeting.

One of the VA projects is the PTSD psychopharmacology initiative, which began in 2017 and now has 14 active clinical trials, said Smyth, who is also acting director for brain behavior and mental health at the VA. The first study should be finished by 2025.

The Million Veteran Program, with more than 1 million enrollees, has led to the discovery of genes related to re-experiencing traumatic memories and has confirmed that both PTSD and traumatic brain injury are risk factors for dementia, Smyth said.

The DoD has created a novel platform that establishes a common infrastructure for testing multiple drugs, called M-PACT. The platform allows sharing of placebo data across treatment arms. Drugs cycle off the platform if evidence indicates probability of success or failure.

Four trials are actively recruiting veterans and current service members. One is looking at vilazodone, approved in 2011 for major depressive disorder. It is being compared with placebo and fluoxetine in a trial that is currently recruiting.

Another trial will study daridorexant (sold as Quviviq), an orexin receptor antagonist, against placebo. The FDA approved daridorexant in 2022 as an insomnia treatment. A core issue in PTSD is sleep disruption, noted Davis.
 

New Therapies on the Way

Separately, Davis and colleagues are also studying methylphenidate, the stimulant used for attention-deficit/hyperactivity disorder. It may help with neurocognitive complaints and reduce PTSD symptoms, said Davis.

Because it is generic, few pharmaceutical manufacturers are likely to test it for PTSD, she said. But eventually, their work may lead a company to test newer stimulants for PTSD, she said.

Another potential therapeutic, BNC210, received Fast Track designation for PTSD from the FDA in 2019. Bionomics Limited in Australia will soon launch phase 3 trials of the investigational oral drug, which is a negative allosteric modulator of the alpha-7 nicotinic acetylcholine receptor. In late July, the company announced “ favorable feedback” from the agency on its phase 2 study, which led to the decision to move forward with larger trials.

Researchers at Brigham and Women’s Hospital have just reported that they may have found a target within the brain that will allow for transcranial magnetic stimulation (TMS) to ameliorate PTSD symptoms. They published results of a mapping effort in Nature Neuroscience and reported on one patient who had improved symptoms after receiving TMS for severe PTSD.

But perhaps one of the most promising treatments is a combination of sertraline and the new psychiatric medication brexpiprazole.

Brexpiprazole was developed by Otsuka Pharmaceutical and approved in the United States in 2015 as an adjunctive therapy to antidepressants for major depressive disorder and as a treatment for schizophrenia. In 2023, the FDA approved it for Alzheimer’s-related agitation. However, according to Otsuka, its mechanism of action is unknown.

Its efficacy may be mediated through a combination of partial agonist activity at serotonin 5-HT1A and dopamine D2 receptors, antagonist activity at serotonin 5-HT2A receptors, as well as antagonism of alpha-1B/2C receptors, said the company.

“It is the combination, rather than either alone, that’s going to have that broad synergistic pharmacology that is obviously potent for ameliorating the symptoms of PTSD,” said Davis, who has received consulting fees from Otsuka. “That’s an exciting development.”

Otsuka and partner Lundbeck Pharmaceuticals reported results in May from the companies’ phase 2 and 3 randomized clinical trials. The therapy achieved a statistically significant reduction (P <.05) in PTSD symptoms compared with sertraline plus placebo. This was without any supplemental psychotherapy.

The FDA accepted the companies’ new drug application in June and is expected to make a decision on approval in February 2025.
 

The Potential of Psychedelics

Though Lykos Therapeutics may have to go back to the drawing board on its MDMA-AT, psychedelics still have potential as PTSD therapies, Smyth said, who added that the VA is continuing to encourage study of MDMA and other psychedelic agents.

The VA issued a call for proposals for research on psychedelics in January, focused on MDMA or psilocybin in combination with psychotherapy. The administration received the first wave of applications early in the summer.

Scientific peer review panels made up of research experts from within and outside the VA have reviewed the applications and funding announcements are expected this fall, Smyth said.

Wolfgang, the Army psychiatrist, said, “Under the psychedelic treatment research clinical trial award, we welcome investigators to apply to what we anticipate will usher in a new era of innovation and hope for service members and their families who need it the most.”

Psychedelic studies are also proceeding without VA funding, as they have for years, when most of the trials were backed by universities or foundations or other private money. Johns Hopkins University is recruiting for a study in which patients would receive psilocybin along with trauma-focused psychotherapy, as is Ohio State University.

London-based Compass Pathways said in May that it successfully completed a phase 2 trial of Comp360, its synthetic psilocybin, in PTSD. The company has started a phase 3 study in treatment-resistant depression but has not given any further updates on PTSD.

Davis said that she believes that the FDA’s rejection of Lykos won’t lead to a shutdown of exploration of psychedelics.

“I think it informs these designs going forward, but it doesn’t eliminate that whole field of research,” she said.

Davis reported receiving consulting fees from Boehringer Ingelheim and Otsuka and research funding from Alkermes, the Patient-Centered Outcomes Research Institute, and the VA. Schnurr, Fischer, Smyth, and Wolfgang reported no relevant disclosures.
 

A version of this article appeared on Medscape.com.

It has been 24 years since a pharmaceutical was last approved for posttraumatic stress disorder (PTSD). The condition is notoriously difficult to treat, with up to 40% patients finding no relief from symptoms through psychotherapy or current medications.

Many clinicians, advocates, and patients had pinned their hopes on the psychedelic drug midomafetamine with assisted therapy (MDMA-AT). However, in August, the US Food and Drug Administration (FDA) rejected it. At this point, it’s unclear when the therapy will be available, if ever.

“Not getting the FDA approval of any drug at this point is a setback for the field,” Lori Davis, MD, a senior research psychiatrist at the Birmingham Veterans Affairs (VA) Health Care System in Birmingham, Alabama, told Medscape Medical News.

Having an FDA-approved product would have helped increase public awareness of PTSD and driven interest in developing new therapies, said Davis, who is also adjunct professor of psychiatry at the Heersink School of Medicine, University of Alabama at Birmingham.
 

A Treatable Condition

So with MDMA-AT off the table, where does the field go next? 

A public meeting in September hosted by the Reagan-Udall Foundation for the FDA in sought to answer that question. Agency officials joined representatives from the Department of Defense (DoD) and VA, patients, advocates, and industry representatives to discuss the current treatment landscape and what can be done to accelerate development of PTSD treatment.

Despite the common belief that PTSD is intractable, it “is a treatable condition,” Paula P. Schnurr, PhD, executive director of the VA National Center for PTSD, said at the meeting.

“There are effective treatments that work well for a lot of people, although not everyone has a satisfactory response,” she added.

The most effective psychotherapies are “trauma-focused,” and include cognitive processing therapy, eye movement desensitization and reprocessing, and prolonged exposure, according to the VA National Center for PTSD.

Three drugs have been approved by the FDA for PTSD: Venlafaxine (Effexor) in 1993, sertraline (Zoloft) in 1999, and paroxetine (Paxil) in 2000.

However, as the September meeting demonstrated, more therapies are needed.

“It’s clear to FDA and the federal government at large that there is an unmet need for safe and effective therapies to treat PTSD,” Bernard Fischer, MD, deputy director of the Division of Psychiatry in the Office of New Drugs at FDA’s Center for Drug Evaluation and Research, said at the meeting.

There is no shortage of research, Fischer added. Nearly 500 trials focused on PTSD are listed on clinicaltrials.gov are recruiting participants now or plan to soon.

Unsurprisingly, one of the primary drivers of PTSD therapeutics research is the VA. About 14% of the 5.7 million veterans who received care through the VA in 2023 had a diagnosis of PTSD.

“The US military is currently losing thousands of service members each year to PTSD- related disability discharges,” US Army Maj. Aaron Wolfgang, MD, a psychiatrist at the Walter Reed National Military Medical Center, said at the meeting. Only about 12%-20% of patients achieve remission with conventional therapies, added Wolfgang, who also is an assistant professor at the Uniformed Services University.

“For these reasons, establishing better treatments for PTSD is not only a matter of humanitarianism but also a pressing matter of national security,” he said.

The VA has committed at least $230 million to more than 140 active research projects in PTSD, Miriam J. Smyth, PhD, acting director of the clinical science, research and development service at the VA, said at the Reagan-Udall meeting.

One of the VA projects is the PTSD psychopharmacology initiative, which began in 2017 and now has 14 active clinical trials, said Smyth, who is also acting director for brain behavior and mental health at the VA. The first study should be finished by 2025.

The Million Veteran Program, with more than 1 million enrollees, has led to the discovery of genes related to re-experiencing traumatic memories and has confirmed that both PTSD and traumatic brain injury are risk factors for dementia, Smyth said.

The DoD has created a novel platform that establishes a common infrastructure for testing multiple drugs, called M-PACT. The platform allows sharing of placebo data across treatment arms. Drugs cycle off the platform if evidence indicates probability of success or failure.

Four trials are actively recruiting veterans and current service members. One is looking at vilazodone, approved in 2011 for major depressive disorder. It is being compared with placebo and fluoxetine in a trial that is currently recruiting.

Another trial will study daridorexant (sold as Quviviq), an orexin receptor antagonist, against placebo. The FDA approved daridorexant in 2022 as an insomnia treatment. A core issue in PTSD is sleep disruption, noted Davis.
 

New Therapies on the Way

Separately, Davis and colleagues are also studying methylphenidate, the stimulant used for attention-deficit/hyperactivity disorder. It may help with neurocognitive complaints and reduce PTSD symptoms, said Davis.

Because it is generic, few pharmaceutical manufacturers are likely to test it for PTSD, she said. But eventually, their work may lead a company to test newer stimulants for PTSD, she said.

Another potential therapeutic, BNC210, received Fast Track designation for PTSD from the FDA in 2019. Bionomics Limited in Australia will soon launch phase 3 trials of the investigational oral drug, which is a negative allosteric modulator of the alpha-7 nicotinic acetylcholine receptor. In late July, the company announced “ favorable feedback” from the agency on its phase 2 study, which led to the decision to move forward with larger trials.

Researchers at Brigham and Women’s Hospital have just reported that they may have found a target within the brain that will allow for transcranial magnetic stimulation (TMS) to ameliorate PTSD symptoms. They published results of a mapping effort in Nature Neuroscience and reported on one patient who had improved symptoms after receiving TMS for severe PTSD.

But perhaps one of the most promising treatments is a combination of sertraline and the new psychiatric medication brexpiprazole.

Brexpiprazole was developed by Otsuka Pharmaceutical and approved in the United States in 2015 as an adjunctive therapy to antidepressants for major depressive disorder and as a treatment for schizophrenia. In 2023, the FDA approved it for Alzheimer’s-related agitation. However, according to Otsuka, its mechanism of action is unknown.

Its efficacy may be mediated through a combination of partial agonist activity at serotonin 5-HT1A and dopamine D2 receptors, antagonist activity at serotonin 5-HT2A receptors, as well as antagonism of alpha-1B/2C receptors, said the company.

“It is the combination, rather than either alone, that’s going to have that broad synergistic pharmacology that is obviously potent for ameliorating the symptoms of PTSD,” said Davis, who has received consulting fees from Otsuka. “That’s an exciting development.”

Otsuka and partner Lundbeck Pharmaceuticals reported results in May from the companies’ phase 2 and 3 randomized clinical trials. The therapy achieved a statistically significant reduction (P <.05) in PTSD symptoms compared with sertraline plus placebo. This was without any supplemental psychotherapy.

The FDA accepted the companies’ new drug application in June and is expected to make a decision on approval in February 2025.
 

The Potential of Psychedelics

Though Lykos Therapeutics may have to go back to the drawing board on its MDMA-AT, psychedelics still have potential as PTSD therapies, Smyth said, who added that the VA is continuing to encourage study of MDMA and other psychedelic agents.

The VA issued a call for proposals for research on psychedelics in January, focused on MDMA or psilocybin in combination with psychotherapy. The administration received the first wave of applications early in the summer.

Scientific peer review panels made up of research experts from within and outside the VA have reviewed the applications and funding announcements are expected this fall, Smyth said.

Wolfgang, the Army psychiatrist, said, “Under the psychedelic treatment research clinical trial award, we welcome investigators to apply to what we anticipate will usher in a new era of innovation and hope for service members and their families who need it the most.”

Psychedelic studies are also proceeding without VA funding, as they have for years, when most of the trials were backed by universities or foundations or other private money. Johns Hopkins University is recruiting for a study in which patients would receive psilocybin along with trauma-focused psychotherapy, as is Ohio State University.

