Internal Medicine News

MILAN — Recent research allaying concerns about suicidality linked to glucagon-like peptide 1 (GLP-1) receptor agonists, along with evidence of these agents’ potential psychiatric and cognitive benefits, has prompted the lead investigator of a major analysis to urge researchers to explore the potential of these drugs for mental illness.

“So far, we’ve been talking about the safety from a neuropsychiatric perspective in diabetes, but there is also the safety and benefit in people with mental disorders,” Riccardo De Giorgi, MD, PhD, from the Department of Psychiatry, University of Oxford in England, said in an interview.

The results of the meta-analysis were previously reported by this news organization and reviewed by Dr. De Giorgi at the 37th European College of Neuropsychopharmacology (ECNP) Congress. Dr. De Giorgi broached whether GLP-1 inhibitors such as semaglutide might also offer the same benefits in patients without diabetes as they do in those with diabetes, in terms of cognitive deficits and substance use or mood disorders.

Noting that GLP-1s are not approved for psychiatric disorders, Dr. De Giorgi said it can’t be assumed that the “metabolic or maybe even more general mechanisms that are being modified with these medications in diabetes or even in obesity are the same for people with psychiatric disorders. We’re talking about very different things. From a clinical perspective, you could do real harm,” he told this news organization.

Yet Dr. De Giorgi emphasized the importance of exploring the potential benefits of these medications in psychiatry.

“From a research perspective ... I am very worried about missing an opportunity here. This happened with rimonabant, a cannabis medication that was used for weight loss back in 2012 and was withdrawn quite dramatically in Europe immediately after licensing because it increased suicide risk. Since then, nobody has been touching the cannabinoid system, and that’s a shame because in psychiatry, we don’t have that much we can work on. So we don’t want to miss an opportunity with the GLP-1 system — that’s why we need to be cautious and look at safety first,” he said.
 

Signal of Efficacy?

Dr. De Giorgi’s research suggested several potential neurobiological effects of GLP-1 inhibition in diabetes research.

“There was a bit of a signal specifically for the big three dementias — vascular, Lewy Body, and frontotemporal — although there was not enough power,” he reported. “We also saw a reduced risk in nicotine misuse, especially amongst other substance use disorders ... and finally a more tentative association for reduced depression.”

He noted that GLP-1s for psychiatric illness likely have limitations and may not cure mental disorders but could help specific subsets of patients. Rather than aiming for large-scale studies, the focus should be on small, incremental studies to advance the research.

Asked by the session chair, John Cryan, PhD, from University College Cork in Ireland, and chair of the ECNP Scientific Committee whether improvement in patients’ mood could be attributed to weight loss, Dr. De Giorgi replied no.

“We now have quite a lot of studies that show that if there is an effect or association it is seen quite a bit earlier than any weight loss. Remember, weight loss takes quite a lot of time, and at quite high doses, but more provocatively, even if that’s the case, does it matter? We as psychiatrists do worry that we need to disentangle these things, but they don’t do that in cardiology, for example. If they see a benefit in mortality they don’t really care if it’s specifically an effect on heart failure or ischemic disease,” said Dr. De Giorgi.

Regardless of their neuropsychiatric potential, the cardiometabolic benefits of GLP-1 inhibitors are sorely needed in the psychiatric population, noted two experts in a recent JAMA Psychiatry viewpoint article.

Sri Mahavir Agarwal, MD, PhD, and Margaret Hahn, MD, PhD, from the University of Toronto and the Schizophrenia Division at the Centre for Addiction and Mental Health, in Toronto, Ontario, Canada, pointed out that “individuals with severe mental illness (SMI) have exceedingly high rates of metabolic comorbidity; three of four are overweight or obese, whereas the prevalence of type 2 diabetes (T2D) is several-fold higher than in the general population. Consequently, individuals with SMI die 15-20 years earlier from cardiovascular disease (CVD) than do those in the general population with CVD,” they noted.

“The arrival of semaglutide has infused significant enthusiasm in the field of mental health research. The proximal effects of weight and related CV comorbidities are significant in themselves. It is plausible that semaglutide could act through neurogenesis or secondary benefits of improving metabolic health on other important outcomes, such as cognitive health and quality of life, thereby filling an unmet need in the treatment of SMI,” Dr. Agarwal and Dr. Hahn added.
 

An Exciting Opportunity

Current research investigating GLP-1s in psychiatry and neurology is increasingly focused on neuroinflammation, said Dr. De Giorgi.

Research shows significant evidence that certain medications may help reduce dysfunctional inflammatory processes linked to various cognitive and psychiatric disorders, he added.

Many patients with established psychiatric conditions also have physical health issues, which contribute to increased mortality risk, said Dr. De Giorgi. It’s crucial to understand that, if these treatments improve mortality outcomes for psychiatric patients, the specific mechanisms involved are secondary to the results. Psychiatrists must be equipped to prescribe, manage, and initiate these therapies.

“While trials involving psychosis patients are ongoing, we are making progress and should seize this opportunity” said Dr. De Giorgi.

Dr. Cryan agreed: “I think we’ll get there. What these drugs have shown is that you can, through a single mechanism, have multitude effects related to brain-body interactions, and why not focus that on mood and anxiety and cognitive performance? It’s exciting no matter what. We now need to do longitudinal, cross-sectional, placebo-controlled trials in specific patient populations.”

This study received funding from the National Institute for Health and Care Research Oxford Health Biomedical Research Centre and Medical Research Council. Dr. De Giorgi’s coauthors reported receiving funding for other work from Novo Nordisk, Five Lives, Cognetivity Ltd., Cognex, P1vital, Lundbeck, Servier, UCB, Zogenix, Johnson & Johnson, and Syndesi. Dr. Cryan reported no relevant disclosures.

A version of this article appeared on Medscape.com.

MILAN — Recent research allaying concerns about suicidality linked to glucagon-like peptide 1 (GLP-1) receptor agonists, along with evidence of these agents’ potential psychiatric and cognitive benefits, has prompted the lead investigator of a major analysis to urge researchers to explore the potential of these drugs for mental illness.

“So far, we’ve been talking about the safety from a neuropsychiatric perspective in diabetes, but there is also the safety and benefit in people with mental disorders,” Riccardo De Giorgi, MD, PhD, from the Department of Psychiatry, University of Oxford in England, said in an interview.

The results of the meta-analysis were previously reported by this news organization and reviewed by Dr. De Giorgi at the 37th European College of Neuropsychopharmacology (ECNP) Congress. Dr. De Giorgi broached whether GLP-1 inhibitors such as semaglutide might also offer the same benefits in patients without diabetes as they do in those with diabetes, in terms of cognitive deficits and substance use or mood disorders.

Noting that GLP-1s are not approved for psychiatric disorders, Dr. De Giorgi said it can’t be assumed that the “metabolic or maybe even more general mechanisms that are being modified with these medications in diabetes or even in obesity are the same for people with psychiatric disorders. We’re talking about very different things. From a clinical perspective, you could do real harm,” he told this news organization.

Yet Dr. De Giorgi emphasized the importance of exploring the potential benefits of these medications in psychiatry.

“From a research perspective ... I am very worried about missing an opportunity here. This happened with rimonabant, a cannabis medication that was used for weight loss back in 2012 and was withdrawn quite dramatically in Europe immediately after licensing because it increased suicide risk. Since then, nobody has been touching the cannabinoid system, and that’s a shame because in psychiatry, we don’t have that much we can work on. So we don’t want to miss an opportunity with the GLP-1 system — that’s why we need to be cautious and look at safety first,” he said.
 

Signal of Efficacy?

Dr. De Giorgi’s research suggested several potential neurobiological effects of GLP-1 inhibition in diabetes research.

“There was a bit of a signal specifically for the big three dementias — vascular, Lewy Body, and frontotemporal — although there was not enough power,” he reported. “We also saw a reduced risk in nicotine misuse, especially amongst other substance use disorders ... and finally a more tentative association for reduced depression.”

He noted that GLP-1s for psychiatric illness likely have limitations and may not cure mental disorders but could help specific subsets of patients. Rather than aiming for large-scale studies, the focus should be on small, incremental studies to advance the research.

Asked by the session chair, John Cryan, PhD, from University College Cork in Ireland, and chair of the ECNP Scientific Committee whether improvement in patients’ mood could be attributed to weight loss, Dr. De Giorgi replied no.

“We now have quite a lot of studies that show that if there is an effect or association it is seen quite a bit earlier than any weight loss. Remember, weight loss takes quite a lot of time, and at quite high doses, but more provocatively, even if that’s the case, does it matter? We as psychiatrists do worry that we need to disentangle these things, but they don’t do that in cardiology, for example. If they see a benefit in mortality they don’t really care if it’s specifically an effect on heart failure or ischemic disease,” said Dr. De Giorgi.

Regardless of their neuropsychiatric potential, the cardiometabolic benefits of GLP-1 inhibitors are sorely needed in the psychiatric population, noted two experts in a recent JAMA Psychiatry viewpoint article.

Sri Mahavir Agarwal, MD, PhD, and Margaret Hahn, MD, PhD, from the University of Toronto and the Schizophrenia Division at the Centre for Addiction and Mental Health, in Toronto, Ontario, Canada, pointed out that “individuals with severe mental illness (SMI) have exceedingly high rates of metabolic comorbidity; three of four are overweight or obese, whereas the prevalence of type 2 diabetes (T2D) is several-fold higher than in the general population. Consequently, individuals with SMI die 15-20 years earlier from cardiovascular disease (CVD) than do those in the general population with CVD,” they noted.

“The arrival of semaglutide has infused significant enthusiasm in the field of mental health research. The proximal effects of weight and related CV comorbidities are significant in themselves. It is plausible that semaglutide could act through neurogenesis or secondary benefits of improving metabolic health on other important outcomes, such as cognitive health and quality of life, thereby filling an unmet need in the treatment of SMI,” Dr. Agarwal and Dr. Hahn added.
 

An Exciting Opportunity

Current research investigating GLP-1s in psychiatry and neurology is increasingly focused on neuroinflammation, said Dr. De Giorgi.

