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As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

TOPLINE:

Allogeneic bone marrow–derived mesenchymal stromal cells (BM-MSCs) are safe but do not show efficacy in treating intervertebral disc degeneration (IDD) in patients with chronic low back pain.

METHODOLOGY:

• The RESPINE trial assessed the efficacy and safety of a single intradiscal injection of allogeneic BM-MSCs in the treatment of chronic low back pain caused by single-level IDD.
• Overall, 114 patients (mean age, 40.9 years; 35% women) with IDD-associated chronic low back pain that was persistent for 3 months or more despite conventional medical therapy and without previous surgery, were recruited across four European countries from April 2018 to April 2021 and randomly assigned to receive either intradiscal injections of allogeneic BM-MSCs (n = 58) or sham injections (n = 56).
• The first co-primary endpoint was the rate of response to BM-MSC injections at 12 months after treatment, defined as improvement of at least 20% or 20 mm in the Visual Analog Scale for pain or improvement of at least 20% in the Oswestry Disability Index for functional status.
• The secondary co-primary endpoint was structural efficacy, based on disc fluid content measured by quantitative T2 MRI between baseline and month 12.

TAKEAWAY:

• At 12 months post-intervention, 74% of patients in the BM-MSC group were classified as responders compared with 68.8% in the placebo group. However, the difference between the groups was not statistically significant.
• The probability of being a responder was higher in the BM-MSC group than in the sham group; however, the findings did not reach statistical significance.
• The average change in disc fluid content, indicative of disc regeneration, from baseline to 12 months was 37.9% in the BM-MSC group and 41.7% in the placebo group, with no significant difference between the groups.
• The incidence of adverse events and serious adverse events was not significantly different between the treatment groups.

IN PRACTICE:

“BM-MSC represents a promising opportunity for the biological treatment of IDD, but only high-quality randomized controlled trials, comparing it to standard care, can determine whether it is a truly effective alternative to spine fusion or disc replacement,” the authors wrote.

SOURCE:

The study was led by Yves-Marie Pers, MD, PhD, Clinical Immunology and Osteoarticular Diseases Therapeutic Unit, CHRU Lapeyronie, Montpellier, France. It was published online on October 11, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

MRI results were collected from only 55 patients across both trial arms, which may have affected the statistical power of the findings. Although patients were monitored for up to 24 months, the long-term efficacy and safety of BM-MSC therapy for IDD may not have been fully captured. Selection bias could not be excluded because of the difficulty in accurately identifying patients with chronic low back pain caused by single-level IDD.

DISCLOSURES:

The study was funded by the European Union’s Horizon 2020 Research and Innovation Programme. The authors declared no conflicts of interest.

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:

Allogeneic bone marrow–derived mesenchymal stromal cells (BM-MSCs) are safe but do not show efficacy in treating intervertebral disc degeneration (IDD) in patients with chronic low back pain.

METHODOLOGY:

• The RESPINE trial assessed the efficacy and safety of a single intradiscal injection of allogeneic BM-MSCs in the treatment of chronic low back pain caused by single-level IDD.
• Overall, 114 patients (mean age, 40.9 years; 35% women) with IDD-associated chronic low back pain that was persistent for 3 months or more despite conventional medical therapy and without previous surgery, were recruited across four European countries from April 2018 to April 2021 and randomly assigned to receive either intradiscal injections of allogeneic BM-MSCs (n = 58) or sham injections (n = 56).
• The first co-primary endpoint was the rate of response to BM-MSC injections at 12 months after treatment, defined as improvement of at least 20% or 20 mm in the Visual Analog Scale for pain or improvement of at least 20% in the Oswestry Disability Index for functional status.
• The secondary co-primary endpoint was structural efficacy, based on disc fluid content measured by quantitative T2 MRI between baseline and month 12.

TAKEAWAY:

• At 12 months post-intervention, 74% of patients in the BM-MSC group were classified as responders compared with 68.8% in the placebo group. However, the difference between the groups was not statistically significant.
• The probability of being a responder was higher in the BM-MSC group than in the sham group; however, the findings did not reach statistical significance.
• The average change in disc fluid content, indicative of disc regeneration, from baseline to 12 months was 37.9% in the BM-MSC group and 41.7% in the placebo group, with no significant difference between the groups.
• The incidence of adverse events and serious adverse events was not significantly different between the treatment groups.

IN PRACTICE:

“BM-MSC represents a promising opportunity for the biological treatment of IDD, but only high-quality randomized controlled trials, comparing it to standard care, can determine whether it is a truly effective alternative to spine fusion or disc replacement,” the authors wrote.

SOURCE:

The study was led by Yves-Marie Pers, MD, PhD, Clinical Immunology and Osteoarticular Diseases Therapeutic Unit, CHRU Lapeyronie, Montpellier, France. It was published online on October 11, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

MRI results were collected from only 55 patients across both trial arms, which may have affected the statistical power of the findings. Although patients were monitored for up to 24 months, the long-term efficacy and safety of BM-MSC therapy for IDD may not have been fully captured. Selection bias could not be excluded because of the difficulty in accurately identifying patients with chronic low back pain caused by single-level IDD.