London-based Compass Pathways said in May that it successfully completed a phase 2 trial of Comp360, its synthetic psilocybin, in PTSD. The company has started a phase 3 study in treatment-resistant depression but has not given any further updates on PTSD.

Davis said that she believes that the FDA’s rejection of Lykos won’t lead to a shutdown of exploration of psychedelics.

“I think it informs these designs going forward, but it doesn’t eliminate that whole field of research,” she said.

Davis reported receiving consulting fees from Boehringer Ingelheim and Otsuka and research funding from Alkermes, the Patient-Centered Outcomes Research Institute, and the VA. Schnurr, Fischer, Smyth, and Wolfgang reported no relevant disclosures.
 

A version of this article appeared on Medscape.com.

The American Heart Association (AHA) has issued a new scientific statement on the link between heart failure, atrial fibrillation, and coronary heart disease and the increased risk for cognitive impairment and dementia.

The statement includes an extensive research review and offers compelling evidence of the inextricable link between heart health and brain health, which investigators said underscores the benefit of early intervention.

The cumulative evidence “confirms that the trajectories of cardiac health and brain health are inextricably intertwined through modifiable and nonmodifiable factors,” the authors wrote.

Investigators say the findings reinforce the message that addressing cardiovascular health early in life may deter the onset or progression of cognitive impairment later on.

And the earlier this is done, the better, said lead author Fernando D. Testai, MD, PhD, a professor of neurology and the vascular neurology section head, Department of Neurology and Rehabilitation, University of Illinois, Chicago.

The statement was published online in Stroke.
 

Bridging the Research Gap

It’s well known that there’s a bidirectional relationship between heart and brain function. For example, heart failure can lead to decreased blood flow that can damage the brain, and stroke in some areas of the brain can affect the heart.

However, that’s only part of the puzzle and doesn’t address all the gaps in the understanding of how cardiovascular disease contributes to cognition, said Testai.

“What we’re trying to do here is to go one step further and describe other connections between the heart and the brain,” he said.

Investigators carried out an extensive PubMed search for heart failure, atrial fibrillation, and coronary heart disease. Researchers detailed the frequency of each condition, mechanisms by which they might cause cognitive impairment, and prospects for prevention and treatment to maintain brain health.

A recurring theme in the paper is the role of inflammation. Evidence shows there are “remarkable similarities in the inflammatory response that takes place,” with both cardiac disease and cognitive decline, said Testai.

Another potential shared mechanism relates to biomarkers, particularly amyloid, which is strongly linked to Alzheimer’s disease.

“But some studies show amyloid can also be present in the heart, especially in patients who have decreased ejection fraction,” said Testai.
 

Robust Heart-Brain Connection

The statement’s authors collected a substantial amount of evidence showing vascular risk factors such as hypertension and diabetes “can change how the brain processes and clears up amyloid,” Testai added.

The paper also provides a compilation of evidence of shared genetic predispositions when it comes to heart and brain disorders.

“We noticed that some genetic signatures that have historically been associated with heart disease seem to also correlate with structural changes in the brain. That means that at the end of the day, some patients may be born with a genetic predisposition to developing both conditions,” said Testai.

This indicates that the link between the two organs “begins as early as conception” and underscores the importance of adopting healthy lifestyle habits as early as possible, he added.

“That means you can avoid bad habits that eventually lead to hypertension, diabetes, and cholesterol, that eventually will lead to cardiac disease, which eventually will lead to stroke, which eventually will lead to cognitive decline,” Testai noted.

However, cardiovascular health is more complicated than having good genes and adhering to a healthy lifestyle. It’s not clear, for example, why some people who should be predisposed to developing heart disease do not develop it, something Testai refers to as enhanced “resilience.”

For example, Hispanic or Latino patients, who have relatively poor cardiovascular risk factor profiles, seem to be less susceptible to developing cardiac disease.
 

More Research Needed

While genetics may partly explain the paradox, Testai believes other protective factors are at play, including strong social support networks.

Testai referred to the AHA’s “Life’s Essential 8” — the eight components of cardiovascular health. These include a healthy diet, participation in physical activity, nicotine avoidance, healthy sleep, healthy weight, and healthy levels of blood lipids, blood glucose, and blood pressure.

More evidence is needed to show that effective management of cardiac disease positively affects cognition. Currently, cognitive measures are rarely included in studies examining various heart disease treatments, said Testai.

“There should probably be an effort to include brain health outcomes in some of the cardiac literature to make sure we can also measure whether the intervention in the heart leads to an advantage for the brain,” he said.

More research is also needed to determine whether immunomodulation has a beneficial effect on the cognitive trajectory, the statement’s authors noted.

They point out that the interpretation and generalizability of the studies described in the statement are confounded by disparate methodologies, including small sample sizes, cross-sectional designs, and underrepresentation of Black and Hispanic individuals.
 

‘An Important Step’

Reached for a comment, Natalia S. Rost, MD, Chief of the Stroke Division at Massachusetts General Hospital and professor of neurology at Harvard Medical School, both in Boston, said this paper “is an important step” in terms of pulling together pertinent information on the topic of heart-brain health.

She praised the authors for gathering evidence on risk factors related to atrial fibrillation, heart failure, and coronary heart disease, which is “the part of the puzzle that is controllable.”

This helps reinforce the message that controlling vascular risk factors helps with brain health, said Rost.

But brain health is “much more complex than just vascular health,” she said. It includes other elements such as freedom from epilepsy, migraine, traumatic brain injury, and adult learning disabilities.

No relevant conflicts of interest were disclosed.

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

The American Heart Association (AHA) has issued a new scientific statement on the link between heart failure, atrial fibrillation, and coronary heart disease and the increased risk for cognitive impairment and dementia.

The statement includes an extensive research review and offers compelling evidence of the inextricable link between heart health and brain health, which investigators said underscores the benefit of early intervention.

The cumulative evidence “confirms that the trajectories of cardiac health and brain health are inextricably intertwined through modifiable and nonmodifiable factors,” the authors wrote.

Investigators say the findings reinforce the message that addressing cardiovascular health early in life may deter the onset or progression of cognitive impairment later on.

And the earlier this is done, the better, said lead author Fernando D. Testai, MD, PhD, a professor of neurology and the vascular neurology section head, Department of Neurology and Rehabilitation, University of Illinois, Chicago.

The statement was published online in Stroke.
 

Bridging the Research Gap

It’s well known that there’s a bidirectional relationship between heart and brain function. For example, heart failure can lead to decreased blood flow that can damage the brain, and stroke in some areas of the brain can affect the heart.

However, that’s only part of the puzzle and doesn’t address all the gaps in the understanding of how cardiovascular disease contributes to cognition, said Testai.

“What we’re trying to do here is to go one step further and describe other connections between the heart and the brain,” he said.

Investigators carried out an extensive PubMed search for heart failure, atrial fibrillation, and coronary heart disease. Researchers detailed the frequency of each condition, mechanisms by which they might cause cognitive impairment, and prospects for prevention and treatment to maintain brain health.

A recurring theme in the paper is the role of inflammation. Evidence shows there are “remarkable similarities in the inflammatory response that takes place,” with both cardiac disease and cognitive decline, said Testai.

Another potential shared mechanism relates to biomarkers, particularly amyloid, which is strongly linked to Alzheimer’s disease.

“But some studies show amyloid can also be present in the heart, especially in patients who have decreased ejection fraction,” said Testai.
 

Robust Heart-Brain Connection

The statement’s authors collected a substantial amount of evidence showing vascular risk factors such as hypertension and diabetes “can change how the brain processes and clears up amyloid,” Testai added.

The paper also provides a compilation of evidence of shared genetic predispositions when it comes to heart and brain disorders.

“We noticed that some genetic signatures that have historically been associated with heart disease seem to also correlate with structural changes in the brain. That means that at the end of the day, some patients may be born with a genetic predisposition to developing both conditions,” said Testai.

This indicates that the link between the two organs “begins as early as conception” and underscores the importance of adopting healthy lifestyle habits as early as possible, he added.

“That means you can avoid bad habits that eventually lead to hypertension, diabetes, and cholesterol, that eventually will lead to cardiac disease, which eventually will lead to stroke, which eventually will lead to cognitive decline,” Testai noted.

However, cardiovascular health is more complicated than having good genes and adhering to a healthy lifestyle. It’s not clear, for example, why some people who should be predisposed to developing heart disease do not develop it, something Testai refers to as enhanced “resilience.”

For example, Hispanic or Latino patients, who have relatively poor cardiovascular risk factor profiles, seem to be less susceptible to developing cardiac disease.
 

More Research Needed

While genetics may partly explain the paradox, Testai believes other protective factors are at play, including strong social support networks.

Testai referred to the AHA’s “Life’s Essential 8” — the eight components of cardiovascular health. These include a healthy diet, participation in physical activity, nicotine avoidance, healthy sleep, healthy weight, and healthy levels of blood lipids, blood glucose, and blood pressure.

More evidence is needed to show that effective management of cardiac disease positively affects cognition. Currently, cognitive measures are rarely included in studies examining various heart disease treatments, said Testai.

“There should probably be an effort to include brain health outcomes in some of the cardiac literature to make sure we can also measure whether the intervention in the heart leads to an advantage for the brain,” he said.

More research is also needed to determine whether immunomodulation has a beneficial effect on the cognitive trajectory, the statement’s authors noted.

They point out that the interpretation and generalizability of the studies described in the statement are confounded by disparate methodologies, including small sample sizes, cross-sectional designs, and underrepresentation of Black and Hispanic individuals.
 

‘An Important Step’

Reached for a comment, Natalia S. Rost, MD, Chief of the Stroke Division at Massachusetts General Hospital and professor of neurology at Harvard Medical School, both in Boston, said this paper “is an important step” in terms of pulling together pertinent information on the topic of heart-brain health.

She praised the authors for gathering evidence on risk factors related to atrial fibrillation, heart failure, and coronary heart disease, which is “the part of the puzzle that is controllable.”

This helps reinforce the message that controlling vascular risk factors helps with brain health, said Rost.

But brain health is “much more complex than just vascular health,” she said. It includes other elements such as freedom from epilepsy, migraine, traumatic brain injury, and adult learning disabilities.

No relevant conflicts of interest were disclosed.

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

The American Heart Association (AHA) has issued a new scientific statement on the link between heart failure, atrial fibrillation, and coronary heart disease and the increased risk for cognitive impairment and dementia.

The statement includes an extensive research review and offers compelling evidence of the inextricable link between heart health and brain health, which investigators said underscores the benefit of early intervention.

The cumulative evidence “confirms that the trajectories of cardiac health and brain health are inextricably intertwined through modifiable and nonmodifiable factors,” the authors wrote.

Investigators say the findings reinforce the message that addressing cardiovascular health early in life may deter the onset or progression of cognitive impairment later on.

And the earlier this is done, the better, said lead author Fernando D. Testai, MD, PhD, a professor of neurology and the vascular neurology section head, Department of Neurology and Rehabilitation, University of Illinois, Chicago.

The statement was published online in Stroke.
 

Bridging the Research Gap

It’s well known that there’s a bidirectional relationship between heart and brain function. For example, heart failure can lead to decreased blood flow that can damage the brain, and stroke in some areas of the brain can affect the heart.

However, that’s only part of the puzzle and doesn’t address all the gaps in the understanding of how cardiovascular disease contributes to cognition, said Testai.

“What we’re trying to do here is to go one step further and describe other connections between the heart and the brain,” he said.

Investigators carried out an extensive PubMed search for heart failure, atrial fibrillation, and coronary heart disease. Researchers detailed the frequency of each condition, mechanisms by which they might cause cognitive impairment, and prospects for prevention and treatment to maintain brain health.

A recurring theme in the paper is the role of inflammation. Evidence shows there are “remarkable similarities in the inflammatory response that takes place,” with both cardiac disease and cognitive decline, said Testai.

Another potential shared mechanism relates to biomarkers, particularly amyloid, which is strongly linked to Alzheimer’s disease.

“But some studies show amyloid can also be present in the heart, especially in patients who have decreased ejection fraction,” said Testai.
 

Robust Heart-Brain Connection

The statement’s authors collected a substantial amount of evidence showing vascular risk factors such as hypertension and diabetes “can change how the brain processes and clears up amyloid,” Testai added.

The paper also provides a compilation of evidence of shared genetic predispositions when it comes to heart and brain disorders.

“We noticed that some genetic signatures that have historically been associated with heart disease seem to also correlate with structural changes in the brain. That means that at the end of the day, some patients may be born with a genetic predisposition to developing both conditions,” said Testai.

This indicates that the link between the two organs “begins as early as conception” and underscores the importance of adopting healthy lifestyle habits as early as possible, he added.