Research shows significant evidence that certain medications may help reduce dysfunctional inflammatory processes linked to various cognitive and psychiatric disorders, he added.

Many patients with established psychiatric conditions also have physical health issues, which contribute to increased mortality risk, said Dr. De Giorgi. It’s crucial to understand that, if these treatments improve mortality outcomes for psychiatric patients, the specific mechanisms involved are secondary to the results. Psychiatrists must be equipped to prescribe, manage, and initiate these therapies.

“While trials involving psychosis patients are ongoing, we are making progress and should seize this opportunity” said Dr. De Giorgi.

Dr. Cryan agreed: “I think we’ll get there. What these drugs have shown is that you can, through a single mechanism, have multitude effects related to brain-body interactions, and why not focus that on mood and anxiety and cognitive performance? It’s exciting no matter what. We now need to do longitudinal, cross-sectional, placebo-controlled trials in specific patient populations.”

This study received funding from the National Institute for Health and Care Research Oxford Health Biomedical Research Centre and Medical Research Council. Dr. De Giorgi’s coauthors reported receiving funding for other work from Novo Nordisk, Five Lives, Cognetivity Ltd., Cognex, P1vital, Lundbeck, Servier, UCB, Zogenix, Johnson & Johnson, and Syndesi. Dr. Cryan reported no relevant disclosures.

A version of this article appeared on Medscape.com.

MILAN — Recent research allaying concerns about suicidality linked to glucagon-like peptide 1 (GLP-1) receptor agonists, along with evidence of these agents’ potential psychiatric and cognitive benefits, has prompted the lead investigator of a major analysis to urge researchers to explore the potential of these drugs for mental illness.

“So far, we’ve been talking about the safety from a neuropsychiatric perspective in diabetes, but there is also the safety and benefit in people with mental disorders,” Riccardo De Giorgi, MD, PhD, from the Department of Psychiatry, University of Oxford in England, said in an interview.

The results of the meta-analysis were previously reported by this news organization and reviewed by Dr. De Giorgi at the 37th European College of Neuropsychopharmacology (ECNP) Congress. Dr. De Giorgi broached whether GLP-1 inhibitors such as semaglutide might also offer the same benefits in patients without diabetes as they do in those with diabetes, in terms of cognitive deficits and substance use or mood disorders.

Noting that GLP-1s are not approved for psychiatric disorders, Dr. De Giorgi said it can’t be assumed that the “metabolic or maybe even more general mechanisms that are being modified with these medications in diabetes or even in obesity are the same for people with psychiatric disorders. We’re talking about very different things. From a clinical perspective, you could do real harm,” he told this news organization.

Yet Dr. De Giorgi emphasized the importance of exploring the potential benefits of these medications in psychiatry.

“From a research perspective ... I am very worried about missing an opportunity here. This happened with rimonabant, a cannabis medication that was used for weight loss back in 2012 and was withdrawn quite dramatically in Europe immediately after licensing because it increased suicide risk. Since then, nobody has been touching the cannabinoid system, and that’s a shame because in psychiatry, we don’t have that much we can work on. So we don’t want to miss an opportunity with the GLP-1 system — that’s why we need to be cautious and look at safety first,” he said.
 

Signal of Efficacy?

Dr. De Giorgi’s research suggested several potential neurobiological effects of GLP-1 inhibition in diabetes research.

“There was a bit of a signal specifically for the big three dementias — vascular, Lewy Body, and frontotemporal — although there was not enough power,” he reported. “We also saw a reduced risk in nicotine misuse, especially amongst other substance use disorders ... and finally a more tentative association for reduced depression.”

He noted that GLP-1s for psychiatric illness likely have limitations and may not cure mental disorders but could help specific subsets of patients. Rather than aiming for large-scale studies, the focus should be on small, incremental studies to advance the research.

Asked by the session chair, John Cryan, PhD, from University College Cork in Ireland, and chair of the ECNP Scientific Committee whether improvement in patients’ mood could be attributed to weight loss, Dr. De Giorgi replied no.

“We now have quite a lot of studies that show that if there is an effect or association it is seen quite a bit earlier than any weight loss. Remember, weight loss takes quite a lot of time, and at quite high doses, but more provocatively, even if that’s the case, does it matter? We as psychiatrists do worry that we need to disentangle these things, but they don’t do that in cardiology, for example. If they see a benefit in mortality they don’t really care if it’s specifically an effect on heart failure or ischemic disease,” said Dr. De Giorgi.

Regardless of their neuropsychiatric potential, the cardiometabolic benefits of GLP-1 inhibitors are sorely needed in the psychiatric population, noted two experts in a recent JAMA Psychiatry viewpoint article.

Sri Mahavir Agarwal, MD, PhD, and Margaret Hahn, MD, PhD, from the University of Toronto and the Schizophrenia Division at the Centre for Addiction and Mental Health, in Toronto, Ontario, Canada, pointed out that “individuals with severe mental illness (SMI) have exceedingly high rates of metabolic comorbidity; three of four are overweight or obese, whereas the prevalence of type 2 diabetes (T2D) is several-fold higher than in the general population. Consequently, individuals with SMI die 15-20 years earlier from cardiovascular disease (CVD) than do those in the general population with CVD,” they noted.

“The arrival of semaglutide has infused significant enthusiasm in the field of mental health research. The proximal effects of weight and related CV comorbidities are significant in themselves. It is plausible that semaglutide could act through neurogenesis or secondary benefits of improving metabolic health on other important outcomes, such as cognitive health and quality of life, thereby filling an unmet need in the treatment of SMI,” Dr. Agarwal and Dr. Hahn added.
 

An Exciting Opportunity

Current research investigating GLP-1s in psychiatry and neurology is increasingly focused on neuroinflammation, said Dr. De Giorgi.

Research shows significant evidence that certain medications may help reduce dysfunctional inflammatory processes linked to various cognitive and psychiatric disorders, he added.

Many patients with established psychiatric conditions also have physical health issues, which contribute to increased mortality risk, said Dr. De Giorgi. It’s crucial to understand that, if these treatments improve mortality outcomes for psychiatric patients, the specific mechanisms involved are secondary to the results. Psychiatrists must be equipped to prescribe, manage, and initiate these therapies.

“While trials involving psychosis patients are ongoing, we are making progress and should seize this opportunity” said Dr. De Giorgi.

Dr. Cryan agreed: “I think we’ll get there. What these drugs have shown is that you can, through a single mechanism, have multitude effects related to brain-body interactions, and why not focus that on mood and anxiety and cognitive performance? It’s exciting no matter what. We now need to do longitudinal, cross-sectional, placebo-controlled trials in specific patient populations.”

This study received funding from the National Institute for Health and Care Research Oxford Health Biomedical Research Centre and Medical Research Council. Dr. De Giorgi’s coauthors reported receiving funding for other work from Novo Nordisk, Five Lives, Cognetivity Ltd., Cognex, P1vital, Lundbeck, Servier, UCB, Zogenix, Johnson & Johnson, and Syndesi. Dr. Cryan reported no relevant disclosures.

A version of this article appeared on Medscape.com.

Our dermatology department is composed of 25 doctors spread across 4 offices. It can be difficult to sustain cohesion so we have a few rituals to help hold us together. One is the morning huddle. This is a stand-up meeting lasting 3-5 minutes at 8:42 a.m. (just before the 8:45 a.m. patients). Led by our staff, huddle is a quick review of the priorities, issues, and celebrations across our department. While enthusiastically celebrating a staff member’s promotion one morning, a patient swung open the exam door and shouted, “What’s going on out here?! I’m sitting here waiting!” before slamming the door closed again. “Well, that was unnecessary,” our morning lead interjected as she went to reprimand him.

His behavior was easily recognizable to any doctor with children. It was an emotional outburst we call a tantrum. Although a graphic of tantrums by age would show a steep curve that drops precipitously after 4-years-old (please God, I hope), it persists throughout life. Even adults have tantrums. After? When I broke my pinky toe saving the family from flaming tornadoes a few weeks ago (I ran into the sofa), I flung the ice bag across the room in frustration. “You’ve a right to be mad,” my wife said returning the ice to where I was elevating my foot. She was spot on, it is understandable that I would be angry. It will be weeks before I can run again. And also my toe was broken. Both things were true.

Dr. Benabio

“Two things are true” is a technique for managing tantrums in toddlers. I first learned of it from Dr. Becky Kennedy, a clinical psychologist specializing in family therapy. She has a popular podcast called “Good Inside” based on her book of the same name. Her approach is to use positive psychology with an emphasis on connecting with children to not only shape behavior, but also to help them learn to manage their emotions. I read her book to level up dad skills and realized many of her principles are applicable to various types of relationships. Instead of viewing behaviors as an end, she instead recommends using them as an opportunity to probe for understanding. When someone exhibits poor behavior rather than assume they are being a jerk, try to find the most generous interpretation of what just happened. Assume they are doing the best they can. When my 4-year-old obstinately refused to go to bed despite the usual colored night lights and bedtime rituals, it seemed she was being a typical tantrum-y toddler. The more I insisted — lights-out! the more she resisted. It wasn’t until I asked why that I learned she was worried that the trash truck was going to come overnight. What seemed like just a behavioral problem, time for bed, was actually an opportunity for her to be seen and for us to connect.

I was finishing up with a patient last week when my medical assistant interrupted to advise my next patient was leaving. I walked out to see her storm into the corridor heading for the exit. “I am sorry, you must be quite frustrated having to wait for me.” “Yes, you don’t respect my time,” she said loudly enough for everyone pretending to not notice. I coaxed her back into the room and sat down. After apologizing for her wait and explaining it was because an urgent patient had been added to my schedule, she calmed down and allowed me to continue. At her previous visit, I had biopsied a firm dermal papule on her upper abdomen that turned out to be metastatic breast cancer. She was treated years ago and believed she was in complete remission. Now she was alone, terrified, and wanted her full appointment with me. Because I was running late, she assumed I wouldn’t have the time for her. It was an opportunity for me to connect with her and help her feel safe. I would have missed that opportunity if I had labeled her as just another angry “Karen” brassly asserting herself.