DISCLOSURES:

The study was funded by the European Union’s Horizon 2020 Research and Innovation Programme. The authors declared no conflicts of interest.

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:

Allogeneic bone marrow–derived mesenchymal stromal cells (BM-MSCs) are safe but do not show efficacy in treating intervertebral disc degeneration (IDD) in patients with chronic low back pain.

METHODOLOGY:

• The RESPINE trial assessed the efficacy and safety of a single intradiscal injection of allogeneic BM-MSCs in the treatment of chronic low back pain caused by single-level IDD.
• Overall, 114 patients (mean age, 40.9 years; 35% women) with IDD-associated chronic low back pain that was persistent for 3 months or more despite conventional medical therapy and without previous surgery, were recruited across four European countries from April 2018 to April 2021 and randomly assigned to receive either intradiscal injections of allogeneic BM-MSCs (n = 58) or sham injections (n = 56).
• The first co-primary endpoint was the rate of response to BM-MSC injections at 12 months after treatment, defined as improvement of at least 20% or 20 mm in the Visual Analog Scale for pain or improvement of at least 20% in the Oswestry Disability Index for functional status.
• The secondary co-primary endpoint was structural efficacy, based on disc fluid content measured by quantitative T2 MRI between baseline and month 12.

TAKEAWAY:

• At 12 months post-intervention, 74% of patients in the BM-MSC group were classified as responders compared with 68.8% in the placebo group. However, the difference between the groups was not statistically significant.
• The probability of being a responder was higher in the BM-MSC group than in the sham group; however, the findings did not reach statistical significance.
• The average change in disc fluid content, indicative of disc regeneration, from baseline to 12 months was 37.9% in the BM-MSC group and 41.7% in the placebo group, with no significant difference between the groups.
• The incidence of adverse events and serious adverse events was not significantly different between the treatment groups.

IN PRACTICE:

“BM-MSC represents a promising opportunity for the biological treatment of IDD, but only high-quality randomized controlled trials, comparing it to standard care, can determine whether it is a truly effective alternative to spine fusion or disc replacement,” the authors wrote.

SOURCE:

The study was led by Yves-Marie Pers, MD, PhD, Clinical Immunology and Osteoarticular Diseases Therapeutic Unit, CHRU Lapeyronie, Montpellier, France. It was published online on October 11, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

MRI results were collected from only 55 patients across both trial arms, which may have affected the statistical power of the findings. Although patients were monitored for up to 24 months, the long-term efficacy and safety of BM-MSC therapy for IDD may not have been fully captured. Selection bias could not be excluded because of the difficulty in accurately identifying patients with chronic low back pain caused by single-level IDD.

DISCLOSURES:

The study was funded by the European Union’s Horizon 2020 Research and Innovation Programme. The authors declared no conflicts of interest.

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.

Emergencies happen anywhere, anytime, and sometimes, medical professionals find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape Medical News series telling these stories.

I sincerely believe that what goes around comes around. Good things come to good people. And sometimes that saves lives.

My 10-year-old son was in the semifinals of the Little League district championship. And we were losing. My son is an excellent pitcher, and he had started the game. But that night, he was struggling. He just couldn’t find where to throw the ball. Needless to say, he was frustrated.

He was changed to shortstop in the second inning, and the home plate umpire walked over to him. This umpire is well known in the area for his kindness and commitment, how he encourages the kids and helps make baseball fun even when it’s stressful.

We didn’t know him well, but he was really supportive of my kid in that moment, talking to him about how baseball is a team sport and we’re here to have fun. Just being really positive.

As the game continued, I saw the umpire suddenly walk to the side of the field. I hadn’t seen it, but he had been hit by a wild pitch on the side of his neck. He was wearing protective gear, but the ball managed to bounce up the side and caught bare neck. I knew something wasn’t right.

I went down to talk to him, and my medical assistant (MA), who was also at the game, came with me. I could tell the umpire was injured, but he didn’t want to leave the game. I suggested going to the hospital, but he wouldn’t consider it. So I sat there with my arms crossed, watching him.

His symptoms got worse. I could see he was in pain, and it was getting harder for him to speak. My concern was that there was a tracheal injury, a carotid injury, or something of that nature that was expanding.

Again, I strongly urged him to go to the hospital, but again, he said no.

In the sixth inning, things got bad enough that the umpire finally agreed to leave the game. As I was figuring out how to get him to the hospital, he disappeared on me. He had walked up to the second floor of the snack shack. My MA and I got him back downstairs and sat him on a bench behind home plate.

We were in the process of calling 911 ... when he arrested.

Luckily, when he lost vital signs, my MA and I were standing right next to him. We were able to activate ACLS protocol and start CPR within seconds.

Many times in these critical situations — especially if people are scared or have never seen an emergency like this — there’s the potential for chaos. Well, that was the polar opposite of what happened.

As soon as I started to run the code, there was this sense of order. People were keeping their composure and following directions. My MA and I would say, “this is what we need,” and the task would immediately be assigned to someone. It was quiet. There was no yelling. Everyone trusted me, even though some of them had never met me before. It was so surprising. I remember thinking, we’re running an arrest, but it’s so calm.