“That means you can avoid bad habits that eventually lead to hypertension, diabetes, and cholesterol, that eventually will lead to cardiac disease, which eventually will lead to stroke, which eventually will lead to cognitive decline,” Testai noted.

However, cardiovascular health is more complicated than having good genes and adhering to a healthy lifestyle. It’s not clear, for example, why some people who should be predisposed to developing heart disease do not develop it, something Testai refers to as enhanced “resilience.”

For example, Hispanic or Latino patients, who have relatively poor cardiovascular risk factor profiles, seem to be less susceptible to developing cardiac disease.
 

More Research Needed

While genetics may partly explain the paradox, Testai believes other protective factors are at play, including strong social support networks.

Testai referred to the AHA’s “Life’s Essential 8” — the eight components of cardiovascular health. These include a healthy diet, participation in physical activity, nicotine avoidance, healthy sleep, healthy weight, and healthy levels of blood lipids, blood glucose, and blood pressure.

More evidence is needed to show that effective management of cardiac disease positively affects cognition. Currently, cognitive measures are rarely included in studies examining various heart disease treatments, said Testai.

“There should probably be an effort to include brain health outcomes in some of the cardiac literature to make sure we can also measure whether the intervention in the heart leads to an advantage for the brain,” he said.

More research is also needed to determine whether immunomodulation has a beneficial effect on the cognitive trajectory, the statement’s authors noted.

They point out that the interpretation and generalizability of the studies described in the statement are confounded by disparate methodologies, including small sample sizes, cross-sectional designs, and underrepresentation of Black and Hispanic individuals.
 

‘An Important Step’

Reached for a comment, Natalia S. Rost, MD, Chief of the Stroke Division at Massachusetts General Hospital and professor of neurology at Harvard Medical School, both in Boston, said this paper “is an important step” in terms of pulling together pertinent information on the topic of heart-brain health.

She praised the authors for gathering evidence on risk factors related to atrial fibrillation, heart failure, and coronary heart disease, which is “the part of the puzzle that is controllable.”

This helps reinforce the message that controlling vascular risk factors helps with brain health, said Rost.

But brain health is “much more complex than just vascular health,” she said. It includes other elements such as freedom from epilepsy, migraine, traumatic brain injury, and adult learning disabilities.

No relevant conflicts of interest were disclosed.

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

Postoperative chronic pain (POCP) is common and is expected to become increasingly prevalent. This type of pain, however, which specifically arises following surgery, independent of any infection or surgical failure, remains poorly understood. Facilities dedicated to treating it are nearly nonexistent.

At the 2024 congress of the French Society of Anesthesia and Resuscitation, anesthesiologists specializing in pain management advocated for improved management of POCP. They put themselves forward as essential interlocutors and actors in this effort. The anesthesiologists also called for better recognition of postoperative pain by patients, general practitioners, and surgeons to enable early intervention and reduce the risk for chronicity.
 

Underrecognized, Poorly Managed

POCP is defined as persistent pain lasting more than 3 months after surgery, unrelated to preoperative pain, and not associated with surgical complications. It can manifest in various forms, but the most typical scenario involves a patient complaining of persistent pain that developed following a surgical procedure. Normal radiological and biologic assessments rule out infectious complications. The persistence of pain long after surgery contrasts with what is often considered a successful surgical outcome by the surgeon.

“Of the 10 million patients operated on each year in France, it is estimated that about 10% will develop POCP, equating to 1.2 million patients,” explained Cyril Quémeneur, a specialist in anesthesiology and pain management at Pitié-Salpêtrière Hospital in Paris, France.

Because of the increasing number of surgical interventions in recent years, POCP has become a major concern. “Currently, there are 275 facilities dedicated to chronic pain across the country, capable of accommodating between 300,000 and 400,000 patients. Given that knee replacement surgery — the incidence of which is rising sharply — results in postoperative pain for 20%-30% of operated patients, the question of managing this type of pain will become even more pressing in the future,” said Quémeneur.

Moreover, specialized facilities for transitional pain management are not widespread in France, unlike in Canada, which has been developing them for about a decade, he noted.

France’s pain treatment centers “are overwhelmed,” said Gilles Lebuffe, a specialist in anesthesiology and pain management at Lille University Hospital in Lille, France. “Thus, the time between when the patient is operated on and when we discuss chronic pain allows the painful condition to establish itself, leading to central sensitization at the neurological level.” Once established, this pain is difficult to treat. “The later a patient arrives at a pain center, the more challenging the situation is to manage,” said Lebuffe.
 

Risk Factors

It is therefore crucial to identify patients at higher risk for postoperative pain during the anesthesia consultation, thus allowing for monitoring during the postoperative period. These pains can be highly debilitating because of their intensity, chronicity, and impact on quality of life.

To target these patients, it is essential to understand which surgeries and patient types constitute risk factors, as well as the characteristics of the pain experienced.

While all surgeries can lead to POCP, certain procedures are more likely to result in chronic pain. They include breast surgery with mastectomy, thoracic and spinal surgery, amputations, and knee replacement surgery. Notably, surgical repair of inguinal hernias, considered routine surgery, is emblematic of the risk for POCP. Its incidence after this procedure is 10% or more in the literature.

In addition, POCP often has neuropathic characteristics. Patients frequently describe their pain using terms like “burning” or “electric shock.” These pains are often associated with strange sensations such as tingling, prickling, itching, or numbness. “This describes neuropathic pain, which increases the risk of chronicity,” said Lebuffe.
 

Preoperative Opioid Use

Another warning sign for healthcare professionals is that patients with chronic pain may have factors associated with vulnerability. Women, who have a higher incidence of chronic pain syndrome, are at greater risk of developing postoperative chronic pain than men.

It has also been shown that preoperative opioid use leads to higher postoperative pain intensities for several days. This is a factor to consider, even though opioid consumption rates in France are far lower than those in the United States, where as much as 35% of patients use opioids preoperatively, said Frédéric Aubrun, head of the Anesthesia and Intensive Care Department and a pain management specialist at the Hospices Civils de Lyon in Lyon, France. Finally, significant literature indicates that psychological fragility is a risk factor for more intense acute pain and for POCP. “Patients with chronic pain frequently have depressive symptoms and anxiety,” said Lebuffe.
 

Involving General Practitioners

Because one responsibility of general practitioners is to identify patients with abnormal postoperative pain trajectories, the anesthesiologists at the press conference advocated for greater patient awareness and increased involvement of general practitioners in this identification process.

“If there is an expected duration of postoperative pain at varying intensities, since it all depends on the patient’s journey (the number of reoperations, history of opioid use, etc.), it is necessary to make patients aware that it is not normal to suffer long after a surgical intervention,” said Aubrun. In addition, it is important to “connect with primary care” and mobilize general practitioners to “detect patients sliding toward opioid overconsumption” and refer them to the appropriate care structure, he said.

Although dedicated facilities for this type of pain — like transitional pain clinics in Canada or northern Europe — do not exist in France, some hospitals, like Lille University Hospital, have established “intermediate consultations targeting patients with specific pain or chronicity characteristics. In these consultations, patients are systematically reviewed 4-6 weeks after surgery by the surgeon, who has been trained to identify neuropathic pain,” said Lebuffe. When a patient with such pain is identified, he or she is referred to an intermediate consultation and seen by a fellow anesthesiologist. The advantage of this consultation is that it is linked to a chronic pain structure. Consequently, frequent exchanges occur with the pain specialists involved in this structure, thus allowing for immediate optimization of pain treatments. The goal is to halt the process of central sensitization.

“We strongly believe in this type of transitional structure, even though it requires significant human resources,” said Lebuffe. He also called for a “societal reflection” on this issue because patients with chronic pain represent a significant cost to society, in terms of medications and work stoppages. Moreover, patients who are forced to stop working see their lives disrupted.
 

Managing POCP

When POCP with neuropathic characteristics has been diagnosed, specific treatments and techniques for chronic pain can be prescribed earlier than they currently are. “Systemic drug treatments for neuropathic POCP rely on various therapeutic classes (opioids, antidepressants, antiepileptics), which are not without side effects for the patient,” said Violaine D’ans, an anesthesiologist and pain management specialist at Polyclinique du Parc in Caen, France. Hence, the idea is to prescribe a minimal dose while providing the patient with techniques available to anesthesiologists. “We have a good range of management options that we use in perioperative pain management, and we have a role to play in radio- or CT-guided perinerve infiltrations, with continuous peripheral nerve blocks and possibly later with electrostimulation to help restore movement and avoid kinesiophobia.”

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Postoperative chronic pain (POCP) is common and is expected to become increasingly prevalent. This type of pain, however, which specifically arises following surgery, independent of any infection or surgical failure, remains poorly understood. Facilities dedicated to treating it are nearly nonexistent.

At the 2024 congress of the French Society of Anesthesia and Resuscitation, anesthesiologists specializing in pain management advocated for improved management of POCP. They put themselves forward as essential interlocutors and actors in this effort. The anesthesiologists also called for better recognition of postoperative pain by patients, general practitioners, and surgeons to enable early intervention and reduce the risk for chronicity.
 

Underrecognized, Poorly Managed

POCP is defined as persistent pain lasting more than 3 months after surgery, unrelated to preoperative pain, and not associated with surgical complications. It can manifest in various forms, but the most typical scenario involves a patient complaining of persistent pain that developed following a surgical procedure. Normal radiological and biologic assessments rule out infectious complications. The persistence of pain long after surgery contrasts with what is often considered a successful surgical outcome by the surgeon.

“Of the 10 million patients operated on each year in France, it is estimated that about 10% will develop POCP, equating to 1.2 million patients,” explained Cyril Quémeneur, a specialist in anesthesiology and pain management at Pitié-Salpêtrière Hospital in Paris, France.

Because of the increasing number of surgical interventions in recent years, POCP has become a major concern. “Currently, there are 275 facilities dedicated to chronic pain across the country, capable of accommodating between 300,000 and 400,000 patients. Given that knee replacement surgery — the incidence of which is rising sharply — results in postoperative pain for 20%-30% of operated patients, the question of managing this type of pain will become even more pressing in the future,” said Quémeneur.

Moreover, specialized facilities for transitional pain management are not widespread in France, unlike in Canada, which has been developing them for about a decade, he noted.

France’s pain treatment centers “are overwhelmed,” said Gilles Lebuffe, a specialist in anesthesiology and pain management at Lille University Hospital in Lille, France. “Thus, the time between when the patient is operated on and when we discuss chronic pain allows the painful condition to establish itself, leading to central sensitization at the neurological level.” Once established, this pain is difficult to treat. “The later a patient arrives at a pain center, the more challenging the situation is to manage,” said Lebuffe.
 

Risk Factors

It is therefore crucial to identify patients at higher risk for postoperative pain during the anesthesia consultation, thus allowing for monitoring during the postoperative period. These pains can be highly debilitating because of their intensity, chronicity, and impact on quality of life.

To target these patients, it is essential to understand which surgeries and patient types constitute risk factors, as well as the characteristics of the pain experienced.

While all surgeries can lead to POCP, certain procedures are more likely to result in chronic pain. They include breast surgery with mastectomy, thoracic and spinal surgery, amputations, and knee replacement surgery. Notably, surgical repair of inguinal hernias, considered routine surgery, is emblematic of the risk for POCP. Its incidence after this procedure is 10% or more in the literature.

In addition, POCP often has neuropathic characteristics. Patients frequently describe their pain using terms like “burning” or “electric shock.” These pains are often associated with strange sensations such as tingling, prickling, itching, or numbness. “This describes neuropathic pain, which increases the risk of chronicity,” said Lebuffe.
 

Preoperative Opioid Use

Another warning sign for healthcare professionals is that patients with chronic pain may have factors associated with vulnerability. Women, who have a higher incidence of chronic pain syndrome, are at greater risk of developing postoperative chronic pain than men.

It has also been shown that preoperative opioid use leads to higher postoperative pain intensities for several days. This is a factor to consider, even though opioid consumption rates in France are far lower than those in the United States, where as much as 35% of patients use opioids preoperatively, said Frédéric Aubrun, head of the Anesthesia and Intensive Care Department and a pain management specialist at the Hospices Civils de Lyon in Lyon, France. Finally, significant literature indicates that psychological fragility is a risk factor for more intense acute pain and for POCP. “Patients with chronic pain frequently have depressive symptoms and anxiety,” said Lebuffe.
 

Involving General Practitioners

Because one responsibility of general practitioners is to identify patients with abnormal postoperative pain trajectories, the anesthesiologists at the press conference advocated for greater patient awareness and increased involvement of general practitioners in this identification process.