Dr. Kennedy talks a lot in her book about taking the “Most generous interpretation” of whatever behavioral issue arises. Take the time to validate what they are feeling and empathize as best as we can. Acknowledge that it’s normal to be angry and also these are the truths we have to work with. Two truths commonly appear in these emotional episodes. One, the immutable facts, for example, insurance doesn’t cover that drug, and two, your right to be frustrated by that. Above all, remember you, the doctor, are good inside as is your discourteous patient, disaffected staff member or sometimes mendacious teenager. “All good decisions start with feeling secure and nothing feels more secure than being recognized for the good people we are,” says Dr. Kennedy. True I believe even if we sometimes slam the door.

Dr. Benabio is chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at dermnews@mdedge.com.

Our dermatology department is composed of 25 doctors spread across 4 offices. It can be difficult to sustain cohesion so we have a few rituals to help hold us together. One is the morning huddle. This is a stand-up meeting lasting 3-5 minutes at 8:42 a.m. (just before the 8:45 a.m. patients). Led by our staff, huddle is a quick review of the priorities, issues, and celebrations across our department. While enthusiastically celebrating a staff member’s promotion one morning, a patient swung open the exam door and shouted, “What’s going on out here?! I’m sitting here waiting!” before slamming the door closed again. “Well, that was unnecessary,” our morning lead interjected as she went to reprimand him.

His behavior was easily recognizable to any doctor with children. It was an emotional outburst we call a tantrum. Although a graphic of tantrums by age would show a steep curve that drops precipitously after 4-years-old (please God, I hope), it persists throughout life. Even adults have tantrums. After? When I broke my pinky toe saving the family from flaming tornadoes a few weeks ago (I ran into the sofa), I flung the ice bag across the room in frustration. “You’ve a right to be mad,” my wife said returning the ice to where I was elevating my foot. She was spot on, it is understandable that I would be angry. It will be weeks before I can run again. And also my toe was broken. Both things were true.

Dr. Benabio

“Two things are true” is a technique for managing tantrums in toddlers. I first learned of it from Dr. Becky Kennedy, a clinical psychologist specializing in family therapy. She has a popular podcast called “Good Inside” based on her book of the same name. Her approach is to use positive psychology with an emphasis on connecting with children to not only shape behavior, but also to help them learn to manage their emotions. I read her book to level up dad skills and realized many of her principles are applicable to various types of relationships. Instead of viewing behaviors as an end, she instead recommends using them as an opportunity to probe for understanding. When someone exhibits poor behavior rather than assume they are being a jerk, try to find the most generous interpretation of what just happened. Assume they are doing the best they can. When my 4-year-old obstinately refused to go to bed despite the usual colored night lights and bedtime rituals, it seemed she was being a typical tantrum-y toddler. The more I insisted — lights-out! the more she resisted. It wasn’t until I asked why that I learned she was worried that the trash truck was going to come overnight. What seemed like just a behavioral problem, time for bed, was actually an opportunity for her to be seen and for us to connect.

I was finishing up with a patient last week when my medical assistant interrupted to advise my next patient was leaving. I walked out to see her storm into the corridor heading for the exit. “I am sorry, you must be quite frustrated having to wait for me.” “Yes, you don’t respect my time,” she said loudly enough for everyone pretending to not notice. I coaxed her back into the room and sat down. After apologizing for her wait and explaining it was because an urgent patient had been added to my schedule, she calmed down and allowed me to continue. At her previous visit, I had biopsied a firm dermal papule on her upper abdomen that turned out to be metastatic breast cancer. She was treated years ago and believed she was in complete remission. Now she was alone, terrified, and wanted her full appointment with me. Because I was running late, she assumed I wouldn’t have the time for her. It was an opportunity for me to connect with her and help her feel safe. I would have missed that opportunity if I had labeled her as just another angry “Karen” brassly asserting herself.

Dr. Kennedy talks a lot in her book about taking the “Most generous interpretation” of whatever behavioral issue arises. Take the time to validate what they are feeling and empathize as best as we can. Acknowledge that it’s normal to be angry and also these are the truths we have to work with. Two truths commonly appear in these emotional episodes. One, the immutable facts, for example, insurance doesn’t cover that drug, and two, your right to be frustrated by that. Above all, remember you, the doctor, are good inside as is your discourteous patient, disaffected staff member or sometimes mendacious teenager. “All good decisions start with feeling secure and nothing feels more secure than being recognized for the good people we are,” says Dr. Kennedy. True I believe even if we sometimes slam the door.

Dr. Benabio is chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at dermnews@mdedge.com.

Our dermatology department is composed of 25 doctors spread across 4 offices. It can be difficult to sustain cohesion so we have a few rituals to help hold us together. One is the morning huddle. This is a stand-up meeting lasting 3-5 minutes at 8:42 a.m. (just before the 8:45 a.m. patients). Led by our staff, huddle is a quick review of the priorities, issues, and celebrations across our department. While enthusiastically celebrating a staff member’s promotion one morning, a patient swung open the exam door and shouted, “What’s going on out here?! I’m sitting here waiting!” before slamming the door closed again. “Well, that was unnecessary,” our morning lead interjected as she went to reprimand him.

His behavior was easily recognizable to any doctor with children. It was an emotional outburst we call a tantrum. Although a graphic of tantrums by age would show a steep curve that drops precipitously after 4-years-old (please God, I hope), it persists throughout life. Even adults have tantrums. After? When I broke my pinky toe saving the family from flaming tornadoes a few weeks ago (I ran into the sofa), I flung the ice bag across the room in frustration. “You’ve a right to be mad,” my wife said returning the ice to where I was elevating my foot. She was spot on, it is understandable that I would be angry. It will be weeks before I can run again. And also my toe was broken. Both things were true.

Dr. Benabio

“Two things are true” is a technique for managing tantrums in toddlers. I first learned of it from Dr. Becky Kennedy, a clinical psychologist specializing in family therapy. She has a popular podcast called “Good Inside” based on her book of the same name. Her approach is to use positive psychology with an emphasis on connecting with children to not only shape behavior, but also to help them learn to manage their emotions. I read her book to level up dad skills and realized many of her principles are applicable to various types of relationships. Instead of viewing behaviors as an end, she instead recommends using them as an opportunity to probe for understanding. When someone exhibits poor behavior rather than assume they are being a jerk, try to find the most generous interpretation of what just happened. Assume they are doing the best they can. When my 4-year-old obstinately refused to go to bed despite the usual colored night lights and bedtime rituals, it seemed she was being a typical tantrum-y toddler. The more I insisted — lights-out! the more she resisted. It wasn’t until I asked why that I learned she was worried that the trash truck was going to come overnight. What seemed like just a behavioral problem, time for bed, was actually an opportunity for her to be seen and for us to connect.

I was finishing up with a patient last week when my medical assistant interrupted to advise my next patient was leaving. I walked out to see her storm into the corridor heading for the exit. “I am sorry, you must be quite frustrated having to wait for me.” “Yes, you don’t respect my time,” she said loudly enough for everyone pretending to not notice. I coaxed her back into the room and sat down. After apologizing for her wait and explaining it was because an urgent patient had been added to my schedule, she calmed down and allowed me to continue. At her previous visit, I had biopsied a firm dermal papule on her upper abdomen that turned out to be metastatic breast cancer. She was treated years ago and believed she was in complete remission. Now she was alone, terrified, and wanted her full appointment with me. Because I was running late, she assumed I wouldn’t have the time for her. It was an opportunity for me to connect with her and help her feel safe. I would have missed that opportunity if I had labeled her as just another angry “Karen” brassly asserting herself.

Dr. Kennedy talks a lot in her book about taking the “Most generous interpretation” of whatever behavioral issue arises. Take the time to validate what they are feeling and empathize as best as we can. Acknowledge that it’s normal to be angry and also these are the truths we have to work with. Two truths commonly appear in these emotional episodes. One, the immutable facts, for example, insurance doesn’t cover that drug, and two, your right to be frustrated by that. Above all, remember you, the doctor, are good inside as is your discourteous patient, disaffected staff member or sometimes mendacious teenager. “All good decisions start with feeling secure and nothing feels more secure than being recognized for the good people we are,” says Dr. Kennedy. True I believe even if we sometimes slam the door.

Dr. Benabio is chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at dermnews@mdedge.com.

TOPLINE:

Treatment-resistant major depression (TRD) is associated with a 17% higher risk for all-cause mortality than non-TRD major depressive disorder (MDD), a new study shows. The increased mortality risk was driven largely by suicide and accidental overdose, which were nearly twice as high among people whose depression didn’t improve after two treatments. 

METHODOLOGY:

• Data on 176,942 individuals diagnosed with MDD and treated with an antidepressant (median age at diagnosis, 40 years; 63% women) were obtained from Finnish nationwide registers.
• About 11% of the participants had TRD, defined as having more than two adequate treatment trials of at least 28 days, each within 2 years from the index antidepressant prescription.
• The outcomes were all-cause and cause-specific mortality, with demographic characteristics, psychiatric comorbidities, and treatment history included as covariates.
• The median follow-up period was 8.9 years.

TAKEAWAY:

• Median time to TRD was 8 months, and 959 and 7662 deaths were observed in the TRD and non-TRD groups, respectively.
• All-cause mortality was 17% higher among patients with TRD than among those with non-TRD (adjusted hazard ratio [aHR], 1.17; 95% CI, 1.09-1.25) because of higher mortality to external causes.
• Mortalities because of suicides (aHR, 1.90; 95% CI, 1.64-2.20) and accidental poisonings (aHR, 1.81; 95% CI, 1.48-2.22) were almost double in the TRD group, compared with the non-TRD group.
• No significant difference in mortality due to natural causes was observed between the TRD and non-TRD groups.

IN PRACTICE:

“The markedly increased mortality due to suicides and accidental overdoses suggests that persons with TRD may experience higher-intensity symptoms and more severe suicidal ideation than persons with non-TRD major depression,” the study authors wrote.

SOURCE:

The study was led by Tapio T. Gustafsson, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland. It was published online on September 11, 2024, in The Journal of Affective Disorders.

LIMITATIONS:

The definition of TRD lacked consensus. The study used routine data to define TRD, which may not have captured all relevant clinical nuances. Additionally, the reasons for medication changes were unavailable.