We were an organized team, and it really worked like clockwork, which was remarkable given where we were. It’s one thing to be in the hospital for an event like that. But to be on a baseball field where you have nothing is a completely different scenario.

Meanwhile, the game went on.

I had requested that all the kids be placed in the dugout when they weren’t on the field. So they saw the umpire walk off, but none of them saw him arrest. Some parents were really helpful with making sure the kids were okay.

The president of Oxford Little League ran across the street to a fire station to get an AED. But the fire department personnel were out on a call. He had to break down the door.

By the time he got back, the umpire’s vital signs were returning. And then EMS arrived.

They loaded him in the ambulance, and I called ahead to the trauma team, so they knew exactly what was happening.

I was pretty worried. My hypothesis was that there was probably compression on the vasculature, which had caused him to lose his vital signs. I thought he probably had an impending airway loss. I wasn’t sure if he was going to make it through the night.

What I didn’t know was that while I was giving CPR, my son stole home, and we won the game. As the ambulance was leaving, the celebration was going on in the outfield.

The umpire was in the hospital for several days. Early on, I got permission from his family to visit him. The first time I saw him, I felt this incredible gratitude and peace.

My dad was an ER doctor, and growing up, it seemed like every time we went on a family vacation, there was an emergency. We would be near a car accident or something, and my father would fly in and save the day. I remember being on the Autobahn somewhere in Europe, and there was a devastating accident between a car and a motorcycle. My father stabilized the guy, had him airlifted out, and apparently, he did fine. I grew up watching things like this and thinking, wow, that’s incredible.

Fast forward to 2 years ago, my father was diagnosed with a lung cancer he never should have had. He never smoked. As a cancer surgeon, I know we did everything in our power to save him. But it didn’t happen. He passed away.

I realize this is superstitious, but seeing the umpire alive, I had this feeling that somehow my dad was there. It was bittersweet but also a joyful moment — like I could breathe again.

I met the umpire’s family that first time, and it was like meeting family that you didn’t know you had but now you have forever. Even though the event was traumatic — I’m still trying not to be on high alert every time I go to a game — it felt like a gift to be part of this journey with them.

Little League’s mission is to teach kids about teamwork, leadership, and making good choices so communities are stronger. Our umpire is a guy who does that every day. He’s not a Little League umpire because he makes any money. He shows up at every single game to support these kids and engage them, to model respect, gratitude, and kindness.

I think our obligation as people is to live with intentionality. We all need to make sure we leave the world a better place, even when we are called upon to do uncomfortable things. Our umpire showed our kids what that looks like, and in that moment when he could have died, we were able to do the same for him.

Jennifer LaFemina, MD, is a surgical oncologist at UMass Memorial Medical Center in Massachusetts.
 

Are you a medical professional with a dramatic story outside the clinic? Medscape Medical News would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary to access@webmd.net.

A version of this article appeared on Medscape.com.

Emergencies happen anywhere, anytime, and sometimes, medical professionals find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape Medical News series telling these stories.

I sincerely believe that what goes around comes around. Good things come to good people. And sometimes that saves lives.

My 10-year-old son was in the semifinals of the Little League district championship. And we were losing. My son is an excellent pitcher, and he had started the game. But that night, he was struggling. He just couldn’t find where to throw the ball. Needless to say, he was frustrated.

He was changed to shortstop in the second inning, and the home plate umpire walked over to him. This umpire is well known in the area for his kindness and commitment, how he encourages the kids and helps make baseball fun even when it’s stressful.

We didn’t know him well, but he was really supportive of my kid in that moment, talking to him about how baseball is a team sport and we’re here to have fun. Just being really positive.

As the game continued, I saw the umpire suddenly walk to the side of the field. I hadn’t seen it, but he had been hit by a wild pitch on the side of his neck. He was wearing protective gear, but the ball managed to bounce up the side and caught bare neck. I knew something wasn’t right.

I went down to talk to him, and my medical assistant (MA), who was also at the game, came with me. I could tell the umpire was injured, but he didn’t want to leave the game. I suggested going to the hospital, but he wouldn’t consider it. So I sat there with my arms crossed, watching him.

His symptoms got worse. I could see he was in pain, and it was getting harder for him to speak. My concern was that there was a tracheal injury, a carotid injury, or something of that nature that was expanding.

Again, I strongly urged him to go to the hospital, but again, he said no.

In the sixth inning, things got bad enough that the umpire finally agreed to leave the game. As I was figuring out how to get him to the hospital, he disappeared on me. He had walked up to the second floor of the snack shack. My MA and I got him back downstairs and sat him on a bench behind home plate.

We were in the process of calling 911 ... when he arrested.

Luckily, when he lost vital signs, my MA and I were standing right next to him. We were able to activate ACLS protocol and start CPR within seconds.

Many times in these critical situations — especially if people are scared or have never seen an emergency like this — there’s the potential for chaos. Well, that was the polar opposite of what happened.

As soon as I started to run the code, there was this sense of order. People were keeping their composure and following directions. My MA and I would say, “this is what we need,” and the task would immediately be assigned to someone. It was quiet. There was no yelling. Everyone trusted me, even though some of them had never met me before. It was so surprising. I remember thinking, we’re running an arrest, but it’s so calm.