“If there is an expected duration of postoperative pain at varying intensities, since it all depends on the patient’s journey (the number of reoperations, history of opioid use, etc.), it is necessary to make patients aware that it is not normal to suffer long after a surgical intervention,” said Aubrun. In addition, it is important to “connect with primary care” and mobilize general practitioners to “detect patients sliding toward opioid overconsumption” and refer them to the appropriate care structure, he said.

Although dedicated facilities for this type of pain — like transitional pain clinics in Canada or northern Europe — do not exist in France, some hospitals, like Lille University Hospital, have established “intermediate consultations targeting patients with specific pain or chronicity characteristics. In these consultations, patients are systematically reviewed 4-6 weeks after surgery by the surgeon, who has been trained to identify neuropathic pain,” said Lebuffe. When a patient with such pain is identified, he or she is referred to an intermediate consultation and seen by a fellow anesthesiologist. The advantage of this consultation is that it is linked to a chronic pain structure. Consequently, frequent exchanges occur with the pain specialists involved in this structure, thus allowing for immediate optimization of pain treatments. The goal is to halt the process of central sensitization.

“We strongly believe in this type of transitional structure, even though it requires significant human resources,” said Lebuffe. He also called for a “societal reflection” on this issue because patients with chronic pain represent a significant cost to society, in terms of medications and work stoppages. Moreover, patients who are forced to stop working see their lives disrupted.
 

Managing POCP

When POCP with neuropathic characteristics has been diagnosed, specific treatments and techniques for chronic pain can be prescribed earlier than they currently are. “Systemic drug treatments for neuropathic POCP rely on various therapeutic classes (opioids, antidepressants, antiepileptics), which are not without side effects for the patient,” said Violaine D’ans, an anesthesiologist and pain management specialist at Polyclinique du Parc in Caen, France. Hence, the idea is to prescribe a minimal dose while providing the patient with techniques available to anesthesiologists. “We have a good range of management options that we use in perioperative pain management, and we have a role to play in radio- or CT-guided perinerve infiltrations, with continuous peripheral nerve blocks and possibly later with electrostimulation to help restore movement and avoid kinesiophobia.”

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Postoperative chronic pain (POCP) is common and is expected to become increasingly prevalent. This type of pain, however, which specifically arises following surgery, independent of any infection or surgical failure, remains poorly understood. Facilities dedicated to treating it are nearly nonexistent.

At the 2024 congress of the French Society of Anesthesia and Resuscitation, anesthesiologists specializing in pain management advocated for improved management of POCP. They put themselves forward as essential interlocutors and actors in this effort. The anesthesiologists also called for better recognition of postoperative pain by patients, general practitioners, and surgeons to enable early intervention and reduce the risk for chronicity.
 

Underrecognized, Poorly Managed

POCP is defined as persistent pain lasting more than 3 months after surgery, unrelated to preoperative pain, and not associated with surgical complications. It can manifest in various forms, but the most typical scenario involves a patient complaining of persistent pain that developed following a surgical procedure. Normal radiological and biologic assessments rule out infectious complications. The persistence of pain long after surgery contrasts with what is often considered a successful surgical outcome by the surgeon.

“Of the 10 million patients operated on each year in France, it is estimated that about 10% will develop POCP, equating to 1.2 million patients,” explained Cyril Quémeneur, a specialist in anesthesiology and pain management at Pitié-Salpêtrière Hospital in Paris, France.

Because of the increasing number of surgical interventions in recent years, POCP has become a major concern. “Currently, there are 275 facilities dedicated to chronic pain across the country, capable of accommodating between 300,000 and 400,000 patients. Given that knee replacement surgery — the incidence of which is rising sharply — results in postoperative pain for 20%-30% of operated patients, the question of managing this type of pain will become even more pressing in the future,” said Quémeneur.

Moreover, specialized facilities for transitional pain management are not widespread in France, unlike in Canada, which has been developing them for about a decade, he noted.

France’s pain treatment centers “are overwhelmed,” said Gilles Lebuffe, a specialist in anesthesiology and pain management at Lille University Hospital in Lille, France. “Thus, the time between when the patient is operated on and when we discuss chronic pain allows the painful condition to establish itself, leading to central sensitization at the neurological level.” Once established, this pain is difficult to treat. “The later a patient arrives at a pain center, the more challenging the situation is to manage,” said Lebuffe.
 

Risk Factors

It is therefore crucial to identify patients at higher risk for postoperative pain during the anesthesia consultation, thus allowing for monitoring during the postoperative period. These pains can be highly debilitating because of their intensity, chronicity, and impact on quality of life.

To target these patients, it is essential to understand which surgeries and patient types constitute risk factors, as well as the characteristics of the pain experienced.

While all surgeries can lead to POCP, certain procedures are more likely to result in chronic pain. They include breast surgery with mastectomy, thoracic and spinal surgery, amputations, and knee replacement surgery. Notably, surgical repair of inguinal hernias, considered routine surgery, is emblematic of the risk for POCP. Its incidence after this procedure is 10% or more in the literature.

In addition, POCP often has neuropathic characteristics. Patients frequently describe their pain using terms like “burning” or “electric shock.” These pains are often associated with strange sensations such as tingling, prickling, itching, or numbness. “This describes neuropathic pain, which increases the risk of chronicity,” said Lebuffe.
 

Preoperative Opioid Use

Another warning sign for healthcare professionals is that patients with chronic pain may have factors associated with vulnerability. Women, who have a higher incidence of chronic pain syndrome, are at greater risk of developing postoperative chronic pain than men.

It has also been shown that preoperative opioid use leads to higher postoperative pain intensities for several days. This is a factor to consider, even though opioid consumption rates in France are far lower than those in the United States, where as much as 35% of patients use opioids preoperatively, said Frédéric Aubrun, head of the Anesthesia and Intensive Care Department and a pain management specialist at the Hospices Civils de Lyon in Lyon, France. Finally, significant literature indicates that psychological fragility is a risk factor for more intense acute pain and for POCP. “Patients with chronic pain frequently have depressive symptoms and anxiety,” said Lebuffe.
 

Involving General Practitioners

Because one responsibility of general practitioners is to identify patients with abnormal postoperative pain trajectories, the anesthesiologists at the press conference advocated for greater patient awareness and increased involvement of general practitioners in this identification process.

“If there is an expected duration of postoperative pain at varying intensities, since it all depends on the patient’s journey (the number of reoperations, history of opioid use, etc.), it is necessary to make patients aware that it is not normal to suffer long after a surgical intervention,” said Aubrun. In addition, it is important to “connect with primary care” and mobilize general practitioners to “detect patients sliding toward opioid overconsumption” and refer them to the appropriate care structure, he said.

Although dedicated facilities for this type of pain — like transitional pain clinics in Canada or northern Europe — do not exist in France, some hospitals, like Lille University Hospital, have established “intermediate consultations targeting patients with specific pain or chronicity characteristics. In these consultations, patients are systematically reviewed 4-6 weeks after surgery by the surgeon, who has been trained to identify neuropathic pain,” said Lebuffe. When a patient with such pain is identified, he or she is referred to an intermediate consultation and seen by a fellow anesthesiologist. The advantage of this consultation is that it is linked to a chronic pain structure. Consequently, frequent exchanges occur with the pain specialists involved in this structure, thus allowing for immediate optimization of pain treatments. The goal is to halt the process of central sensitization.

“We strongly believe in this type of transitional structure, even though it requires significant human resources,” said Lebuffe. He also called for a “societal reflection” on this issue because patients with chronic pain represent a significant cost to society, in terms of medications and work stoppages. Moreover, patients who are forced to stop working see their lives disrupted.
 

Managing POCP

When POCP with neuropathic characteristics has been diagnosed, specific treatments and techniques for chronic pain can be prescribed earlier than they currently are. “Systemic drug treatments for neuropathic POCP rely on various therapeutic classes (opioids, antidepressants, antiepileptics), which are not without side effects for the patient,” said Violaine D’ans, an anesthesiologist and pain management specialist at Polyclinique du Parc in Caen, France. Hence, the idea is to prescribe a minimal dose while providing the patient with techniques available to anesthesiologists. “We have a good range of management options that we use in perioperative pain management, and we have a role to play in radio- or CT-guided perinerve infiltrations, with continuous peripheral nerve blocks and possibly later with electrostimulation to help restore movement and avoid kinesiophobia.”

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TOPLINE:

Bright light therapy (BLT) is associated with a 41% remission rate in patients with nonseasonal depressive disorders, significantly higher than the remission rates reported with other treatments, a new meta-analysis shows.
 

METHODOLOGY:

• Researchers conducted a systematic review and meta-analysis of 11 randomized clinical trials with 858 patients with nonseasonal depressive disorders.
• Included studies compared BLT alone or BLT plus antidepressant with placebo, antidepressant monotherapy, or dim red light.
• BLT was administered using a fluorescent light box producing white light at 10,000 lux for at least 30 minutes daily.
• The primary outcomes were the remission of symptoms and response to treatment, assessed using scales such as the Hamilton Rating Scale for Depression (HAM-D).

TAKEAWAY:

• The estimated remission rate was significantly higher for patients with nonseasonal depressive disorders in the BLT group than for those in the control group (41% vs 23.5%; P < .001).
• The response rate was also higher for patients in the BLT group than for those in the control group (60% vs 39%; P < .001).
• In the subgroup analysis on the basis of the duration of follow-up periods, the BLT group had better remission and response rates than the control group for both short-term (< 4 weeks; P < .001) and long-term (> 4 weeks; P = .04) follow-up periods, which suggests that patients achieved remission and responded to treatment more quickly with BLT than with antidepressants alone.
• The BLT group had a significantly greater reduction in HAM-D scores than the control group (mean difference, −1.44; P = .003).

IN PRACTICE:

“These findings suggest that BLT was an effective adjunctive treatment for nonseasonal depressive disorders, and the response time to the initial treatment may be improved with the addition of BLT,” the study authors wrote.
 

SOURCE:

The study was led by Artur Menegaz de Almeida, MS, Federal University of Mato Grosso, Sinop, Brazil. It was published online on October 2, 2024, in JAMA Psychiatry.
 

LIMITATIONS:

Slight differences were observed in the mean follow-up time between the included trials. The definitions for remission rates and response to treatment varied among the included studies, and they also involved different levels of disorder severity. Additionally, the study did not enable the separate analysis of each included depressive disorder, nor bipolar or unipolar subtypes of major depressive disorder. The moderate number of studies included may have affected the generalizability of the findings.
 

DISCLOSURES:

Study funding was not disclosed. No relevant conflicts of interest were disclosed.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TOPLINE:

Bright light therapy (BLT) is associated with a 41% remission rate in patients with nonseasonal depressive disorders, significantly higher than the remission rates reported with other treatments, a new meta-analysis shows.
 

METHODOLOGY:

• Researchers conducted a systematic review and meta-analysis of 11 randomized clinical trials with 858 patients with nonseasonal depressive disorders.
• Included studies compared BLT alone or BLT plus antidepressant with placebo, antidepressant monotherapy, or dim red light.
• BLT was administered using a fluorescent light box producing white light at 10,000 lux for at least 30 minutes daily.
• The primary outcomes were the remission of symptoms and response to treatment, assessed using scales such as the Hamilton Rating Scale for Depression (HAM-D).

TAKEAWAY:

• The estimated remission rate was significantly higher for patients with nonseasonal depressive disorders in the BLT group than for those in the control group (41% vs 23.5%; P < .001).
• The response rate was also higher for patients in the BLT group than for those in the control group (60% vs 39%; P < .001).
• In the subgroup analysis on the basis of the duration of follow-up periods, the BLT group had better remission and response rates than the control group for both short-term (< 4 weeks; P < .001) and long-term (> 4 weeks; P = .04) follow-up periods, which suggests that patients achieved remission and responded to treatment more quickly with BLT than with antidepressants alone.
• The BLT group had a significantly greater reduction in HAM-D scores than the control group (mean difference, −1.44; P = .003).

IN PRACTICE:

“These findings suggest that BLT was an effective adjunctive treatment for nonseasonal depressive disorders, and the response time to the initial treatment may be improved with the addition of BLT,” the study authors wrote.
 

SOURCE:

The study was led by Artur Menegaz de Almeida, MS, Federal University of Mato Grosso, Sinop, Brazil. It was published online on October 2, 2024, in JAMA Psychiatry.
 