DISCLOSURES:

This study was funded by Johnson & Johnson Innovative Medicine and Niuvanniemi Hospital, with support from the Finnish Ministry of Social Affairs and Health. Several authors disclosed financial relationships with various pharmaceutical companies, and two are employees of Johnson & Johnson Innovative Medicine.

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:

Treatment-resistant major depression (TRD) is associated with a 17% higher risk for all-cause mortality than non-TRD major depressive disorder (MDD), a new study shows. The increased mortality risk was driven largely by suicide and accidental overdose, which were nearly twice as high among people whose depression didn’t improve after two treatments. 

METHODOLOGY:

• Data on 176,942 individuals diagnosed with MDD and treated with an antidepressant (median age at diagnosis, 40 years; 63% women) were obtained from Finnish nationwide registers.
• About 11% of the participants had TRD, defined as having more than two adequate treatment trials of at least 28 days, each within 2 years from the index antidepressant prescription.
• The outcomes were all-cause and cause-specific mortality, with demographic characteristics, psychiatric comorbidities, and treatment history included as covariates.
• The median follow-up period was 8.9 years.

TAKEAWAY:

• Median time to TRD was 8 months, and 959 and 7662 deaths were observed in the TRD and non-TRD groups, respectively.
• All-cause mortality was 17% higher among patients with TRD than among those with non-TRD (adjusted hazard ratio [aHR], 1.17; 95% CI, 1.09-1.25) because of higher mortality to external causes.
• Mortalities because of suicides (aHR, 1.90; 95% CI, 1.64-2.20) and accidental poisonings (aHR, 1.81; 95% CI, 1.48-2.22) were almost double in the TRD group, compared with the non-TRD group.
• No significant difference in mortality due to natural causes was observed between the TRD and non-TRD groups.

IN PRACTICE:

“The markedly increased mortality due to suicides and accidental overdoses suggests that persons with TRD may experience higher-intensity symptoms and more severe suicidal ideation than persons with non-TRD major depression,” the study authors wrote.

SOURCE:

The study was led by Tapio T. Gustafsson, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland. It was published online on September 11, 2024, in The Journal of Affective Disorders.

LIMITATIONS:

The definition of TRD lacked consensus. The study used routine data to define TRD, which may not have captured all relevant clinical nuances. Additionally, the reasons for medication changes were unavailable.

DISCLOSURES:

This study was funded by Johnson & Johnson Innovative Medicine and Niuvanniemi Hospital, with support from the Finnish Ministry of Social Affairs and Health. Several authors disclosed financial relationships with various pharmaceutical companies, and two are employees of Johnson & Johnson Innovative Medicine.

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:

Treatment-resistant major depression (TRD) is associated with a 17% higher risk for all-cause mortality than non-TRD major depressive disorder (MDD), a new study shows. The increased mortality risk was driven largely by suicide and accidental overdose, which were nearly twice as high among people whose depression didn’t improve after two treatments. 

METHODOLOGY:

• Data on 176,942 individuals diagnosed with MDD and treated with an antidepressant (median age at diagnosis, 40 years; 63% women) were obtained from Finnish nationwide registers.
• About 11% of the participants had TRD, defined as having more than two adequate treatment trials of at least 28 days, each within 2 years from the index antidepressant prescription.
• The outcomes were all-cause and cause-specific mortality, with demographic characteristics, psychiatric comorbidities, and treatment history included as covariates.
• The median follow-up period was 8.9 years.

TAKEAWAY:

• Median time to TRD was 8 months, and 959 and 7662 deaths were observed in the TRD and non-TRD groups, respectively.
• All-cause mortality was 17% higher among patients with TRD than among those with non-TRD (adjusted hazard ratio [aHR], 1.17; 95% CI, 1.09-1.25) because of higher mortality to external causes.
• Mortalities because of suicides (aHR, 1.90; 95% CI, 1.64-2.20) and accidental poisonings (aHR, 1.81; 95% CI, 1.48-2.22) were almost double in the TRD group, compared with the non-TRD group.
• No significant difference in mortality due to natural causes was observed between the TRD and non-TRD groups.

IN PRACTICE:

“The markedly increased mortality due to suicides and accidental overdoses suggests that persons with TRD may experience higher-intensity symptoms and more severe suicidal ideation than persons with non-TRD major depression,” the study authors wrote.

SOURCE:

The study was led by Tapio T. Gustafsson, University of Eastern Finland, Niuvanniemi Hospital, Kuopio, Finland. It was published online on September 11, 2024, in The Journal of Affective Disorders.

LIMITATIONS:

The definition of TRD lacked consensus. The study used routine data to define TRD, which may not have captured all relevant clinical nuances. Additionally, the reasons for medication changes were unavailable.

DISCLOSURES:

This study was funded by Johnson & Johnson Innovative Medicine and Niuvanniemi Hospital, with support from the Finnish Ministry of Social Affairs and Health. Several authors disclosed financial relationships with various pharmaceutical companies, and two are employees of Johnson & Johnson Innovative Medicine.

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:

Electronic health record (EHR)–derived family history identified 29,913 patients with familial risk for hereditary breast and ovarian cancer, but 82% had no evidence of genetic testing. Seven-question family history screening (FHS7)–positive status was associated with a threefold increase in BRCA1/2 positivity and a 44% increase in cancer risk among women.

METHODOLOGY:

• A cross-sectional and retrospective cohort analysis used EHR data from Renown Health in northern Nevada. The study period spanned from January 1, 2018, to February 1, 2024, with data on demographic variables, healthcare utilization, and cancer diagnoses.
• The study aimed to use the FHS7 to identify patients meeting family history criteria for genetic testing (familial risk for hereditary breast and ovarian cancer) in their EHRs; patients meeting the FHS7 criteria were deemed to be FHS7-positive.
• A total of 835,727 patients aged 18-79 years were included, with genotype data available for 38,003 participants from the Healthy Nevada Project, which notified 330 individuals with BRCA1/2 variants of their genetic risk.
• The primary outcomes were the presence of pathogenic or likely pathogenic variants in specific genes and the diagnosis of cancer.

TAKEAWAY:

• FHS7-positive status was associated with a 3.34-fold increase in BRCA1/2 positivity among female participants and a 3.35-fold increase among male participants (95% CI, 2.48-4.47 and 1.93-5.56, respectively).
• Female FHS7-positive participants had a 1.62-fold increase in CHEK2 positivity and a 2.84-fold increase in PALB2 positivity (95% CI, 1.05-2.43 and 1.23-6.16, respectively).
• Age-adjusted cancer incidence rates were higher for FHS7-positive patients, with 367.2 cases per 100,000 per year for women and 309.9 cases per 100,000 per year for men.
• The number needed to test to detect one BRCA1/2-positive patient decreased from 128 to 53 for women and from 119 to 42 for men when prescreening with FHS7.

IN PRACTICE:

“EHR-derived FHS7 identified thousands of patients with familial risk for breast cancer, indicating a substantial gap in genetic testing,” the study authors wrote. “Survey results suggest that most patients who are FHS7-positive in their EHR truly meet family history criteria, but that EHR-derived FHS7 may miss many patients who would be FHS7-positive if approached with a direct questionnaire,” the author wrote.

SOURCE:

The study was led by Daniel Kiser, MS, University of Nevada, Reno School of Medicine. It was published online in JAMA Network Open.

LIMITATIONS: 

The study’s observational design may introduce self-selection biases, particularly among Healthy Nevada Project participants. The 21.8% response rate to the survey suggests potential self-selection among respondents. The tendency of less healthy patients to have more data available in their EHRs could influence the authors’ analysis of cancer incidence rates, despite adjustments for healthcare utilization levels.

DISCLOSURES:

Daniel Kiser and Joseph J. Grzymski, PhD, reported holding patents outside the submitted work. Dr. Grzymski also disclosed receiving grants from Gilead Sciences. Additional disclosures are noted in the original article.

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:

Electronic health record (EHR)–derived family history identified 29,913 patients with familial risk for hereditary breast and ovarian cancer, but 82% had no evidence of genetic testing. Seven-question family history screening (FHS7)–positive status was associated with a threefold increase in BRCA1/2 positivity and a 44% increase in cancer risk among women.

METHODOLOGY:

• A cross-sectional and retrospective cohort analysis used EHR data from Renown Health in northern Nevada. The study period spanned from January 1, 2018, to February 1, 2024, with data on demographic variables, healthcare utilization, and cancer diagnoses.
• The study aimed to use the FHS7 to identify patients meeting family history criteria for genetic testing (familial risk for hereditary breast and ovarian cancer) in their EHRs; patients meeting the FHS7 criteria were deemed to be FHS7-positive.
• A total of 835,727 patients aged 18-79 years were included, with genotype data available for 38,003 participants from the Healthy Nevada Project, which notified 330 individuals with BRCA1/2 variants of their genetic risk.
• The primary outcomes were the presence of pathogenic or likely pathogenic variants in specific genes and the diagnosis of cancer.

TAKEAWAY:

• FHS7-positive status was associated with a 3.34-fold increase in BRCA1/2 positivity among female participants and a 3.35-fold increase among male participants (95% CI, 2.48-4.47 and 1.93-5.56, respectively).
• Female FHS7-positive participants had a 1.62-fold increase in CHEK2 positivity and a 2.84-fold increase in PALB2 positivity (95% CI, 1.05-2.43 and 1.23-6.16, respectively).
• Age-adjusted cancer incidence rates were higher for FHS7-positive patients, with 367.2 cases per 100,000 per year for women and 309.9 cases per 100,000 per year for men.
• The number needed to test to detect one BRCA1/2-positive patient decreased from 128 to 53 for women and from 119 to 42 for men when prescreening with FHS7.

IN PRACTICE:

“EHR-derived FHS7 identified thousands of patients with familial risk for breast cancer, indicating a substantial gap in genetic testing,” the study authors wrote. “Survey results suggest that most patients who are FHS7-positive in their EHR truly meet family history criteria, but that EHR-derived FHS7 may miss many patients who would be FHS7-positive if approached with a direct questionnaire,” the author wrote.