We were an organized team, and it really worked like clockwork, which was remarkable given where we were. It’s one thing to be in the hospital for an event like that. But to be on a baseball field where you have nothing is a completely different scenario.

Meanwhile, the game went on.

I had requested that all the kids be placed in the dugout when they weren’t on the field. So they saw the umpire walk off, but none of them saw him arrest. Some parents were really helpful with making sure the kids were okay.

The president of Oxford Little League ran across the street to a fire station to get an AED. But the fire department personnel were out on a call. He had to break down the door.

By the time he got back, the umpire’s vital signs were returning. And then EMS arrived.

They loaded him in the ambulance, and I called ahead to the trauma team, so they knew exactly what was happening.

I was pretty worried. My hypothesis was that there was probably compression on the vasculature, which had caused him to lose his vital signs. I thought he probably had an impending airway loss. I wasn’t sure if he was going to make it through the night.

What I didn’t know was that while I was giving CPR, my son stole home, and we won the game. As the ambulance was leaving, the celebration was going on in the outfield.

The umpire was in the hospital for several days. Early on, I got permission from his family to visit him. The first time I saw him, I felt this incredible gratitude and peace.

My dad was an ER doctor, and growing up, it seemed like every time we went on a family vacation, there was an emergency. We would be near a car accident or something, and my father would fly in and save the day. I remember being on the Autobahn somewhere in Europe, and there was a devastating accident between a car and a motorcycle. My father stabilized the guy, had him airlifted out, and apparently, he did fine. I grew up watching things like this and thinking, wow, that’s incredible.

Fast forward to 2 years ago, my father was diagnosed with a lung cancer he never should have had. He never smoked. As a cancer surgeon, I know we did everything in our power to save him. But it didn’t happen. He passed away.

I realize this is superstitious, but seeing the umpire alive, I had this feeling that somehow my dad was there. It was bittersweet but also a joyful moment — like I could breathe again.

I met the umpire’s family that first time, and it was like meeting family that you didn’t know you had but now you have forever. Even though the event was traumatic — I’m still trying not to be on high alert every time I go to a game — it felt like a gift to be part of this journey with them.

Little League’s mission is to teach kids about teamwork, leadership, and making good choices so communities are stronger. Our umpire is a guy who does that every day. He’s not a Little League umpire because he makes any money. He shows up at every single game to support these kids and engage them, to model respect, gratitude, and kindness.

I think our obligation as people is to live with intentionality. We all need to make sure we leave the world a better place, even when we are called upon to do uncomfortable things. Our umpire showed our kids what that looks like, and in that moment when he could have died, we were able to do the same for him.

Jennifer LaFemina, MD, is a surgical oncologist at UMass Memorial Medical Center in Massachusetts.
 

Are you a medical professional with a dramatic story outside the clinic? Medscape Medical News would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary to access@webmd.net.

A version of this article appeared on Medscape.com.

Emergencies happen anywhere, anytime, and sometimes, medical professionals find themselves in situations where they are the only ones who can help. Is There a Doctor in the House? is a Medscape Medical News series telling these stories.

I sincerely believe that what goes around comes around. Good things come to good people. And sometimes that saves lives.

My 10-year-old son was in the semifinals of the Little League district championship. And we were losing. My son is an excellent pitcher, and he had started the game. But that night, he was struggling. He just couldn’t find where to throw the ball. Needless to say, he was frustrated.

He was changed to shortstop in the second inning, and the home plate umpire walked over to him. This umpire is well known in the area for his kindness and commitment, how he encourages the kids and helps make baseball fun even when it’s stressful.

We didn’t know him well, but he was really supportive of my kid in that moment, talking to him about how baseball is a team sport and we’re here to have fun. Just being really positive.

As the game continued, I saw the umpire suddenly walk to the side of the field. I hadn’t seen it, but he had been hit by a wild pitch on the side of his neck. He was wearing protective gear, but the ball managed to bounce up the side and caught bare neck. I knew something wasn’t right.

I went down to talk to him, and my medical assistant (MA), who was also at the game, came with me. I could tell the umpire was injured, but he didn’t want to leave the game. I suggested going to the hospital, but he wouldn’t consider it. So I sat there with my arms crossed, watching him.

His symptoms got worse. I could see he was in pain, and it was getting harder for him to speak. My concern was that there was a tracheal injury, a carotid injury, or something of that nature that was expanding.

Again, I strongly urged him to go to the hospital, but again, he said no.

In the sixth inning, things got bad enough that the umpire finally agreed to leave the game. As I was figuring out how to get him to the hospital, he disappeared on me. He had walked up to the second floor of the snack shack. My MA and I got him back downstairs and sat him on a bench behind home plate.

We were in the process of calling 911 ... when he arrested.

Luckily, when he lost vital signs, my MA and I were standing right next to him. We were able to activate ACLS protocol and start CPR within seconds.

Many times in these critical situations — especially if people are scared or have never seen an emergency like this — there’s the potential for chaos. Well, that was the polar opposite of what happened.