LIMITATIONS:

Slight differences were observed in the mean follow-up time between the included trials. The definitions for remission rates and response to treatment varied among the included studies, and they also involved different levels of disorder severity. Additionally, the study did not enable the separate analysis of each included depressive disorder, nor bipolar or unipolar subtypes of major depressive disorder. The moderate number of studies included may have affected the generalizability of the findings.
 

DISCLOSURES:

Study funding was not disclosed. No relevant conflicts of interest were disclosed.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TOPLINE:

Bright light therapy (BLT) is associated with a 41% remission rate in patients with nonseasonal depressive disorders, significantly higher than the remission rates reported with other treatments, a new meta-analysis shows.
 

METHODOLOGY:

• Researchers conducted a systematic review and meta-analysis of 11 randomized clinical trials with 858 patients with nonseasonal depressive disorders.
• Included studies compared BLT alone or BLT plus antidepressant with placebo, antidepressant monotherapy, or dim red light.
• BLT was administered using a fluorescent light box producing white light at 10,000 lux for at least 30 minutes daily.
• The primary outcomes were the remission of symptoms and response to treatment, assessed using scales such as the Hamilton Rating Scale for Depression (HAM-D).

TAKEAWAY:

• The estimated remission rate was significantly higher for patients with nonseasonal depressive disorders in the BLT group than for those in the control group (41% vs 23.5%; P < .001).
• The response rate was also higher for patients in the BLT group than for those in the control group (60% vs 39%; P < .001).
• In the subgroup analysis on the basis of the duration of follow-up periods, the BLT group had better remission and response rates than the control group for both short-term (< 4 weeks; P < .001) and long-term (> 4 weeks; P = .04) follow-up periods, which suggests that patients achieved remission and responded to treatment more quickly with BLT than with antidepressants alone.
• The BLT group had a significantly greater reduction in HAM-D scores than the control group (mean difference, −1.44; P = .003).

IN PRACTICE:

“These findings suggest that BLT was an effective adjunctive treatment for nonseasonal depressive disorders, and the response time to the initial treatment may be improved with the addition of BLT,” the study authors wrote.
 

SOURCE:

The study was led by Artur Menegaz de Almeida, MS, Federal University of Mato Grosso, Sinop, Brazil. It was published online on October 2, 2024, in JAMA Psychiatry.
 

LIMITATIONS:

Slight differences were observed in the mean follow-up time between the included trials. The definitions for remission rates and response to treatment varied among the included studies, and they also involved different levels of disorder severity. Additionally, the study did not enable the separate analysis of each included depressive disorder, nor bipolar or unipolar subtypes of major depressive disorder. The moderate number of studies included may have affected the generalizability of the findings.
 

DISCLOSURES:

Study funding was not disclosed. No relevant conflicts of interest were disclosed.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

“Because you know I’m all about that base, ‘bout that base, no acid.” 

Do those words sound familiar? That’s because they’re the lyrics to Meghan Trainor’s “All About That Bass,” slightly tweaked to function as a medical study tool.

Early in med school, J.C. Sue, DO, now a family medicine physician, refashioned the song’s words to help him prepare for a test on acid extruders and loaders. Sue’s version, “All About That Base,” contained his lecture notes. During the exam, he found himself mentally singing his parody and easily recalling the information. Plus, the approach made cramming a lot more palatable.

Sound silly? It’s not. Sue’s approach is backed up by science. A significant body of research has illuminated the positive association between music and memory. And the benefits last. Recently, a 2024 study from Canada suggested that musical memory doesn’t decrease with age. And a 2023 study revealed music was a better cue than food for helping both young and older adults recall autobiographical memories.

Inspired by his success, Sue gave popular songs a medical spin throughout his medical training. “There’s no rule that says studying must be boring, tedious, or torturous,” Sue said. “If you can make it fun, why not?”

Sue isn’t alone. Many physicians say that writing songs, listening to music, or playing instruments improves their focus, energy, and work performance, along with their confidence and well-being.

Why does music work so well?
 

Tune Your Brain to Work With Tunes

Remember learning your ABCs to the tune of “Twinkle, Twinkle, Little Star?” (Or ask any Gen X person about Schoolhouse Rock.)

In the classroom, music is an established tool for teaching kids, said Ruth Gotian, EdD, MS, chief learning officer and associate professor of education in anesthesiology at Weill Cornell Medicine, New York City. But she said musical strategies make studying easier for adults, too, no matter how complex the material.

Christopher Emdin, PhD, Maxine Greene chair and professor of science education at Teachers College, Columbia University, New York City, shares Gotian’s view. When teaching science, engineering, technology, and mathematics (STEM) subjects to high school kids, he challenged them to write raps about the new concepts.

That’s when he saw visible results: As his students took exams, Emdin noticed them nodding and moving their mouths and heads.

“They were literally performing the songs they’d written for themselves,” Emdin said. “When you write a song to a beat, it’s almost like your heartbeat. You know it so well; you can conjure up your memories by reciting the lyrics.”

If songwriting isn’t in your repertoire, you’ll be glad to hear that just listening to music while studying can help with retention. “Music keeps both sides of the brain stimulated, which has been shown to increase focus and motivation,” explained Anita A. Paschall, MD, PhD, Medical School and Healthcare Admissions expert/director of Medical School and Healthcare Admissions at The Princeton Review.
 

‘Mind on a Permanent Vacation’

Paschall’s enthusiasm comes from personal experience. While preparing for her board exams, Jimmy Buffet’s catalog was her study soundtrack. “His songs stayed in my mind. I could hum along without having to think about it, so my brain was free to focus,” she recalled.

Because Paschall grew up listening to Buffet’s tunes, they also evoked relaxing moments from her earlier life, which she found comforting and uplifting. The combination helped make long, intense study sessions more pleasant. After all, when you’re “wasting away again in Margaritaville,” how can you feel stressed and despondent?

Alexander Remy Bonnel, MD, clinical assistant professor of medicine at the University of Pennsylvania and a physician at Pennsylvania Hospital, both in Philadelphia, found ways to incorporate both auditory and visual stimuli in his med school study routine. He listened to music while color-coding his notes to link both cues to the information. As with Paschall, these tactics helped reduce the monotony of learning reams of material.

That gave Bonnel an easy way to establish an important element for memory: Novelty.

“When you need to memorize so many things in a short amount of time, you’re trying to vary ways of internalizing information,” he observed. “You have a higher chance of retaining information if there’s something unique about it.”
 

Building Team Harmony

“Almost every single OR I rotated through in med school had music playing,” Bonnel also recalled. Furthermore, he noticed a pattern to the chosen songs: Regardless of their age, surgeons selected playlists of tunes that had been popular when they were in their 20s. Those golden oldies, from any era, could turn the OR team into a focused, cohesive unit.

Kyle McCormick, MD, a fifth-year resident in orthopedic surgery at New York–Presbyterian Hospital, Columbia University Irving Medical Center, New York City, has also noticed the ubiquity of background music in ORs. Her observation: Surgeons tend to choose universally popular, inoffensive songs, like tracks from Hall & Oates and Fleetwood Mac.

This meshes with the results of a joint survey of nearly 700 surgeons and other healthcare professionals conducted by Spotify and Figure 1 in 2021; 90% of the surgeons and surgical residents who responded said they listened to music in the OR. Rock and pop were the most popular genres, followed by classical, jazz, and then R&B.

Regardless of genre, music helped the surgical teams focus and feel less tense, the surgeons reported. But when training younger doctors, managing complications, or performing during critical points in surgery, many said they’d lower the volume.

Outside the OR, music can also help foster connection between colleagues. For Lawrence C. Loh, MD, MPH, adjunct professor at Dalla Lana School of Public Health at the University of Toronto in Ontario, Canada, playing guitar and piano has helped him connect with his staff. “I’ve played tunes at staff gatherings and recorded videos as encouragement during the emergency response for COVID-19,” he shared.

In his free time, Loh has also organized outings to his local pub’s weekly karaoke show for more than a decade. His goal: “Promote social cohesion and combat loneliness among my friend and social networks.”
 

Get Your Own Musical Boost

If all this sounds like music to your ears, here are some ways to try it yourself.

Find a study soundtrack. When choosing study music, follow Paschall’s lead and pick songs you know well so they’ll remain in the background. Also, compile a soundtrack you find pleasant and mood-boosting to help relieve the tedium of study and decrease stress.

Keep in mind that we all take in and process information differently, said Gotian. So background music during study sessions might not work for you. According to a 2017 study published in Frontiers in Psychology, it can be a distraction and impair learning for some. Do what works.

Get pumped with a “walkup song.” What songs make you feel like you could conquer the world? asked Emdin. Or what soundtrack would be playing if you were ascending a stage to accept an award or walking out to take the mound in the ninth inning? Those songs should be on what he calls your “superhero” or “walkup” playlist. His prescription: Tune in before you begin your workday or start a challenging procedure.

Paschall agrees and recommends her students and clients listen to music before sitting down for an exam. Forget reviewing flashcards for the nth time, she counseled. Putting on headphones (or earbuds) will put you in a “better headspace.”

Choose work and play playlists. As well as incorporating tunes in your clinic or hospital, music can help relieve stress at the end of the workday. “Medical culture can often be detrimental to doctors’ health,” said Sue, who credits music with helping him maintain equanimity.

Bonnel can relate. Practicing and performing with the Penn Medicine Symphony Orchestra offers him a sense of community and relief from the stress of modern life. “For 2 hours every Tuesday, I put my phone away and just play,” he said. “It’s nice to have those moments when I’m temporarily disconnected and can just focus on one thing: Playing.”
 

Scale Up Your Career

Years after med school graduation, Sue still recalls many of the tunes he wrote to help him remember information. When he sings a song in his head, he’ll get a refresher on pediatric developmental milestones, medication side effects, anatomical details, and more, which informs the treatment plans he devises for patients. To help other doctors reap these benefits, Sue created the website Tune Rx, a medical music study resource that includes many of the roughly 100 songs he’s written.

Emdin often discusses his musical strategies during talks on STEM education. Initially, people are skeptical, he said. But the idea quickly rings a bell for audience members. “They come up to me afterward to share anecdotes,” Emdin said. “If you have enough anecdotes, there’s a pattern. So let’s create a process. Let’s be intentional about using music as a learning strategy,” he urged.

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

“Because you know I’m all about that base, ‘bout that base, no acid.” 

Do those words sound familiar? That’s because they’re the lyrics to Meghan Trainor’s “All About That Bass,” slightly tweaked to function as a medical study tool.

Early in med school, J.C. Sue, DO, now a family medicine physician, refashioned the song’s words to help him prepare for a test on acid extruders and loaders. Sue’s version, “All About That Base,” contained his lecture notes. During the exam, he found himself mentally singing his parody and easily recalling the information. Plus, the approach made cramming a lot more palatable.

Sound silly? It’s not. Sue’s approach is backed up by science. A significant body of research has illuminated the positive association between music and memory. And the benefits last. Recently, a 2024 study from Canada suggested that musical memory doesn’t decrease with age. And a 2023 study revealed music was a better cue than food for helping both young and older adults recall autobiographical memories.

Inspired by his success, Sue gave popular songs a medical spin throughout his medical training. “There’s no rule that says studying must be boring, tedious, or torturous,” Sue said. “If you can make it fun, why not?”

Sue isn’t alone. Many physicians say that writing songs, listening to music, or playing instruments improves their focus, energy, and work performance, along with their confidence and well-being.

Why does music work so well?
 

Tune Your Brain to Work With Tunes

Remember learning your ABCs to the tune of “Twinkle, Twinkle, Little Star?” (Or ask any Gen X person about Schoolhouse Rock.)

In the classroom, music is an established tool for teaching kids, said Ruth Gotian, EdD, MS, chief learning officer and associate professor of education in anesthesiology at Weill Cornell Medicine, New York City. But she said musical strategies make studying easier for adults, too, no matter how complex the material.

Christopher Emdin, PhD, Maxine Greene chair and professor of science education at Teachers College, Columbia University, New York City, shares Gotian’s view. When teaching science, engineering, technology, and mathematics (STEM) subjects to high school kids, he challenged them to write raps about the new concepts.

That’s when he saw visible results: As his students took exams, Emdin noticed them nodding and moving their mouths and heads.

“They were literally performing the songs they’d written for themselves,” Emdin said. “When you write a song to a beat, it’s almost like your heartbeat. You know it so well; you can conjure up your memories by reciting the lyrics.”

If songwriting isn’t in your repertoire, you’ll be glad to hear that just listening to music while studying can help with retention. “Music keeps both sides of the brain stimulated, which has been shown to increase focus and motivation,” explained Anita A. Paschall, MD, PhD, Medical School and Healthcare Admissions expert/director of Medical School and Healthcare Admissions at The Princeton Review.
 