SOURCE:

The study was led by Daniel Kiser, MS, University of Nevada, Reno School of Medicine. It was published online in JAMA Network Open.

LIMITATIONS: 

The study’s observational design may introduce self-selection biases, particularly among Healthy Nevada Project participants. The 21.8% response rate to the survey suggests potential self-selection among respondents. The tendency of less healthy patients to have more data available in their EHRs could influence the authors’ analysis of cancer incidence rates, despite adjustments for healthcare utilization levels.

DISCLOSURES:

Daniel Kiser and Joseph J. Grzymski, PhD, reported holding patents outside the submitted work. Dr. Grzymski also disclosed receiving grants from Gilead Sciences. Additional disclosures are noted in the original article.

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:

Electronic health record (EHR)–derived family history identified 29,913 patients with familial risk for hereditary breast and ovarian cancer, but 82% had no evidence of genetic testing. Seven-question family history screening (FHS7)–positive status was associated with a threefold increase in BRCA1/2 positivity and a 44% increase in cancer risk among women.

METHODOLOGY:

• A cross-sectional and retrospective cohort analysis used EHR data from Renown Health in northern Nevada. The study period spanned from January 1, 2018, to February 1, 2024, with data on demographic variables, healthcare utilization, and cancer diagnoses.
• The study aimed to use the FHS7 to identify patients meeting family history criteria for genetic testing (familial risk for hereditary breast and ovarian cancer) in their EHRs; patients meeting the FHS7 criteria were deemed to be FHS7-positive.
• A total of 835,727 patients aged 18-79 years were included, with genotype data available for 38,003 participants from the Healthy Nevada Project, which notified 330 individuals with BRCA1/2 variants of their genetic risk.
• The primary outcomes were the presence of pathogenic or likely pathogenic variants in specific genes and the diagnosis of cancer.

TAKEAWAY:

• FHS7-positive status was associated with a 3.34-fold increase in BRCA1/2 positivity among female participants and a 3.35-fold increase among male participants (95% CI, 2.48-4.47 and 1.93-5.56, respectively).
• Female FHS7-positive participants had a 1.62-fold increase in CHEK2 positivity and a 2.84-fold increase in PALB2 positivity (95% CI, 1.05-2.43 and 1.23-6.16, respectively).
• Age-adjusted cancer incidence rates were higher for FHS7-positive patients, with 367.2 cases per 100,000 per year for women and 309.9 cases per 100,000 per year for men.
• The number needed to test to detect one BRCA1/2-positive patient decreased from 128 to 53 for women and from 119 to 42 for men when prescreening with FHS7.

IN PRACTICE:

“EHR-derived FHS7 identified thousands of patients with familial risk for breast cancer, indicating a substantial gap in genetic testing,” the study authors wrote. “Survey results suggest that most patients who are FHS7-positive in their EHR truly meet family history criteria, but that EHR-derived FHS7 may miss many patients who would be FHS7-positive if approached with a direct questionnaire,” the author wrote.

SOURCE:

The study was led by Daniel Kiser, MS, University of Nevada, Reno School of Medicine. It was published online in JAMA Network Open.

LIMITATIONS: 

The study’s observational design may introduce self-selection biases, particularly among Healthy Nevada Project participants. The 21.8% response rate to the survey suggests potential self-selection among respondents. The tendency of less healthy patients to have more data available in their EHRs could influence the authors’ analysis of cancer incidence rates, despite adjustments for healthcare utilization levels.

DISCLOSURES:

Daniel Kiser and Joseph J. Grzymski, PhD, reported holding patents outside the submitted work. Dr. Grzymski also disclosed receiving grants from Gilead Sciences. Additional disclosures are noted in the original article.

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.

During the month of September, Sexual Health Awareness Month, it may help to notice something: Men and their doctors have significantly more options to help with sexual function than do women and their clinicians. Moreover, the education of physicians regarding the examination and treatment of women for sexual dysfunction has been and remains, even now in 2024, much less thorough than for men. 

Not convinced? Let’s take a quick tour.
 

The New Sexual Revolution and the Growing Anger

Around the time of the release of the book and movie Fifty Shades of Grey, Newsweek put the cultural sensation on its cover.

I bought the magazine at the airport and, while waiting for my plane, showed the story to a woman sitting next to me. “What do you think — is this the new ‘sexual revolution’?” I asked her.

She glanced at the cover and answered as accurately as if she had written the article: “In the ’60s, it became okay for women to have sex; now, it’s okay for women to demand good sex.”

I would add to that: Women are demanding good sex, and they want to define for themselves what “good” means.

That social revolution rages, still.

You would think that the demand would bring a corresponding response in clinical medicine. You would be wrong. Although efforts in some sectors are heroic, overall, the results are lagging the forward movement of women wanting better sex.
 

The Lag in Sexual Education

To examine the progression of the education of physicians regarding the treatment of female sexual dysfunction (FSD), Codispoti and colleagues examined the curricula of seven medical schools in and around Chicago. They found the following: Only one institution identified all anatomic components of the clitoris — one! Four of the seven discussed the physiology of the female orgasm. Only three of the seven highlighted the prevalence and epidemiology of FSD or the treatments for FSD. Only one of the seven explained how to do a genitourinary physical exam specific to assessing FSD. 

When assessing obstetrics and gynecology clinical materials, sexual pleasure, arousal, and libido were not included anywhere in the curricula.

I have been teaching physicians about the therapies I developed (over 5000 clinicians in 50-plus countries over the past 14 years). During those sessions, I often stop the class and ask, “Who in here was taught how to retract the foreskin and examine the penis for phimosis?”

All hands will go up.

Then I will ask, “Who in here was taught in medical school how to retract the clitoral hood and examine the clitoris for phimosis?”

Not once has anyone raised a hand.
 

The Sex Remedies Gap

When I first published research offering support for using platelet-rich plasma to improve sexual function in women, women had not one drug approved by the US Food and Drug Administration (FDA) for the treatment of sexual dysfunction — none. Men had over 20. Today, men have a growing number of FDA-approved drugs for erectile dysfunction, including the “fils”; women have three. 

Women have access to only one FDA-approved medication that primarily affects the genitalia: prasterone. This drug is indicated only for the treatment of pain in postmenopausal women. It does not directly enhance desire or improve orgasms. Said another way, although the incidence of sexual dysfunction is higher in premenopausal women than in other groups, they do not have a single approved medication designed to improve the function of their genitalia. 

The other two of the three available drugs — flibanserin and bremelanotide — primarily affect the brain and could accurately be called psychoactive agents. They are available only for premenopausal women to improve desire. Flibanserin resulted in one extra sexual encounter per month on average, and patients are advised to avoid alcohol while using the drug. The other can make you vomit.

I do think all three of these treatments can be of great help to some women. I am not advising their disappearance. But in contrast to what is available to men, they are woefully inadequate.
 

Historical Perspective

In 1980, the medical establishment believed “most instances of acquired impotence are psychogenic.” Then, with the accidental discovery of the benefits of phosphodiesterase type 5 inhibitors, we realized that most cases of male sexual dysfunction involve the vasculature of the genitalia, not the neuroses of the brain. Yet, our two FDA-approved drugs for women with sexual dysfunction are designed to affect the brain. Women have nothing but off-label therapies to improve the function of the genitalia.

Despite the fact research supports the use of testosterone in women for both libido and orgasm, and despite the fact millions of women are treated with testosterone off-label for the benefit of sexual function, the only widely used FDA-approved class of drugs for women that affects testosterone — birth control pills, by blocking pituitary hormone production (the way they prevent pregnancy) — lowers the production of testosterone. 

One might wonder, considering our expanded understanding of the endocrinology of both men and women, at the irony of why it is acceptable to lower the testosterone level of an adolescent girl knowingly, as if her development did not require the hormone (such would never be acceptable in an adolescent male unless sexual transitioning were the goal); yet, we are fearful of giving testosterone to grown women who can no longer make it.
 

Premenopausal Women: An Orphan Population

The concept of “orphan populations” can partially explain the gap in available therapies between men and women.

Women of childbearing age are risky to study; so, with testosterone, for example, it is safer and cheaper for pharmaceutical companies to prove the benefits for men and ride the profits from the off-label use for women. I don’t mean to condemn the manufacturers of testosterone, only to point out the phenomenon of why up to 30% of the prescriptions written by a primary care physician are off-label; off-label use is common among cardiologists (46%); up to 90% of children in the hospital receive at least one off-label drug; and approval of drugs for premenopausal women is more expensive than approval of drugs for men. 
 

What Can Be Done?

The regrettable situation does not reflect evil intent on the part of regulators, educators, or physicians. But the gap between what women want and what medical education and the pharmaceutical-regulatory complex are providing is intolerably wide.

First, I would recommend a standard, required curriculum for the study of female sexual anatomy and function be established and widely adopted by medical schools. The reproductive system contains different components and a different purpose from the orgasm system, with modest overlap. Both systems should be taught in every medical school.

Second, physicians should be required to undergo a course in understanding their own sexuality. Research demonstrates doctors will avoid conversations about sex, and it seems to me this could be secondary to being uncomfortable with their own sexuality. After all, to talk with a patient about sex, you cannot be fearful of where the conversation may lead.

Third, the FDA might reconsider the requirements for the approval of drugs for FSD. Currently, to approve a drug for men, an objective finding — ie, an erection — can be sufficient. However, a higher bar, “satisfaction,” which is subjective, must be obtained with women.

Regenerative therapies have proved helpful but are not yet widely adopted; more grant money for the study of regenerative therapies would be a good start here. 

Finally, by the definition of FSD, a woman must be psychologically distressed. The idea of sex is not pleasure alone. Sexual function affects family relationships, emotional health, confidence, even sleep, as well as the emotional well-being of the children who live in the house. Saying women are wonderfully and mysteriously made may be poetic, but it is not an excuse for not learning more and closing the gaps.

Dr. Runels is medical director of the Cellular Medicine Association, Fairhope, Alabama. He reported conflicts of interest with the Cellular Medicine Association, Runels Research Institute, Institute for Lichen Sclerosus, and Vulvar Health. A version of this article first appeared on Medscape.com.