As soon as I started to run the code, there was this sense of order. People were keeping their composure and following directions. My MA and I would say, “this is what we need,” and the task would immediately be assigned to someone. It was quiet. There was no yelling. Everyone trusted me, even though some of them had never met me before. It was so surprising. I remember thinking, we’re running an arrest, but it’s so calm.

We were an organized team, and it really worked like clockwork, which was remarkable given where we were. It’s one thing to be in the hospital for an event like that. But to be on a baseball field where you have nothing is a completely different scenario.

Meanwhile, the game went on.

I had requested that all the kids be placed in the dugout when they weren’t on the field. So they saw the umpire walk off, but none of them saw him arrest. Some parents were really helpful with making sure the kids were okay.

The president of Oxford Little League ran across the street to a fire station to get an AED. But the fire department personnel were out on a call. He had to break down the door.

By the time he got back, the umpire’s vital signs were returning. And then EMS arrived.

They loaded him in the ambulance, and I called ahead to the trauma team, so they knew exactly what was happening.

I was pretty worried. My hypothesis was that there was probably compression on the vasculature, which had caused him to lose his vital signs. I thought he probably had an impending airway loss. I wasn’t sure if he was going to make it through the night.

What I didn’t know was that while I was giving CPR, my son stole home, and we won the game. As the ambulance was leaving, the celebration was going on in the outfield.

The umpire was in the hospital for several days. Early on, I got permission from his family to visit him. The first time I saw him, I felt this incredible gratitude and peace.

My dad was an ER doctor, and growing up, it seemed like every time we went on a family vacation, there was an emergency. We would be near a car accident or something, and my father would fly in and save the day. I remember being on the Autobahn somewhere in Europe, and there was a devastating accident between a car and a motorcycle. My father stabilized the guy, had him airlifted out, and apparently, he did fine. I grew up watching things like this and thinking, wow, that’s incredible.

Fast forward to 2 years ago, my father was diagnosed with a lung cancer he never should have had. He never smoked. As a cancer surgeon, I know we did everything in our power to save him. But it didn’t happen. He passed away.

I realize this is superstitious, but seeing the umpire alive, I had this feeling that somehow my dad was there. It was bittersweet but also a joyful moment — like I could breathe again.

I met the umpire’s family that first time, and it was like meeting family that you didn’t know you had but now you have forever. Even though the event was traumatic — I’m still trying not to be on high alert every time I go to a game — it felt like a gift to be part of this journey with them.

Little League’s mission is to teach kids about teamwork, leadership, and making good choices so communities are stronger. Our umpire is a guy who does that every day. He’s not a Little League umpire because he makes any money. He shows up at every single game to support these kids and engage them, to model respect, gratitude, and kindness.

I think our obligation as people is to live with intentionality. We all need to make sure we leave the world a better place, even when we are called upon to do uncomfortable things. Our umpire showed our kids what that looks like, and in that moment when he could have died, we were able to do the same for him.

Jennifer LaFemina, MD, is a surgical oncologist at UMass Memorial Medical Center in Massachusetts.
 

Are you a medical professional with a dramatic story outside the clinic? Medscape Medical News would love to consider your story for Is There a Doctor in the House? Please email your contact information and a short summary to access@webmd.net.

A version of this article appeared on Medscape.com.

Diagnostic errors are common in hospitals and are largely preventable, according to a new observational study led by Anuj K. Dalal, MD, from the Division of General Internal Medicine at Brigham and Women’s Hospital and Harvard Medical School in Boston, published in BMJ Quality & Safety.

Dalal and his colleagues found that 1 in 14 general medicine patients (7%) suffer harm due to diagnostic errors, and up to 85% of these cases could be prevented.
 

Few Studies on Diagnostic Errors

The study found that adverse event surveillance in hospital underestimated the prevalence of harmful diagnostic errors.

“It is difficult to quantify and characterize diagnostic errors, which have been studied less than medication errors,” Micaela La Regina, MD, an internist and head of the Clinical Governance and Risk Management Unit at ASL 5 in La Spezia, Italy, told Univadis Italy. “Generally, it is estimated that around 50% of diagnostic errors are preventable, but the authors of this study went beyond simply observing the hospital admission period and followed their sample for 90 days after discharge. Their findings will need to be verified in other studies, but they seem convincing.”

The researchers in Boston selected a random sample of 675 hospital patients from a total of 9147 eligible cases who received general medical care between July 2019 and September 2021, excluding the peak of the COVID-19 pandemic (April-December 2020). They retrospectively reviewed the patients’ electronic health records using a structured method to evaluate the diagnostic process for potential errors and then estimated the impact and severity of any harm.

Cases sampled were those featuring transfer to intensive care more than 24 hours after admission (100% of 130 cases), death within 90 days of hospital admission or after discharge (38.5% of 141 cases), complex clinical problems without transfer to intensive care or death within 90 days of admission (7% of 298 cases), and 2.4% of 106 cases without high-risk criteria.

Each case was reviewed by two experts trained in the use of diagnostic error evaluation and research taxonomy, modified for acute care. Harm was classified as mild, moderate, severe, or fatal. The review assessed whether diagnostic error contributed to the harm and whether it was preventable. Cases with discrepancies or uncertainties regarding the diagnostic error or its impact were further examined by an expert panel.
 