‘Mind on a Permanent Vacation’

Paschall’s enthusiasm comes from personal experience. While preparing for her board exams, Jimmy Buffet’s catalog was her study soundtrack. “His songs stayed in my mind. I could hum along without having to think about it, so my brain was free to focus,” she recalled.

Because Paschall grew up listening to Buffet’s tunes, they also evoked relaxing moments from her earlier life, which she found comforting and uplifting. The combination helped make long, intense study sessions more pleasant. After all, when you’re “wasting away again in Margaritaville,” how can you feel stressed and despondent?

Alexander Remy Bonnel, MD, clinical assistant professor of medicine at the University of Pennsylvania and a physician at Pennsylvania Hospital, both in Philadelphia, found ways to incorporate both auditory and visual stimuli in his med school study routine. He listened to music while color-coding his notes to link both cues to the information. As with Paschall, these tactics helped reduce the monotony of learning reams of material.

That gave Bonnel an easy way to establish an important element for memory: Novelty.

“When you need to memorize so many things in a short amount of time, you’re trying to vary ways of internalizing information,” he observed. “You have a higher chance of retaining information if there’s something unique about it.”
 

Building Team Harmony

“Almost every single OR I rotated through in med school had music playing,” Bonnel also recalled. Furthermore, he noticed a pattern to the chosen songs: Regardless of their age, surgeons selected playlists of tunes that had been popular when they were in their 20s. Those golden oldies, from any era, could turn the OR team into a focused, cohesive unit.

Kyle McCormick, MD, a fifth-year resident in orthopedic surgery at New York–Presbyterian Hospital, Columbia University Irving Medical Center, New York City, has also noticed the ubiquity of background music in ORs. Her observation: Surgeons tend to choose universally popular, inoffensive songs, like tracks from Hall & Oates and Fleetwood Mac.

This meshes with the results of a joint survey of nearly 700 surgeons and other healthcare professionals conducted by Spotify and Figure 1 in 2021; 90% of the surgeons and surgical residents who responded said they listened to music in the OR. Rock and pop were the most popular genres, followed by classical, jazz, and then R&B.

Regardless of genre, music helped the surgical teams focus and feel less tense, the surgeons reported. But when training younger doctors, managing complications, or performing during critical points in surgery, many said they’d lower the volume.

Outside the OR, music can also help foster connection between colleagues. For Lawrence C. Loh, MD, MPH, adjunct professor at Dalla Lana School of Public Health at the University of Toronto in Ontario, Canada, playing guitar and piano has helped him connect with his staff. “I’ve played tunes at staff gatherings and recorded videos as encouragement during the emergency response for COVID-19,” he shared.

In his free time, Loh has also organized outings to his local pub’s weekly karaoke show for more than a decade. His goal: “Promote social cohesion and combat loneliness among my friend and social networks.”
 

Get Your Own Musical Boost

If all this sounds like music to your ears, here are some ways to try it yourself.

Find a study soundtrack. When choosing study music, follow Paschall’s lead and pick songs you know well so they’ll remain in the background. Also, compile a soundtrack you find pleasant and mood-boosting to help relieve the tedium of study and decrease stress.

Keep in mind that we all take in and process information differently, said Gotian. So background music during study sessions might not work for you. According to a 2017 study published in Frontiers in Psychology, it can be a distraction and impair learning for some. Do what works.

Get pumped with a “walkup song.” What songs make you feel like you could conquer the world? asked Emdin. Or what soundtrack would be playing if you were ascending a stage to accept an award or walking out to take the mound in the ninth inning? Those songs should be on what he calls your “superhero” or “walkup” playlist. His prescription: Tune in before you begin your workday or start a challenging procedure.

Paschall agrees and recommends her students and clients listen to music before sitting down for an exam. Forget reviewing flashcards for the nth time, she counseled. Putting on headphones (or earbuds) will put you in a “better headspace.”

Choose work and play playlists. As well as incorporating tunes in your clinic or hospital, music can help relieve stress at the end of the workday. “Medical culture can often be detrimental to doctors’ health,” said Sue, who credits music with helping him maintain equanimity.

Bonnel can relate. Practicing and performing with the Penn Medicine Symphony Orchestra offers him a sense of community and relief from the stress of modern life. “For 2 hours every Tuesday, I put my phone away and just play,” he said. “It’s nice to have those moments when I’m temporarily disconnected and can just focus on one thing: Playing.”
 

Scale Up Your Career

Years after med school graduation, Sue still recalls many of the tunes he wrote to help him remember information. When he sings a song in his head, he’ll get a refresher on pediatric developmental milestones, medication side effects, anatomical details, and more, which informs the treatment plans he devises for patients. To help other doctors reap these benefits, Sue created the website Tune Rx, a medical music study resource that includes many of the roughly 100 songs he’s written.

Emdin often discusses his musical strategies during talks on STEM education. Initially, people are skeptical, he said. But the idea quickly rings a bell for audience members. “They come up to me afterward to share anecdotes,” Emdin said. “If you have enough anecdotes, there’s a pattern. So let’s create a process. Let’s be intentional about using music as a learning strategy,” he urged.

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

“Because you know I’m all about that base, ‘bout that base, no acid.” 

Do those words sound familiar? That’s because they’re the lyrics to Meghan Trainor’s “All About That Bass,” slightly tweaked to function as a medical study tool.

Early in med school, J.C. Sue, DO, now a family medicine physician, refashioned the song’s words to help him prepare for a test on acid extruders and loaders. Sue’s version, “All About That Base,” contained his lecture notes. During the exam, he found himself mentally singing his parody and easily recalling the information. Plus, the approach made cramming a lot more palatable.

Sound silly? It’s not. Sue’s approach is backed up by science. A significant body of research has illuminated the positive association between music and memory. And the benefits last. Recently, a 2024 study from Canada suggested that musical memory doesn’t decrease with age. And a 2023 study revealed music was a better cue than food for helping both young and older adults recall autobiographical memories.

Inspired by his success, Sue gave popular songs a medical spin throughout his medical training. “There’s no rule that says studying must be boring, tedious, or torturous,” Sue said. “If you can make it fun, why not?”

Sue isn’t alone. Many physicians say that writing songs, listening to music, or playing instruments improves their focus, energy, and work performance, along with their confidence and well-being.

Why does music work so well?
 

Tune Your Brain to Work With Tunes

Remember learning your ABCs to the tune of “Twinkle, Twinkle, Little Star?” (Or ask any Gen X person about Schoolhouse Rock.)

In the classroom, music is an established tool for teaching kids, said Ruth Gotian, EdD, MS, chief learning officer and associate professor of education in anesthesiology at Weill Cornell Medicine, New York City. But she said musical strategies make studying easier for adults, too, no matter how complex the material.

Christopher Emdin, PhD, Maxine Greene chair and professor of science education at Teachers College, Columbia University, New York City, shares Gotian’s view. When teaching science, engineering, technology, and mathematics (STEM) subjects to high school kids, he challenged them to write raps about the new concepts.

That’s when he saw visible results: As his students took exams, Emdin noticed them nodding and moving their mouths and heads.

“They were literally performing the songs they’d written for themselves,” Emdin said. “When you write a song to a beat, it’s almost like your heartbeat. You know it so well; you can conjure up your memories by reciting the lyrics.”

If songwriting isn’t in your repertoire, you’ll be glad to hear that just listening to music while studying can help with retention. “Music keeps both sides of the brain stimulated, which has been shown to increase focus and motivation,” explained Anita A. Paschall, MD, PhD, Medical School and Healthcare Admissions expert/director of Medical School and Healthcare Admissions at The Princeton Review.
 

‘Mind on a Permanent Vacation’

Paschall’s enthusiasm comes from personal experience. While preparing for her board exams, Jimmy Buffet’s catalog was her study soundtrack. “His songs stayed in my mind. I could hum along without having to think about it, so my brain was free to focus,” she recalled.

Because Paschall grew up listening to Buffet’s tunes, they also evoked relaxing moments from her earlier life, which she found comforting and uplifting. The combination helped make long, intense study sessions more pleasant. After all, when you’re “wasting away again in Margaritaville,” how can you feel stressed and despondent?

Alexander Remy Bonnel, MD, clinical assistant professor of medicine at the University of Pennsylvania and a physician at Pennsylvania Hospital, both in Philadelphia, found ways to incorporate both auditory and visual stimuli in his med school study routine. He listened to music while color-coding his notes to link both cues to the information. As with Paschall, these tactics helped reduce the monotony of learning reams of material.

That gave Bonnel an easy way to establish an important element for memory: Novelty.

“When you need to memorize so many things in a short amount of time, you’re trying to vary ways of internalizing information,” he observed. “You have a higher chance of retaining information if there’s something unique about it.”
 

Building Team Harmony

“Almost every single OR I rotated through in med school had music playing,” Bonnel also recalled. Furthermore, he noticed a pattern to the chosen songs: Regardless of their age, surgeons selected playlists of tunes that had been popular when they were in their 20s. Those golden oldies, from any era, could turn the OR team into a focused, cohesive unit.

Kyle McCormick, MD, a fifth-year resident in orthopedic surgery at New York–Presbyterian Hospital, Columbia University Irving Medical Center, New York City, has also noticed the ubiquity of background music in ORs. Her observation: Surgeons tend to choose universally popular, inoffensive songs, like tracks from Hall & Oates and Fleetwood Mac.

This meshes with the results of a joint survey of nearly 700 surgeons and other healthcare professionals conducted by Spotify and Figure 1 in 2021; 90% of the surgeons and surgical residents who responded said they listened to music in the OR. Rock and pop were the most popular genres, followed by classical, jazz, and then R&B.

Regardless of genre, music helped the surgical teams focus and feel less tense, the surgeons reported. But when training younger doctors, managing complications, or performing during critical points in surgery, many said they’d lower the volume.

Outside the OR, music can also help foster connection between colleagues. For Lawrence C. Loh, MD, MPH, adjunct professor at Dalla Lana School of Public Health at the University of Toronto in Ontario, Canada, playing guitar and piano has helped him connect with his staff. “I’ve played tunes at staff gatherings and recorded videos as encouragement during the emergency response for COVID-19,” he shared.

In his free time, Loh has also organized outings to his local pub’s weekly karaoke show for more than a decade. His goal: “Promote social cohesion and combat loneliness among my friend and social networks.”
 

Get Your Own Musical Boost

If all this sounds like music to your ears, here are some ways to try it yourself.

Find a study soundtrack. When choosing study music, follow Paschall’s lead and pick songs you know well so they’ll remain in the background. Also, compile a soundtrack you find pleasant and mood-boosting to help relieve the tedium of study and decrease stress.

Keep in mind that we all take in and process information differently, said Gotian. So background music during study sessions might not work for you. According to a 2017 study published in Frontiers in Psychology, it can be a distraction and impair learning for some. Do what works.

Get pumped with a “walkup song.” What songs make you feel like you could conquer the world? asked Emdin. Or what soundtrack would be playing if you were ascending a stage to accept an award or walking out to take the mound in the ninth inning? Those songs should be on what he calls your “superhero” or “walkup” playlist. His prescription: Tune in before you begin your workday or start a challenging procedure.

Paschall agrees and recommends her students and clients listen to music before sitting down for an exam. Forget reviewing flashcards for the nth time, she counseled. Putting on headphones (or earbuds) will put you in a “better headspace.”

Choose work and play playlists. As well as incorporating tunes in your clinic or hospital, music can help relieve stress at the end of the workday. “Medical culture can often be detrimental to doctors’ health,” said Sue, who credits music with helping him maintain equanimity.

Bonnel can relate. Practicing and performing with the Penn Medicine Symphony Orchestra offers him a sense of community and relief from the stress of modern life. “For 2 hours every Tuesday, I put my phone away and just play,” he said. “It’s nice to have those moments when I’m temporarily disconnected and can just focus on one thing: Playing.”
 

Scale Up Your Career

Years after med school graduation, Sue still recalls many of the tunes he wrote to help him remember information. When he sings a song in his head, he’ll get a refresher on pediatric developmental milestones, medication side effects, anatomical details, and more, which informs the treatment plans he devises for patients. To help other doctors reap these benefits, Sue created the website Tune Rx, a medical music study resource that includes many of the roughly 100 songs he’s written.

Emdin often discusses his musical strategies during talks on STEM education. Initially, people are skeptical, he said. But the idea quickly rings a bell for audience members. “They come up to me afterward to share anecdotes,” Emdin said. “If you have enough anecdotes, there’s a pattern. So let’s create a process. Let’s be intentional about using music as a learning strategy,” he urged.