During the month of September, Sexual Health Awareness Month, it may help to notice something: Men and their doctors have significantly more options to help with sexual function than do women and their clinicians. Moreover, the education of physicians regarding the examination and treatment of women for sexual dysfunction has been and remains, even now in 2024, much less thorough than for men. 

Not convinced? Let’s take a quick tour.
 

The New Sexual Revolution and the Growing Anger

Around the time of the release of the book and movie Fifty Shades of Grey, Newsweek put the cultural sensation on its cover.

I bought the magazine at the airport and, while waiting for my plane, showed the story to a woman sitting next to me. “What do you think — is this the new ‘sexual revolution’?” I asked her.

She glanced at the cover and answered as accurately as if she had written the article: “In the ’60s, it became okay for women to have sex; now, it’s okay for women to demand good sex.”

I would add to that: Women are demanding good sex, and they want to define for themselves what “good” means.

That social revolution rages, still.

You would think that the demand would bring a corresponding response in clinical medicine. You would be wrong. Although efforts in some sectors are heroic, overall, the results are lagging the forward movement of women wanting better sex.
 

The Lag in Sexual Education

To examine the progression of the education of physicians regarding the treatment of female sexual dysfunction (FSD), Codispoti and colleagues examined the curricula of seven medical schools in and around Chicago. They found the following: Only one institution identified all anatomic components of the clitoris — one! Four of the seven discussed the physiology of the female orgasm. Only three of the seven highlighted the prevalence and epidemiology of FSD or the treatments for FSD. Only one of the seven explained how to do a genitourinary physical exam specific to assessing FSD. 

When assessing obstetrics and gynecology clinical materials, sexual pleasure, arousal, and libido were not included anywhere in the curricula.

I have been teaching physicians about the therapies I developed (over 5000 clinicians in 50-plus countries over the past 14 years). During those sessions, I often stop the class and ask, “Who in here was taught how to retract the foreskin and examine the penis for phimosis?”

All hands will go up.

Then I will ask, “Who in here was taught in medical school how to retract the clitoral hood and examine the clitoris for phimosis?”

Not once has anyone raised a hand.
 

The Sex Remedies Gap

When I first published research offering support for using platelet-rich plasma to improve sexual function in women, women had not one drug approved by the US Food and Drug Administration (FDA) for the treatment of sexual dysfunction — none. Men had over 20. Today, men have a growing number of FDA-approved drugs for erectile dysfunction, including the “fils”; women have three. 

Women have access to only one FDA-approved medication that primarily affects the genitalia: prasterone. This drug is indicated only for the treatment of pain in postmenopausal women. It does not directly enhance desire or improve orgasms. Said another way, although the incidence of sexual dysfunction is higher in premenopausal women than in other groups, they do not have a single approved medication designed to improve the function of their genitalia. 

The other two of the three available drugs — flibanserin and bremelanotide — primarily affect the brain and could accurately be called psychoactive agents. They are available only for premenopausal women to improve desire. Flibanserin resulted in one extra sexual encounter per month on average, and patients are advised to avoid alcohol while using the drug. The other can make you vomit.

I do think all three of these treatments can be of great help to some women. I am not advising their disappearance. But in contrast to what is available to men, they are woefully inadequate.
 

Historical Perspective

In 1980, the medical establishment believed “most instances of acquired impotence are psychogenic.” Then, with the accidental discovery of the benefits of phosphodiesterase type 5 inhibitors, we realized that most cases of male sexual dysfunction involve the vasculature of the genitalia, not the neuroses of the brain. Yet, our two FDA-approved drugs for women with sexual dysfunction are designed to affect the brain. Women have nothing but off-label therapies to improve the function of the genitalia.

Despite the fact research supports the use of testosterone in women for both libido and orgasm, and despite the fact millions of women are treated with testosterone off-label for the benefit of sexual function, the only widely used FDA-approved class of drugs for women that affects testosterone — birth control pills, by blocking pituitary hormone production (the way they prevent pregnancy) — lowers the production of testosterone. 

One might wonder, considering our expanded understanding of the endocrinology of both men and women, at the irony of why it is acceptable to lower the testosterone level of an adolescent girl knowingly, as if her development did not require the hormone (such would never be acceptable in an adolescent male unless sexual transitioning were the goal); yet, we are fearful of giving testosterone to grown women who can no longer make it.
 

Premenopausal Women: An Orphan Population

The concept of “orphan populations” can partially explain the gap in available therapies between men and women.

Women of childbearing age are risky to study; so, with testosterone, for example, it is safer and cheaper for pharmaceutical companies to prove the benefits for men and ride the profits from the off-label use for women. I don’t mean to condemn the manufacturers of testosterone, only to point out the phenomenon of why up to 30% of the prescriptions written by a primary care physician are off-label; off-label use is common among cardiologists (46%); up to 90% of children in the hospital receive at least one off-label drug; and approval of drugs for premenopausal women is more expensive than approval of drugs for men. 
 

What Can Be Done?

The regrettable situation does not reflect evil intent on the part of regulators, educators, or physicians. But the gap between what women want and what medical education and the pharmaceutical-regulatory complex are providing is intolerably wide.

First, I would recommend a standard, required curriculum for the study of female sexual anatomy and function be established and widely adopted by medical schools. The reproductive system contains different components and a different purpose from the orgasm system, with modest overlap. Both systems should be taught in every medical school.

Second, physicians should be required to undergo a course in understanding their own sexuality. Research demonstrates doctors will avoid conversations about sex, and it seems to me this could be secondary to being uncomfortable with their own sexuality. After all, to talk with a patient about sex, you cannot be fearful of where the conversation may lead.

Third, the FDA might reconsider the requirements for the approval of drugs for FSD. Currently, to approve a drug for men, an objective finding — ie, an erection — can be sufficient. However, a higher bar, “satisfaction,” which is subjective, must be obtained with women.

Regenerative therapies have proved helpful but are not yet widely adopted; more grant money for the study of regenerative therapies would be a good start here. 

Finally, by the definition of FSD, a woman must be psychologically distressed. The idea of sex is not pleasure alone. Sexual function affects family relationships, emotional health, confidence, even sleep, as well as the emotional well-being of the children who live in the house. Saying women are wonderfully and mysteriously made may be poetic, but it is not an excuse for not learning more and closing the gaps.

Dr. Runels is medical director of the Cellular Medicine Association, Fairhope, Alabama. He reported conflicts of interest with the Cellular Medicine Association, Runels Research Institute, Institute for Lichen Sclerosus, and Vulvar Health. A version of this article first appeared on Medscape.com.

During the month of September, Sexual Health Awareness Month, it may help to notice something: Men and their doctors have significantly more options to help with sexual function than do women and their clinicians. Moreover, the education of physicians regarding the examination and treatment of women for sexual dysfunction has been and remains, even now in 2024, much less thorough than for men. 

Not convinced? Let’s take a quick tour.
 

The New Sexual Revolution and the Growing Anger

Around the time of the release of the book and movie Fifty Shades of Grey, Newsweek put the cultural sensation on its cover.

I bought the magazine at the airport and, while waiting for my plane, showed the story to a woman sitting next to me. “What do you think — is this the new ‘sexual revolution’?” I asked her.

She glanced at the cover and answered as accurately as if she had written the article: “In the ’60s, it became okay for women to have sex; now, it’s okay for women to demand good sex.”

I would add to that: Women are demanding good sex, and they want to define for themselves what “good” means.

That social revolution rages, still.

You would think that the demand would bring a corresponding response in clinical medicine. You would be wrong. Although efforts in some sectors are heroic, overall, the results are lagging the forward movement of women wanting better sex.
 

The Lag in Sexual Education

To examine the progression of the education of physicians regarding the treatment of female sexual dysfunction (FSD), Codispoti and colleagues examined the curricula of seven medical schools in and around Chicago. They found the following: Only one institution identified all anatomic components of the clitoris — one! Four of the seven discussed the physiology of the female orgasm. Only three of the seven highlighted the prevalence and epidemiology of FSD or the treatments for FSD. Only one of the seven explained how to do a genitourinary physical exam specific to assessing FSD. 

When assessing obstetrics and gynecology clinical materials, sexual pleasure, arousal, and libido were not included anywhere in the curricula.

I have been teaching physicians about the therapies I developed (over 5000 clinicians in 50-plus countries over the past 14 years). During those sessions, I often stop the class and ask, “Who in here was taught how to retract the foreskin and examine the penis for phimosis?”

All hands will go up.

Then I will ask, “Who in here was taught in medical school how to retract the clitoral hood and examine the clitoris for phimosis?”

Not once has anyone raised a hand.
 

The Sex Remedies Gap

When I first published research offering support for using platelet-rich plasma to improve sexual function in women, women had not one drug approved by the US Food and Drug Administration (FDA) for the treatment of sexual dysfunction — none. Men had over 20. Today, men have a growing number of FDA-approved drugs for erectile dysfunction, including the “fils”; women have three. 

Women have access to only one FDA-approved medication that primarily affects the genitalia: prasterone. This drug is indicated only for the treatment of pain in postmenopausal women. It does not directly enhance desire or improve orgasms. Said another way, although the incidence of sexual dysfunction is higher in premenopausal women than in other groups, they do not have a single approved medication designed to improve the function of their genitalia. 

The other two of the three available drugs — flibanserin and bremelanotide — primarily affect the brain and could accurately be called psychoactive agents. They are available only for premenopausal women to improve desire. Flibanserin resulted in one extra sexual encounter per month on average, and patients are advised to avoid alcohol while using the drug. The other can make you vomit.

I do think all three of these treatments can be of great help to some women. I am not advising their disappearance. But in contrast to what is available to men, they are woefully inadequate.
 

Historical Perspective

In 1980, the medical establishment believed “most instances of acquired impotence are psychogenic.” Then, with the accidental discovery of the benefits of phosphodiesterase type 5 inhibitors, we realized that most cases of male sexual dysfunction involve the vasculature of the genitalia, not the neuroses of the brain. Yet, our two FDA-approved drugs for women with sexual dysfunction are designed to affect the brain. Women have nothing but off-label therapies to improve the function of the genitalia.