Most Frequent Situations

Among all the cases examined, diagnostic errors were identified in 160 instances in 154 patients. The most frequent situations with diagnostic errors involved transfer to intensive care (54 cases), death within 90 days (34 cases), and complex clinical problems (52 cases). Diagnostic errors causing harm were found in 84 cases (82 patients), of which 37 (28.5%) occurred in those transferred to intensive care; 18 (13%) among patients who died within 90 days; 23 (8%) among patients with complex clinical issues; and 6 (6%) in low-risk cases.

The severity of harm was categorized as minor in 5 cases (6%), moderate in 36 (43%), major in 25 (30%), and fatal in 18 cases (21.5%). Overall, the researchers estimated that the proportion of harmful, preventable diagnostic errors with serious harm in general medicine patients was slightly more than 7%, 6%, and 1%, respectively.
 

Most Frequent Diagnoses

The most common diagnoses associated with diagnostic errors in the study included heart failure, acute kidney injury, sepsis, pneumonia, respiratory failure, altered mental state, abdominal pain, and hypoxemia. Dalal and colleagues emphasize the need for more attention to diagnostic error analysis, including the adoption of artificial intelligence–based tools for medical record screening.

“The technological approach, with alert-based systems, can certainly be helpful, but more attention must also be paid to continuous training and the well-being of healthcare workers. It is also crucial to encourage greater listening to caregivers and patients,” said La Regina. She noted that in the past, a focus on error prevention has often led to an increased workload and administrative burden on healthcare workers. However, the well-being of healthcare workers is key to ensuring patient safety.

“Countermeasures to reduce diagnostic errors require a multimodal approach, targeting professionals, the healthcare system, and organizational aspects, because even waiting lists are a critical factor,” she said. As a clinical risk expert, she recently proposed an adaptation of the value-based medicine formula in the International Journal for Quality in Health Care to include healthcare professionals’ care experience as one of the elements that contribute to determining high-value healthcare interventions. “Experiments are already underway to reimburse healthcare costs based on this formula, which also allows the assessment of the value of skills and expertise acquired by healthcare workers,” concluded La Regina.
 

This story was translated from Univadis Italy 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.

Diagnostic errors are common in hospitals and are largely preventable, according to a new observational study led by Anuj K. Dalal, MD, from the Division of General Internal Medicine at Brigham and Women’s Hospital and Harvard Medical School in Boston, published in BMJ Quality & Safety.

Dalal and his colleagues found that 1 in 14 general medicine patients (7%) suffer harm due to diagnostic errors, and up to 85% of these cases could be prevented.
 

Few Studies on Diagnostic Errors

The study found that adverse event surveillance in hospital underestimated the prevalence of harmful diagnostic errors.

“It is difficult to quantify and characterize diagnostic errors, which have been studied less than medication errors,” Micaela La Regina, MD, an internist and head of the Clinical Governance and Risk Management Unit at ASL 5 in La Spezia, Italy, told Univadis Italy. “Generally, it is estimated that around 50% of diagnostic errors are preventable, but the authors of this study went beyond simply observing the hospital admission period and followed their sample for 90 days after discharge. Their findings will need to be verified in other studies, but they seem convincing.”

The researchers in Boston selected a random sample of 675 hospital patients from a total of 9147 eligible cases who received general medical care between July 2019 and September 2021, excluding the peak of the COVID-19 pandemic (April-December 2020). They retrospectively reviewed the patients’ electronic health records using a structured method to evaluate the diagnostic process for potential errors and then estimated the impact and severity of any harm.

Cases sampled were those featuring transfer to intensive care more than 24 hours after admission (100% of 130 cases), death within 90 days of hospital admission or after discharge (38.5% of 141 cases), complex clinical problems without transfer to intensive care or death within 90 days of admission (7% of 298 cases), and 2.4% of 106 cases without high-risk criteria.

Each case was reviewed by two experts trained in the use of diagnostic error evaluation and research taxonomy, modified for acute care. Harm was classified as mild, moderate, severe, or fatal. The review assessed whether diagnostic error contributed to the harm and whether it was preventable. Cases with discrepancies or uncertainties regarding the diagnostic error or its impact were further examined by an expert panel.
 

Most Frequent Situations

Among all the cases examined, diagnostic errors were identified in 160 instances in 154 patients. The most frequent situations with diagnostic errors involved transfer to intensive care (54 cases), death within 90 days (34 cases), and complex clinical problems (52 cases). Diagnostic errors causing harm were found in 84 cases (82 patients), of which 37 (28.5%) occurred in those transferred to intensive care; 18 (13%) among patients who died within 90 days; 23 (8%) among patients with complex clinical issues; and 6 (6%) in low-risk cases.

The severity of harm was categorized as minor in 5 cases (6%), moderate in 36 (43%), major in 25 (30%), and fatal in 18 cases (21.5%). Overall, the researchers estimated that the proportion of harmful, preventable diagnostic errors with serious harm in general medicine patients was slightly more than 7%, 6%, and 1%, respectively.
 