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

Glucagon-like peptide 1 receptor agonists (GLP-1 RAs) given to adolescents with obesity was associated with a one-third decreased risk for suicidal ideation and suicide attempts compared with lifestyle intervention alone, a large international retrospective study found.

A study published in JAMA Pediatrics suggested that GLP-1 RAs such as semaglutide, liraglutide, and tirzepatide, which are widely used to treat type 2 diabetes (T2D), have a favorable psychiatric safety profile and open up potential avenues for prospective studies of psychiatric outcomes in adolescents with obesity.

Investigators Liya Kerem, MD, MSc, and Joshua Stokar, MD, of Hadassah University Medical Center in Jerusalem, Israel, reported that the reduced risk in GLP-1 RA recipients was maintained up to 3 years follow-up compared with propensity score–matched controls treated with behavioral interventions alone.

“These findings support the notion that childhood obesity does not result from lack of willpower and shed light on underlying mechanisms that can be targeted by pharmacotherapy.” Kerem and Stokar wrote.

Other research has suggested these agents have neurobiologic effects unrelated to weight loss that positively affect mood and mental health.
 

Study Details

The analysis included data from December 2019 to June 2024, drawn from 120 international healthcare organizations, mainly in the United States. A total of 4052 racially and ethnically diverse adolescents with obesity (aged 12-18 years [mean age, about 15.5 years]) being treated with an anti-obesity intervention were identified for the GLP-1 RA cohort and 50,112 for the control cohort. The arms were balanced for baseline demographic characteristics, psychiatric medications and comorbidities, and diagnoses associated with socioeconomic status and healthcare access.

Propensity score matching (PSM) resulted in 3456 participants in each of two balanced cohorts.

Before PSM, intervention patients were older (mean age, 15.5 vs 14.7 years), were more likely to be female (59% vs 49%), and had a higher body mass index (41.9 vs 33.8). They also had a higher prevalence of diabetes (40% vs 4%) and treatment with antidiabetic medications.

GLP-1 RA recipients also had a history of psychiatric diagnoses (17% vs 9% for mood disorders) and psychiatric medications (18% vs 7% for antidepressants). Previous use of non–GLP-1 RA anti-obesity medications was uncommon in the cohort overall, although more common in the GLP-1 RA cohort (2.5% vs 0.2% for phentermine).

Prescription of GLP-1 RA was associated with a 33% reduced risk for suicidal ideation or attempts over 12 months of follow-up: 1.45% vs 2.26% (hazard ratio [HR], 0.67; 95% CI, 0.47-0.95; P = .02). It was also associated with a higher rate of gastrointestinal symptoms: 6.9% vs 5.4% (HR, 1.41; 95% CI, 1.12-1.78; P = .003). There was no difference in rates of upper respiratory tract infections (URTIs), although some research suggests these agents reduce URTIs.
 

Mechanisms

The etiology of childhood obesity is complex and multifactorial, the authors wrote, and genetic predisposition to adiposity, an obesogenic environment, and a sedentary lifestyle synergistically contribute to its development. Variants in genes active in the hypothalamic appetite-regulation neurocircuitry appear to be associated with the development of childhood and adolescent obesity.

The authors noted that adolescence carries an increased risk for psychiatric disorders and suicidal ideation. “The amelioration of obesity could indirectly improve these psychiatric comorbidities,” they wrote. In addition, preclinical studies suggested that GLP-1 RA may improve depression-related neuropathology, including neuroinflammation and neurotransmitter imbalance, and may promote neurogenesis.

A recent meta-analysis found that adults with T2D treated with GLP-1 RA showed significant reduction in depression scale scores compared with those treated with non-GLP-1 RA antidiabetic medications.

Commenting on the study but not involved in it, psychiatrist Robert H. Dicker, MD, associate director of child and adolescent psychiatry at Northwell Zucker Hillside Hospital in Glen Oaks, New York, cautioned that these are preliminary data limited by a retrospective review, not a prospective double-blind, placebo-controlled study.

“The mechanism is unknown — is it a direct effect on weight loss with an improvement of quality of life, more positive feedback by the community, enhanced ability to exercise, and a decrease in depressive symptoms?” he asked.

Dicker suggested an alternative hypothesis: Does the GLP-1 RA have a direct effect on neurotransmitters and inflammation and, thus, an impact on mood, emotional regulation, impulse control, and suicide?

“To further answer these questions, prospective studies must be conducted. It is far too early to conclude that these medications are effective in treating mood disorders in our youth,” Dicker said. “But it is promising that these treatments do not appear to increase suicidal ideas and behavior.”

Adding another outsider’s perspective on the study, Suzanne E. Cuda, MD, FOMA, FAAP, a pediatrician who treats childhood obesity in San Antonio, said that while there was no risk for increased psychiatric disease and a suggestion that GLP-1 RAs may reduce suicidal ideation or attempts, “I don’t think this translates to a treatment for depression in adolescents. Nor does this study indicate there could be a decrease in depression due specifically to the use of GLP1Rs. If the results in this study are replicated, however, it would be reassuring to know that adolescents would not be at risk for an increase in suicidal ideation or attempts.”

This study had no external funding. Kerem reported receiving personal fees from Novo Nordisk for lectures on childhood obesity outside of the submitted work. No other disclosures were reported. Dicker and Cuda had no competing interests relevant to their comments.

A version of this article appeared on Medscape.com.

Glucagon-like peptide 1 receptor agonists (GLP-1 RAs) given to adolescents with obesity was associated with a one-third decreased risk for suicidal ideation and suicide attempts compared with lifestyle intervention alone, a large international retrospective study found.

A study published in JAMA Pediatrics suggested that GLP-1 RAs such as semaglutide, liraglutide, and tirzepatide, which are widely used to treat type 2 diabetes (T2D), have a favorable psychiatric safety profile and open up potential avenues for prospective studies of psychiatric outcomes in adolescents with obesity.

Investigators Liya Kerem, MD, MSc, and Joshua Stokar, MD, of Hadassah University Medical Center in Jerusalem, Israel, reported that the reduced risk in GLP-1 RA recipients was maintained up to 3 years follow-up compared with propensity score–matched controls treated with behavioral interventions alone.

“These findings support the notion that childhood obesity does not result from lack of willpower and shed light on underlying mechanisms that can be targeted by pharmacotherapy.” Kerem and Stokar wrote.

Other research has suggested these agents have neurobiologic effects unrelated to weight loss that positively affect mood and mental health.
 

Study Details

The analysis included data from December 2019 to June 2024, drawn from 120 international healthcare organizations, mainly in the United States. A total of 4052 racially and ethnically diverse adolescents with obesity (aged 12-18 years [mean age, about 15.5 years]) being treated with an anti-obesity intervention were identified for the GLP-1 RA cohort and 50,112 for the control cohort. The arms were balanced for baseline demographic characteristics, psychiatric medications and comorbidities, and diagnoses associated with socioeconomic status and healthcare access.

Propensity score matching (PSM) resulted in 3456 participants in each of two balanced cohorts.

Before PSM, intervention patients were older (mean age, 15.5 vs 14.7 years), were more likely to be female (59% vs 49%), and had a higher body mass index (41.9 vs 33.8). They also had a higher prevalence of diabetes (40% vs 4%) and treatment with antidiabetic medications.

GLP-1 RA recipients also had a history of psychiatric diagnoses (17% vs 9% for mood disorders) and psychiatric medications (18% vs 7% for antidepressants). Previous use of non–GLP-1 RA anti-obesity medications was uncommon in the cohort overall, although more common in the GLP-1 RA cohort (2.5% vs 0.2% for phentermine).

Prescription of GLP-1 RA was associated with a 33% reduced risk for suicidal ideation or attempts over 12 months of follow-up: 1.45% vs 2.26% (hazard ratio [HR], 0.67; 95% CI, 0.47-0.95; P = .02). It was also associated with a higher rate of gastrointestinal symptoms: 6.9% vs 5.4% (HR, 1.41; 95% CI, 1.12-1.78; P = .003). There was no difference in rates of upper respiratory tract infections (URTIs), although some research suggests these agents reduce URTIs.
 

Mechanisms

The etiology of childhood obesity is complex and multifactorial, the authors wrote, and genetic predisposition to adiposity, an obesogenic environment, and a sedentary lifestyle synergistically contribute to its development. Variants in genes active in the hypothalamic appetite-regulation neurocircuitry appear to be associated with the development of childhood and adolescent obesity.

The authors noted that adolescence carries an increased risk for psychiatric disorders and suicidal ideation. “The amelioration of obesity could indirectly improve these psychiatric comorbidities,” they wrote. In addition, preclinical studies suggested that GLP-1 RA may improve depression-related neuropathology, including neuroinflammation and neurotransmitter imbalance, and may promote neurogenesis.

A recent meta-analysis found that adults with T2D treated with GLP-1 RA showed significant reduction in depression scale scores compared with those treated with non-GLP-1 RA antidiabetic medications.

Commenting on the study but not involved in it, psychiatrist Robert H. Dicker, MD, associate director of child and adolescent psychiatry at Northwell Zucker Hillside Hospital in Glen Oaks, New York, cautioned that these are preliminary data limited by a retrospective review, not a prospective double-blind, placebo-controlled study.

“The mechanism is unknown — is it a direct effect on weight loss with an improvement of quality of life, more positive feedback by the community, enhanced ability to exercise, and a decrease in depressive symptoms?” he asked.

Dicker suggested an alternative hypothesis: Does the GLP-1 RA have a direct effect on neurotransmitters and inflammation and, thus, an impact on mood, emotional regulation, impulse control, and suicide?

“To further answer these questions, prospective studies must be conducted. It is far too early to conclude that these medications are effective in treating mood disorders in our youth,” Dicker said. “But it is promising that these treatments do not appear to increase suicidal ideas and behavior.”

Adding another outsider’s perspective on the study, Suzanne E. Cuda, MD, FOMA, FAAP, a pediatrician who treats childhood obesity in San Antonio, said that while there was no risk for increased psychiatric disease and a suggestion that GLP-1 RAs may reduce suicidal ideation or attempts, “I don’t think this translates to a treatment for depression in adolescents. Nor does this study indicate there could be a decrease in depression due specifically to the use of GLP1Rs. If the results in this study are replicated, however, it would be reassuring to know that adolescents would not be at risk for an increase in suicidal ideation or attempts.”

This study had no external funding. Kerem reported receiving personal fees from Novo Nordisk for lectures on childhood obesity outside of the submitted work. No other disclosures were reported. Dicker and Cuda had no competing interests relevant to their comments.

A version of this article appeared on Medscape.com.

Glucagon-like peptide 1 receptor agonists (GLP-1 RAs) given to adolescents with obesity was associated with a one-third decreased risk for suicidal ideation and suicide attempts compared with lifestyle intervention alone, a large international retrospective study found.

A study published in JAMA Pediatrics suggested that GLP-1 RAs such as semaglutide, liraglutide, and tirzepatide, which are widely used to treat type 2 diabetes (T2D), have a favorable psychiatric safety profile and open up potential avenues for prospective studies of psychiatric outcomes in adolescents with obesity.

Investigators Liya Kerem, MD, MSc, and Joshua Stokar, MD, of Hadassah University Medical Center in Jerusalem, Israel, reported that the reduced risk in GLP-1 RA recipients was maintained up to 3 years follow-up compared with propensity score–matched controls treated with behavioral interventions alone.

“These findings support the notion that childhood obesity does not result from lack of willpower and shed light on underlying mechanisms that can be targeted by pharmacotherapy.” Kerem and Stokar wrote.

Other research has suggested these agents have neurobiologic effects unrelated to weight loss that positively affect mood and mental health.
 

Study Details

The analysis included data from December 2019 to June 2024, drawn from 120 international healthcare organizations, mainly in the United States. A total of 4052 racially and ethnically diverse adolescents with obesity (aged 12-18 years [mean age, about 15.5 years]) being treated with an anti-obesity intervention were identified for the GLP-1 RA cohort and 50,112 for the control cohort. The arms were balanced for baseline demographic characteristics, psychiatric medications and comorbidities, and diagnoses associated with socioeconomic status and healthcare access.

Propensity score matching (PSM) resulted in 3456 participants in each of two balanced cohorts.

Before PSM, intervention patients were older (mean age, 15.5 vs 14.7 years), were more likely to be female (59% vs 49%), and had a higher body mass index (41.9 vs 33.8). They also had a higher prevalence of diabetes (40% vs 4%) and treatment with antidiabetic medications.