Despite the fact research supports the use of testosterone in women for both libido and orgasm, and despite the fact millions of women are treated with testosterone off-label for the benefit of sexual function, the only widely used FDA-approved class of drugs for women that affects testosterone — birth control pills, by blocking pituitary hormone production (the way they prevent pregnancy) — lowers the production of testosterone. 

One might wonder, considering our expanded understanding of the endocrinology of both men and women, at the irony of why it is acceptable to lower the testosterone level of an adolescent girl knowingly, as if her development did not require the hormone (such would never be acceptable in an adolescent male unless sexual transitioning were the goal); yet, we are fearful of giving testosterone to grown women who can no longer make it.
 

Premenopausal Women: An Orphan Population

The concept of “orphan populations” can partially explain the gap in available therapies between men and women.

Women of childbearing age are risky to study; so, with testosterone, for example, it is safer and cheaper for pharmaceutical companies to prove the benefits for men and ride the profits from the off-label use for women. I don’t mean to condemn the manufacturers of testosterone, only to point out the phenomenon of why up to 30% of the prescriptions written by a primary care physician are off-label; off-label use is common among cardiologists (46%); up to 90% of children in the hospital receive at least one off-label drug; and approval of drugs for premenopausal women is more expensive than approval of drugs for men. 
 

What Can Be Done?

The regrettable situation does not reflect evil intent on the part of regulators, educators, or physicians. But the gap between what women want and what medical education and the pharmaceutical-regulatory complex are providing is intolerably wide.

First, I would recommend a standard, required curriculum for the study of female sexual anatomy and function be established and widely adopted by medical schools. The reproductive system contains different components and a different purpose from the orgasm system, with modest overlap. Both systems should be taught in every medical school.

Second, physicians should be required to undergo a course in understanding their own sexuality. Research demonstrates doctors will avoid conversations about sex, and it seems to me this could be secondary to being uncomfortable with their own sexuality. After all, to talk with a patient about sex, you cannot be fearful of where the conversation may lead.

Third, the FDA might reconsider the requirements for the approval of drugs for FSD. Currently, to approve a drug for men, an objective finding — ie, an erection — can be sufficient. However, a higher bar, “satisfaction,” which is subjective, must be obtained with women.

Regenerative therapies have proved helpful but are not yet widely adopted; more grant money for the study of regenerative therapies would be a good start here. 

Finally, by the definition of FSD, a woman must be psychologically distressed. The idea of sex is not pleasure alone. Sexual function affects family relationships, emotional health, confidence, even sleep, as well as the emotional well-being of the children who live in the house. Saying women are wonderfully and mysteriously made may be poetic, but it is not an excuse for not learning more and closing the gaps.

Dr. Runels is medical director of the Cellular Medicine Association, Fairhope, Alabama. He reported conflicts of interest with the Cellular Medicine Association, Runels Research Institute, Institute for Lichen Sclerosus, and Vulvar Health. A version of this article first appeared on Medscape.com.

Digital pathology assisted by artificial intelligence (AI) has the potential to transform the diagnosis and treatment of fibrotic liver disease in the next few years and to reshape clinical trials, clearing the way for new therapies.

Although the technology is not yet approved for routine clinical use, it’s constantly improving and aims to address the limitations inherent in today’s pathology processes.

“You do a biopsy, but instead of having a pathologist read it with their very rough scores of stage 1, 2, or 3, you read it by an AI-driven machine that can quantify it with a score of 1.5 or 1.75 instead of 1 or 2,” Vlad Ratziu, MD, PhD, professor of hepatology at the Sorbonne Université and Hôpital Pitié-Salpêtrière Medical School in Paris, France, and coeditor of The Journal of Hepatology, said in an interview.

“The technology is automated, more sensitive to change, and more highly quantitative. It has implications for liver disease diagnoses, clinical trials, and treatments,” added Dr. Ratziu, who has written about the promise and challenges inherent in developing treatments for metabolic dysfunction–associated steatotic liver disease (MASLD).

To explore the potential impact of AI-powered technologies for the clinic, this news organization spoke with representatives from three companies identified by Dr. Ratziu as leaders in the field: HistoIndex, PathAI, and PharmaNest. Each company uses proprietary technology augmented by AI, and their tools have been used in published trials.
 

Moving Toward Better Diagnoses and Disease Management

The traditional approach for staging liver fibrosis relies on trained pathologists manually evaluating stained tissue samples obtained from biopsies of the liver.

But this method, though still considered the gold standard, doesn’t always provide the granularity needed for an accurate diagnosis or a reliable assessment in clinical trials, said Dean Tai, PhD, HistoIndex’s cofounder and chief scientific officer.

Although noninvasive tests (NITs), alone or with traditional histologic examination, are increasingly used during clinical management because they are less invasive and more repeatable for disease monitoring, they are limited in their precision and ability to provide comprehensive information, Dr. Tai said. That’s because “no single NIT or single-dimensional measurement of a biomarker offers a full assessment of disease activity, fibrogenic drive, and fibrosis load.”

In contrast, AI provides “a highly reproducible and objective assessment of liver fibrosis severity,” he said. “It eliminates the variability associated with staining methods, while revealing changes in the nano-architecture and morphology of collagen fibers not discernible by the human eye or current NITs, especially in the early stages of fibrosis or in cases of simultaneous progression and regression.”

Mathieu Petitjean, PhD, founder and CEO of PharmaNest, has a similar view. 

Although degree of liver fibrosis is associated with long-term outcomes of patients with MASLD, “poor detection thresholds due to their categorical nature mean that small and relevant changes are not reflected by changes in staging,” he said. “The reliable detection [with AI] of subtle changes in the phenotypes of fibrosis will significantly enrich the understanding of progression and regression of fibrosis severity.”

The ability of AI-based tools to see patterns the human eye cannot also means they could “help in predicting which patient may respond to a drug, in order to get the right treatments to the right patients as soon as possible,” said Katy Wack, PhD, vice president of clinical development at PathAI.

“Additionally, AI-based algorithms have been developed to provide more quantitative continuous scores to better capture change and discover new tissue-based biomarkers, which may be prognostic or predictive of clinical benefit,” she said. 

Such tools are currently undergoing testing and validation for use in trials and diagnostically.

The standardization and reproducibility offered by AI-driven technology could facilitate more consistent diagnoses across different healthcare settings, Dr. Tai suggested. “As the integration of the technology with other blood-, imaging-, and omics-based techniques evolves, it may enable earlier detection of liver diseases, more accurate monitoring of disease progression, and better evaluation of treatment responses, ultimately improving patient care and outcomes.”
 

More Effective Clinical Trials

The limitations of conventional pathology may be responsible, at least in part, for the repeated failure of novel compounds to move from phase 2 to phase 3 clinical trials, and from clinical trials to approval, the sources agreed.

“In clinical trials, patients are subject to enrollment criteria using liver biopsies, which are scored with a composite scoring system involving four different histologic components to grade and stage the disease,” Dr. Wack noted. 

However, there is wide variability between pathologists on biopsy scoring, and an individual pathologist presented with the same sample may give it a different score after some time has passed, she said.

That means “we are using a nonstandardized and inconsistent scoring system to determine whether a patient can be enrolled or not into a trial,” Dr. Wack said. 

The change in the composite score over a follow-up period, usually 1-2 years, determines whether a patient has responded to the candidate drug and, ultimately, whether that drug could be considered for approval, Dr. Wack said.

Because scores at the baseline and follow-up timepoints are not precise and inconsistent across pathologist readers, and even the same reader over time, there are often many “false-positive” and “false-negative” responses that can result in potential therapeutics either failing or succeeding in clinical trials, she said.

To address this variability in biopsy scoring as it relates to clinical trials, regulatory bodies have recommended a consensus approach, in which multiple pathologists read the same biopsy independently and a median score is used, or pathologists convene to come to an agreement, Dr. Wack said. 

“This is a very costly and burdensome approach and is still subject to interconsensus panel variation,” she said.

The introduction of digital pathology using validated digital viewers, where pathologists can view a glass slide digitally and pan and zoom over the image as they can with a microscope, means that many pathologists can read the same slide in parallel, she explained.

“If they need to discuss, they can do so efficiently over a phone call, each using their own computer screen and shared annotation tools to facilitate their discussion.”

Although this consensus approach can improve consistency, it still leads to variability in scoring across different groups of pathologists, Dr. Wack said.

This is where AI-assisted pathology comes into play.

“With this approach, a pathologist still views the image digitally, but an algorithm has predicted and highlighted key features and recommended quantitative scores,” she said.

This approach has been shown to increase precision for pathologists, thereby increasing reproducibility and standardizing scoring across timepoints and clinical trials.
 

What’s Ahead

These AI tools could address pathology’s lack of scalability, the result of a limited number of trained pathologists capable of doing liver biopsy assessments, Dr. Tai said. 

“Digital pathology workflows enable the transformation of conventional histologic glass slides into large digital images using scanners, allowing significant productivity gains in terms of workflow and collaboration,” he said.

Although AI-assisted pathology tools are still being validated, their promise for improving diagnoses and uncovering new treatments is clear, the interviewees agreed.

Extending its use to stage fibrosis in other liver diseases, such as primary biliary cholangitis, primary sclerosing cholangitis, and alcoholic liver disease, is also in progress on an experimental basis but will take time to validate.

“The landscape will evolve quickly in the coming 3-4 years,” Dr. Petitjean predicted. “To start, their intended use will likely be limited to a decision-support tool to enhance the performance of pathologists and perhaps stratify or triage cases sent for routine vs expert review.”

Dr. Petitjean even suggested that the increasing role of NITs and the amount of data being generated prospectively and retrospectively around liver biomarkers could mean that liver biopsies might not be needed one day.

A version of this article appeared on Medscape.com.

Digital pathology assisted by artificial intelligence (AI) has the potential to transform the diagnosis and treatment of fibrotic liver disease in the next few years and to reshape clinical trials, clearing the way for new therapies.

Although the technology is not yet approved for routine clinical use, it’s constantly improving and aims to address the limitations inherent in today’s pathology processes.