Most Frequent Diagnoses

The most common diagnoses associated with diagnostic errors in the study included heart failure, acute kidney injury, sepsis, pneumonia, respiratory failure, altered mental state, abdominal pain, and hypoxemia. Dalal and colleagues emphasize the need for more attention to diagnostic error analysis, including the adoption of artificial intelligence–based tools for medical record screening.

“The technological approach, with alert-based systems, can certainly be helpful, but more attention must also be paid to continuous training and the well-being of healthcare workers. It is also crucial to encourage greater listening to caregivers and patients,” said La Regina. She noted that in the past, a focus on error prevention has often led to an increased workload and administrative burden on healthcare workers. However, the well-being of healthcare workers is key to ensuring patient safety.

“Countermeasures to reduce diagnostic errors require a multimodal approach, targeting professionals, the healthcare system, and organizational aspects, because even waiting lists are a critical factor,” she said. As a clinical risk expert, she recently proposed an adaptation of the value-based medicine formula in the International Journal for Quality in Health Care to include healthcare professionals’ care experience as one of the elements that contribute to determining high-value healthcare interventions. “Experiments are already underway to reimburse healthcare costs based on this formula, which also allows the assessment of the value of skills and expertise acquired by healthcare workers,” concluded La Regina.
 

This story was translated from Univadis Italy 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.

Diagnostic errors are common in hospitals and are largely preventable, according to a new observational study led by Anuj K. Dalal, MD, from the Division of General Internal Medicine at Brigham and Women’s Hospital and Harvard Medical School in Boston, published in BMJ Quality & Safety.

Dalal and his colleagues found that 1 in 14 general medicine patients (7%) suffer harm due to diagnostic errors, and up to 85% of these cases could be prevented.
 

Few Studies on Diagnostic Errors

The study found that adverse event surveillance in hospital underestimated the prevalence of harmful diagnostic errors.

“It is difficult to quantify and characterize diagnostic errors, which have been studied less than medication errors,” Micaela La Regina, MD, an internist and head of the Clinical Governance and Risk Management Unit at ASL 5 in La Spezia, Italy, told Univadis Italy. “Generally, it is estimated that around 50% of diagnostic errors are preventable, but the authors of this study went beyond simply observing the hospital admission period and followed their sample for 90 days after discharge. Their findings will need to be verified in other studies, but they seem convincing.”

The researchers in Boston selected a random sample of 675 hospital patients from a total of 9147 eligible cases who received general medical care between July 2019 and September 2021, excluding the peak of the COVID-19 pandemic (April-December 2020). They retrospectively reviewed the patients’ electronic health records using a structured method to evaluate the diagnostic process for potential errors and then estimated the impact and severity of any harm.

Cases sampled were those featuring transfer to intensive care more than 24 hours after admission (100% of 130 cases), death within 90 days of hospital admission or after discharge (38.5% of 141 cases), complex clinical problems without transfer to intensive care or death within 90 days of admission (7% of 298 cases), and 2.4% of 106 cases without high-risk criteria.

Each case was reviewed by two experts trained in the use of diagnostic error evaluation and research taxonomy, modified for acute care. Harm was classified as mild, moderate, severe, or fatal. The review assessed whether diagnostic error contributed to the harm and whether it was preventable. Cases with discrepancies or uncertainties regarding the diagnostic error or its impact were further examined by an expert panel.
 

Most Frequent Situations

Among all the cases examined, diagnostic errors were identified in 160 instances in 154 patients. The most frequent situations with diagnostic errors involved transfer to intensive care (54 cases), death within 90 days (34 cases), and complex clinical problems (52 cases). Diagnostic errors causing harm were found in 84 cases (82 patients), of which 37 (28.5%) occurred in those transferred to intensive care; 18 (13%) among patients who died within 90 days; 23 (8%) among patients with complex clinical issues; and 6 (6%) in low-risk cases.

The severity of harm was categorized as minor in 5 cases (6%), moderate in 36 (43%), major in 25 (30%), and fatal in 18 cases (21.5%). Overall, the researchers estimated that the proportion of harmful, preventable diagnostic errors with serious harm in general medicine patients was slightly more than 7%, 6%, and 1%, respectively.
 

Most Frequent Diagnoses

The most common diagnoses associated with diagnostic errors in the study included heart failure, acute kidney injury, sepsis, pneumonia, respiratory failure, altered mental state, abdominal pain, and hypoxemia. Dalal and colleagues emphasize the need for more attention to diagnostic error analysis, including the adoption of artificial intelligence–based tools for medical record screening.

“The technological approach, with alert-based systems, can certainly be helpful, but more attention must also be paid to continuous training and the well-being of healthcare workers. It is also crucial to encourage greater listening to caregivers and patients,” said La Regina. She noted that in the past, a focus on error prevention has often led to an increased workload and administrative burden on healthcare workers. However, the well-being of healthcare workers is key to ensuring patient safety.

“Countermeasures to reduce diagnostic errors require a multimodal approach, targeting professionals, the healthcare system, and organizational aspects, because even waiting lists are a critical factor,” she said. As a clinical risk expert, she recently proposed an adaptation of the value-based medicine formula in the International Journal for Quality in Health Care to include healthcare professionals’ care experience as one of the elements that contribute to determining high-value healthcare interventions. “Experiments are already underway to reimburse healthcare costs based on this formula, which also allows the assessment of the value of skills and expertise acquired by healthcare workers,” concluded La Regina.
 