GLP-1 RA recipients also had a history of psychiatric diagnoses (17% vs 9% for mood disorders) and psychiatric medications (18% vs 7% for antidepressants). Previous use of non–GLP-1 RA anti-obesity medications was uncommon in the cohort overall, although more common in the GLP-1 RA cohort (2.5% vs 0.2% for phentermine).

Prescription of GLP-1 RA was associated with a 33% reduced risk for suicidal ideation or attempts over 12 months of follow-up: 1.45% vs 2.26% (hazard ratio [HR], 0.67; 95% CI, 0.47-0.95; P = .02). It was also associated with a higher rate of gastrointestinal symptoms: 6.9% vs 5.4% (HR, 1.41; 95% CI, 1.12-1.78; P = .003). There was no difference in rates of upper respiratory tract infections (URTIs), although some research suggests these agents reduce URTIs.
 

Mechanisms

The etiology of childhood obesity is complex and multifactorial, the authors wrote, and genetic predisposition to adiposity, an obesogenic environment, and a sedentary lifestyle synergistically contribute to its development. Variants in genes active in the hypothalamic appetite-regulation neurocircuitry appear to be associated with the development of childhood and adolescent obesity.

The authors noted that adolescence carries an increased risk for psychiatric disorders and suicidal ideation. “The amelioration of obesity could indirectly improve these psychiatric comorbidities,” they wrote. In addition, preclinical studies suggested that GLP-1 RA may improve depression-related neuropathology, including neuroinflammation and neurotransmitter imbalance, and may promote neurogenesis.

A recent meta-analysis found that adults with T2D treated with GLP-1 RA showed significant reduction in depression scale scores compared with those treated with non-GLP-1 RA antidiabetic medications.

Commenting on the study but not involved in it, psychiatrist Robert H. Dicker, MD, associate director of child and adolescent psychiatry at Northwell Zucker Hillside Hospital in Glen Oaks, New York, cautioned that these are preliminary data limited by a retrospective review, not a prospective double-blind, placebo-controlled study.

“The mechanism is unknown — is it a direct effect on weight loss with an improvement of quality of life, more positive feedback by the community, enhanced ability to exercise, and a decrease in depressive symptoms?” he asked.

Dicker suggested an alternative hypothesis: Does the GLP-1 RA have a direct effect on neurotransmitters and inflammation and, thus, an impact on mood, emotional regulation, impulse control, and suicide?

“To further answer these questions, prospective studies must be conducted. It is far too early to conclude that these medications are effective in treating mood disorders in our youth,” Dicker said. “But it is promising that these treatments do not appear to increase suicidal ideas and behavior.”

Adding another outsider’s perspective on the study, Suzanne E. Cuda, MD, FOMA, FAAP, a pediatrician who treats childhood obesity in San Antonio, said that while there was no risk for increased psychiatric disease and a suggestion that GLP-1 RAs may reduce suicidal ideation or attempts, “I don’t think this translates to a treatment for depression in adolescents. Nor does this study indicate there could be a decrease in depression due specifically to the use of GLP1Rs. If the results in this study are replicated, however, it would be reassuring to know that adolescents would not be at risk for an increase in suicidal ideation or attempts.”

This study had no external funding. Kerem reported receiving personal fees from Novo Nordisk for lectures on childhood obesity outside of the submitted work. No other disclosures were reported. Dicker and Cuda had no competing interests relevant to their comments.

A version of this article appeared on Medscape.com.

TOPLINE:

About one third of adult survivors of childhood cancer experience a clinically significant or high fear that their primary cancer may recur or that they will develop a subsequent malignancy, according to a recent analysis. The study finds that several factors are associated with a higher risk of experiencing a clinically significant fear of recurrence, including being unemployed or having elevated anxiety or depression.

METHODOLOGY:

• Adult survivors of childhood cancer face a high risk of developing subsequent malignant neoplasms — about a sixfold greater risk than in the general population — and studies indicate that these cancer survivors also fear their cancer will recur. However, data on the prevalence of and risk factors associated with clinically significant fear of recurrence in this population remain limited.
• This cross-sectional study included 229 adult survivors of childhood cancer (mean age at study completion, 39.6 years), recruited from the Childhood Cancer Survivor Study, who completed online surveys between October 2018 and April 2019.
• Fear of cancer recurrence was assessed using the 9-item Fear of Cancer Recurrence Inventory–Short Form, which defines recurrence as the possibility that cancer might return to the same or a different part of the body.
• Chronic pain, symptoms of depression and anxiety, self-perceived health, and intolerance of uncertainty were also evaluated.
• Among the participants, 21 experienced a recurrence of their primary cancer and 17 were diagnosed with a subsequent malignant neoplasm.
•  

TAKEAWAY:

• Overall, 38 (16.6%) adult survivors of childhood cancer reported clinically significant fear that their cancer would recur, and an additional 36 (15.7%) survivors experienced high levels of fear; the remaining 67.7% of participants reported minimal levels of fear.
• Survivors who were unemployed (prevalence ratio [PR], 2.5) were more likely to experience a clinically significant fear of recurrence, as were survivors who had undergone pelvic radiation (PR, 2.9) or limb-sparing or amputation surgery (PR, 2.4).
• Survivors who had elevated anxiety or depression (PR, 2.6) or both (PR, 3.2) were more likely to experience a clinically significant fear of recurrence, as were survivors who had a chronic neurologic health condition (PR, 3.3) or who perceived their health status to be poor or fair vs good to excellent (PR, 3.0).
• Among 94 participants with chronic pain, 25.5% reported clinically significant fear and 13.8% reported high levels of fear. But chronic pain (PR, 1.2; 95% CI, 0.6-2.4) was not significantly associated with a clinically significant fear of recurrence in a multivariable model.
•  

IN PRACTICE:

“These findings underscore the substantial psychological and functional burden of FCR [fear of cancer recurrence] and suggest healthcare professionals should routinely assess FCR as a part of providing comprehensive care to long-term survivors,” the authors wrote.

SOURCE:

The study, led by Alex Pizzo, MSc, Concordia University, Montréal, Québec, Canada, was published online in JAMA Network Open.

LIMITATIONS:

The cross-sectional design limited causal inference. Self-perceived health was assessed with a single item, limiting its measurement. Internet and smartphone access eligibility could have introduced bias. The study also lacked racial and ethnic diversity.

DISCLOSURES:

The study was supported by the Childhood Cancer Survivor Study Career Development Award and a grant from the National Cancer Institute. Additional funding was provided by the Canada Research Chairs Program. Three authors reported receiving grants from various sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

TOPLINE:

About one third of adult survivors of childhood cancer experience a clinically significant or high fear that their primary cancer may recur or that they will develop a subsequent malignancy, according to a recent analysis. The study finds that several factors are associated with a higher risk of experiencing a clinically significant fear of recurrence, including being unemployed or having elevated anxiety or depression.

METHODOLOGY:

• Adult survivors of childhood cancer face a high risk of developing subsequent malignant neoplasms — about a sixfold greater risk than in the general population — and studies indicate that these cancer survivors also fear their cancer will recur. However, data on the prevalence of and risk factors associated with clinically significant fear of recurrence in this population remain limited.
• This cross-sectional study included 229 adult survivors of childhood cancer (mean age at study completion, 39.6 years), recruited from the Childhood Cancer Survivor Study, who completed online surveys between October 2018 and April 2019.
• Fear of cancer recurrence was assessed using the 9-item Fear of Cancer Recurrence Inventory–Short Form, which defines recurrence as the possibility that cancer might return to the same or a different part of the body.
• Chronic pain, symptoms of depression and anxiety, self-perceived health, and intolerance of uncertainty were also evaluated.
• Among the participants, 21 experienced a recurrence of their primary cancer and 17 were diagnosed with a subsequent malignant neoplasm.
•  

TAKEAWAY:

• Overall, 38 (16.6%) adult survivors of childhood cancer reported clinically significant fear that their cancer would recur, and an additional 36 (15.7%) survivors experienced high levels of fear; the remaining 67.7% of participants reported minimal levels of fear.
• Survivors who were unemployed (prevalence ratio [PR], 2.5) were more likely to experience a clinically significant fear of recurrence, as were survivors who had undergone pelvic radiation (PR, 2.9) or limb-sparing or amputation surgery (PR, 2.4).
• Survivors who had elevated anxiety or depression (PR, 2.6) or both (PR, 3.2) were more likely to experience a clinically significant fear of recurrence, as were survivors who had a chronic neurologic health condition (PR, 3.3) or who perceived their health status to be poor or fair vs good to excellent (PR, 3.0).
• Among 94 participants with chronic pain, 25.5% reported clinically significant fear and 13.8% reported high levels of fear. But chronic pain (PR, 1.2; 95% CI, 0.6-2.4) was not significantly associated with a clinically significant fear of recurrence in a multivariable model.
•  

IN PRACTICE:

“These findings underscore the substantial psychological and functional burden of FCR [fear of cancer recurrence] and suggest healthcare professionals should routinely assess FCR as a part of providing comprehensive care to long-term survivors,” the authors wrote.

SOURCE:

The study, led by Alex Pizzo, MSc, Concordia University, Montréal, Québec, Canada, was published online in JAMA Network Open.

LIMITATIONS:

The cross-sectional design limited causal inference. Self-perceived health was assessed with a single item, limiting its measurement. Internet and smartphone access eligibility could have introduced bias. The study also lacked racial and ethnic diversity.

DISCLOSURES:

The study was supported by the Childhood Cancer Survivor Study Career Development Award and a grant from the National Cancer Institute. Additional funding was provided by the Canada Research Chairs Program. Three authors reported receiving grants from various sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

TOPLINE:

About one third of adult survivors of childhood cancer experience a clinically significant or high fear that their primary cancer may recur or that they will develop a subsequent malignancy, according to a recent analysis. The study finds that several factors are associated with a higher risk of experiencing a clinically significant fear of recurrence, including being unemployed or having elevated anxiety or depression.

METHODOLOGY:

• Adult survivors of childhood cancer face a high risk of developing subsequent malignant neoplasms — about a sixfold greater risk than in the general population — and studies indicate that these cancer survivors also fear their cancer will recur. However, data on the prevalence of and risk factors associated with clinically significant fear of recurrence in this population remain limited.
• This cross-sectional study included 229 adult survivors of childhood cancer (mean age at study completion, 39.6 years), recruited from the Childhood Cancer Survivor Study, who completed online surveys between October 2018 and April 2019.
• Fear of cancer recurrence was assessed using the 9-item Fear of Cancer Recurrence Inventory–Short Form, which defines recurrence as the possibility that cancer might return to the same or a different part of the body.
• Chronic pain, symptoms of depression and anxiety, self-perceived health, and intolerance of uncertainty were also evaluated.
• Among the participants, 21 experienced a recurrence of their primary cancer and 17 were diagnosed with a subsequent malignant neoplasm.
•  

TAKEAWAY:

• Overall, 38 (16.6%) adult survivors of childhood cancer reported clinically significant fear that their cancer would recur, and an additional 36 (15.7%) survivors experienced high levels of fear; the remaining 67.7% of participants reported minimal levels of fear.
• Survivors who were unemployed (prevalence ratio [PR], 2.5) were more likely to experience a clinically significant fear of recurrence, as were survivors who had undergone pelvic radiation (PR, 2.9) or limb-sparing or amputation surgery (PR, 2.4).
• Survivors who had elevated anxiety or depression (PR, 2.6) or both (PR, 3.2) were more likely to experience a clinically significant fear of recurrence, as were survivors who had a chronic neurologic health condition (PR, 3.3) or who perceived their health status to be poor or fair vs good to excellent (PR, 3.0).
• Among 94 participants with chronic pain, 25.5% reported clinically significant fear and 13.8% reported high levels of fear. But chronic pain (PR, 1.2; 95% CI, 0.6-2.4) was not significantly associated with a clinically significant fear of recurrence in a multivariable model.
•  

IN PRACTICE:

“These findings underscore the substantial psychological and functional burden of FCR [fear of cancer recurrence] and suggest healthcare professionals should routinely assess FCR as a part of providing comprehensive care to long-term survivors,” the authors wrote.

SOURCE:

The study, led by Alex Pizzo, MSc, Concordia University, Montréal, Québec, Canada, was published online in JAMA Network Open.

LIMITATIONS:

The cross-sectional design limited causal inference. Self-perceived health was assessed with a single item, limiting its measurement. Internet and smartphone access eligibility could have introduced bias. The study also lacked racial and ethnic diversity.

DISCLOSURES:

The study was supported by the Childhood Cancer Survivor Study Career Development Award and a grant from the National Cancer Institute. Additional funding was provided by the Canada Research Chairs Program. Three authors reported receiving grants from various sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.