“You do a biopsy, but instead of having a pathologist read it with their very rough scores of stage 1, 2, or 3, you read it by an AI-driven machine that can quantify it with a score of 1.5 or 1.75 instead of 1 or 2,” Vlad Ratziu, MD, PhD, professor of hepatology at the Sorbonne Université and Hôpital Pitié-Salpêtrière Medical School in Paris, France, and coeditor of The Journal of Hepatology, said in an interview.

“The technology is automated, more sensitive to change, and more highly quantitative. It has implications for liver disease diagnoses, clinical trials, and treatments,” added Dr. Ratziu, who has written about the promise and challenges inherent in developing treatments for metabolic dysfunction–associated steatotic liver disease (MASLD).

To explore the potential impact of AI-powered technologies for the clinic, this news organization spoke with representatives from three companies identified by Dr. Ratziu as leaders in the field: HistoIndex, PathAI, and PharmaNest. Each company uses proprietary technology augmented by AI, and their tools have been used in published trials.
 

Moving Toward Better Diagnoses and Disease Management

The traditional approach for staging liver fibrosis relies on trained pathologists manually evaluating stained tissue samples obtained from biopsies of the liver.

But this method, though still considered the gold standard, doesn’t always provide the granularity needed for an accurate diagnosis or a reliable assessment in clinical trials, said Dean Tai, PhD, HistoIndex’s cofounder and chief scientific officer.

Although noninvasive tests (NITs), alone or with traditional histologic examination, are increasingly used during clinical management because they are less invasive and more repeatable for disease monitoring, they are limited in their precision and ability to provide comprehensive information, Dr. Tai said. That’s because “no single NIT or single-dimensional measurement of a biomarker offers a full assessment of disease activity, fibrogenic drive, and fibrosis load.”

In contrast, AI provides “a highly reproducible and objective assessment of liver fibrosis severity,” he said. “It eliminates the variability associated with staining methods, while revealing changes in the nano-architecture and morphology of collagen fibers not discernible by the human eye or current NITs, especially in the early stages of fibrosis or in cases of simultaneous progression and regression.”

Mathieu Petitjean, PhD, founder and CEO of PharmaNest, has a similar view. 

Although degree of liver fibrosis is associated with long-term outcomes of patients with MASLD, “poor detection thresholds due to their categorical nature mean that small and relevant changes are not reflected by changes in staging,” he said. “The reliable detection [with AI] of subtle changes in the phenotypes of fibrosis will significantly enrich the understanding of progression and regression of fibrosis severity.”

The ability of AI-based tools to see patterns the human eye cannot also means they could “help in predicting which patient may respond to a drug, in order to get the right treatments to the right patients as soon as possible,” said Katy Wack, PhD, vice president of clinical development at PathAI.

“Additionally, AI-based algorithms have been developed to provide more quantitative continuous scores to better capture change and discover new tissue-based biomarkers, which may be prognostic or predictive of clinical benefit,” she said. 

Such tools are currently undergoing testing and validation for use in trials and diagnostically.

The standardization and reproducibility offered by AI-driven technology could facilitate more consistent diagnoses across different healthcare settings, Dr. Tai suggested. “As the integration of the technology with other blood-, imaging-, and omics-based techniques evolves, it may enable earlier detection of liver diseases, more accurate monitoring of disease progression, and better evaluation of treatment responses, ultimately improving patient care and outcomes.”
 

More Effective Clinical Trials

The limitations of conventional pathology may be responsible, at least in part, for the repeated failure of novel compounds to move from phase 2 to phase 3 clinical trials, and from clinical trials to approval, the sources agreed.

“In clinical trials, patients are subject to enrollment criteria using liver biopsies, which are scored with a composite scoring system involving four different histologic components to grade and stage the disease,” Dr. Wack noted. 

However, there is wide variability between pathologists on biopsy scoring, and an individual pathologist presented with the same sample may give it a different score after some time has passed, she said.

That means “we are using a nonstandardized and inconsistent scoring system to determine whether a patient can be enrolled or not into a trial,” Dr. Wack said. 

The change in the composite score over a follow-up period, usually 1-2 years, determines whether a patient has responded to the candidate drug and, ultimately, whether that drug could be considered for approval, Dr. Wack said.

Because scores at the baseline and follow-up timepoints are not precise and inconsistent across pathologist readers, and even the same reader over time, there are often many “false-positive” and “false-negative” responses that can result in potential therapeutics either failing or succeeding in clinical trials, she said.

To address this variability in biopsy scoring as it relates to clinical trials, regulatory bodies have recommended a consensus approach, in which multiple pathologists read the same biopsy independently and a median score is used, or pathologists convene to come to an agreement, Dr. Wack said. 

“This is a very costly and burdensome approach and is still subject to interconsensus panel variation,” she said.

The introduction of digital pathology using validated digital viewers, where pathologists can view a glass slide digitally and pan and zoom over the image as they can with a microscope, means that many pathologists can read the same slide in parallel, she explained.

“If they need to discuss, they can do so efficiently over a phone call, each using their own computer screen and shared annotation tools to facilitate their discussion.”

Although this consensus approach can improve consistency, it still leads to variability in scoring across different groups of pathologists, Dr. Wack said.

This is where AI-assisted pathology comes into play.

“With this approach, a pathologist still views the image digitally, but an algorithm has predicted and highlighted key features and recommended quantitative scores,” she said.

This approach has been shown to increase precision for pathologists, thereby increasing reproducibility and standardizing scoring across timepoints and clinical trials.
 

What’s Ahead

These AI tools could address pathology’s lack of scalability, the result of a limited number of trained pathologists capable of doing liver biopsy assessments, Dr. Tai said. 

“Digital pathology workflows enable the transformation of conventional histologic glass slides into large digital images using scanners, allowing significant productivity gains in terms of workflow and collaboration,” he said.

Although AI-assisted pathology tools are still being validated, their promise for improving diagnoses and uncovering new treatments is clear, the interviewees agreed.

Extending its use to stage fibrosis in other liver diseases, such as primary biliary cholangitis, primary sclerosing cholangitis, and alcoholic liver disease, is also in progress on an experimental basis but will take time to validate.

“The landscape will evolve quickly in the coming 3-4 years,” Dr. Petitjean predicted. “To start, their intended use will likely be limited to a decision-support tool to enhance the performance of pathologists and perhaps stratify or triage cases sent for routine vs expert review.”

Dr. Petitjean even suggested that the increasing role of NITs and the amount of data being generated prospectively and retrospectively around liver biomarkers could mean that liver biopsies might not be needed one day.

A version of this article appeared on Medscape.com.

Digital pathology assisted by artificial intelligence (AI) has the potential to transform the diagnosis and treatment of fibrotic liver disease in the next few years and to reshape clinical trials, clearing the way for new therapies.

Although the technology is not yet approved for routine clinical use, it’s constantly improving and aims to address the limitations inherent in today’s pathology processes.

“You do a biopsy, but instead of having a pathologist read it with their very rough scores of stage 1, 2, or 3, you read it by an AI-driven machine that can quantify it with a score of 1.5 or 1.75 instead of 1 or 2,” Vlad Ratziu, MD, PhD, professor of hepatology at the Sorbonne Université and Hôpital Pitié-Salpêtrière Medical School in Paris, France, and coeditor of The Journal of Hepatology, said in an interview.

“The technology is automated, more sensitive to change, and more highly quantitative. It has implications for liver disease diagnoses, clinical trials, and treatments,” added Dr. Ratziu, who has written about the promise and challenges inherent in developing treatments for metabolic dysfunction–associated steatotic liver disease (MASLD).

To explore the potential impact of AI-powered technologies for the clinic, this news organization spoke with representatives from three companies identified by Dr. Ratziu as leaders in the field: HistoIndex, PathAI, and PharmaNest. Each company uses proprietary technology augmented by AI, and their tools have been used in published trials.
 

Moving Toward Better Diagnoses and Disease Management

The traditional approach for staging liver fibrosis relies on trained pathologists manually evaluating stained tissue samples obtained from biopsies of the liver.

But this method, though still considered the gold standard, doesn’t always provide the granularity needed for an accurate diagnosis or a reliable assessment in clinical trials, said Dean Tai, PhD, HistoIndex’s cofounder and chief scientific officer.

Although noninvasive tests (NITs), alone or with traditional histologic examination, are increasingly used during clinical management because they are less invasive and more repeatable for disease monitoring, they are limited in their precision and ability to provide comprehensive information, Dr. Tai said. That’s because “no single NIT or single-dimensional measurement of a biomarker offers a full assessment of disease activity, fibrogenic drive, and fibrosis load.”

In contrast, AI provides “a highly reproducible and objective assessment of liver fibrosis severity,” he said. “It eliminates the variability associated with staining methods, while revealing changes in the nano-architecture and morphology of collagen fibers not discernible by the human eye or current NITs, especially in the early stages of fibrosis or in cases of simultaneous progression and regression.”

Mathieu Petitjean, PhD, founder and CEO of PharmaNest, has a similar view. 

Although degree of liver fibrosis is associated with long-term outcomes of patients with MASLD, “poor detection thresholds due to their categorical nature mean that small and relevant changes are not reflected by changes in staging,” he said. “The reliable detection [with AI] of subtle changes in the phenotypes of fibrosis will significantly enrich the understanding of progression and regression of fibrosis severity.”

The ability of AI-based tools to see patterns the human eye cannot also means they could “help in predicting which patient may respond to a drug, in order to get the right treatments to the right patients as soon as possible,” said Katy Wack, PhD, vice president of clinical development at PathAI.

“Additionally, AI-based algorithms have been developed to provide more quantitative continuous scores to better capture change and discover new tissue-based biomarkers, which may be prognostic or predictive of clinical benefit,” she said. 

Such tools are currently undergoing testing and validation for use in trials and diagnostically.

The standardization and reproducibility offered by AI-driven technology could facilitate more consistent diagnoses across different healthcare settings, Dr. Tai suggested. “As the integration of the technology with other blood-, imaging-, and omics-based techniques evolves, it may enable earlier detection of liver diseases, more accurate monitoring of disease progression, and better evaluation of treatment responses, ultimately improving patient care and outcomes.”