This story was translated from Univadis Italy 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.

This transcript has been edited for clarity. 

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity. 

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

A version of this article appeared on Medscape.com.

TOPLINE:

In patients with localized prostate cancer, stereotactic body radiotherapy (SBRT) was associated with better urinary continence and sexual function, but slightly worse bowel function, compared with radical prostatectomy, according to a phase 3, open-label, randomized trial evaluating quality-of-life outcomes.

METHODOLOGY:

• Compared with prostatectomy, radiotherapy may offer better urinary and sexual outcomes but a higher risk for bowel toxicity in patients with localized prostate cancer. However, a comparison has not been performed in a randomized trial using more modern treatment options, such as SBRT.
• Researchers conducted the multicenter PACE-A trial to compare and evaluate quality-of-life outcomes among 123 patients (median age, 65.5 years) with low- to intermediate-risk localized prostate cancer who were randomly assigned to undergo either SBRT (n = 63) or radical prostatectomy (n = 60).
• Of the 123 patients, 97 (79%) had a Gleason score of 3+4 and 116 (94%) had National Comprehensive Cancer Network intermediate risk. The median follow-up was 60.7 months.
• The co–primary endpoints were urinary continence, measured by the number of absorbent urinary pads required per day, and bowel function, assessed using the Expanded Prostate Cancer Index Composite Short Form (EPIC-26).
• Secondary endpoints included erectile function (measured using the International Index of Erectile Function 5 questionnaire) , clinician-reported genitourinary and gastrointestinal toxicity, and International Prostate Symptom Score. Other patient-reported outcomes included EPIC-26 domain scores for urinary irritative/obstructive symptoms, and overall urinary, bowel, and sexual issues.

TAKEAWAY:

• At 2 years, only 6.5% (three of 46) of patients who ultimately received SBRT used one or more urinary pads daily compared with 50% (16 of 32) of patients who underwent prostatectomy (P < .001). Patients in the prostatectomy group reported worse EPIC-26 urinary incontinence domain scores (median, 77.3 vs 100; P = .003).
• Patients who underwent prostatectomy also had significantly worse sexual function scores (median, 18 vs 62.5 with SBRT; P < .001). Erectile dysfunction events of grade 2 or higher were significantly more common in patients who underwent prostatectomy (63% vs 18%).
• However, at 2 years, the bowel domain scores in the prostatectomy group were significantly higher than in the SBRT group (median, 100 vs 87.5), with a mean difference of 8.9.
• Overall, clinician-reported genitourinary and gastrointestinal toxicities were low in both treatment groups.

IN PRACTICE:

“PACE-A provides level 1 evidence of better outcomes of urinary continence and sexual function with worse bowel bother for SBRT, compared with prostatectomy,” the authors wrote, adding that the trial “provides contemporary toxicity estimates to optimize treatment decisions and maximize individual quality of life.”

SOURCE:

The study, led by Nicholas van As, of The Royal Marsden Hospital and The Institute of Cancer Research in London, was published online in European Urology.

LIMITATIONS:

The small sample size and differential dropout from allocated treatment could have introduced bias. Data completeness was another limitation.

DISCLOSURES:

The study was supported by grants from the Royal Marsden NHS Foundation Trust. Several authors reported having various ties with various sources.

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

TOPLINE:

In patients with localized prostate cancer, stereotactic body radiotherapy (SBRT) was associated with better urinary continence and sexual function, but slightly worse bowel function, compared with radical prostatectomy, according to a phase 3, open-label, randomized trial evaluating quality-of-life outcomes.

METHODOLOGY:

• Compared with prostatectomy, radiotherapy may offer better urinary and sexual outcomes but a higher risk for bowel toxicity in patients with localized prostate cancer. However, a comparison has not been performed in a randomized trial using more modern treatment options, such as SBRT.
• Researchers conducted the multicenter PACE-A trial to compare and evaluate quality-of-life outcomes among 123 patients (median age, 65.5 years) with low- to intermediate-risk localized prostate cancer who were randomly assigned to undergo either SBRT (n = 63) or radical prostatectomy (n = 60).
• Of the 123 patients, 97 (79%) had a Gleason score of 3+4 and 116 (94%) had National Comprehensive Cancer Network intermediate risk. The median follow-up was 60.7 months.
• The co–primary endpoints were urinary continence, measured by the number of absorbent urinary pads required per day, and bowel function, assessed using the Expanded Prostate Cancer Index Composite Short Form (EPIC-26).
• Secondary endpoints included erectile function (measured using the International Index of Erectile Function 5 questionnaire) , clinician-reported genitourinary and gastrointestinal toxicity, and International Prostate Symptom Score. Other patient-reported outcomes included EPIC-26 domain scores for urinary irritative/obstructive symptoms, and overall urinary, bowel, and sexual issues.

TAKEAWAY:

• At 2 years, only 6.5% (three of 46) of patients who ultimately received SBRT used one or more urinary pads daily compared with 50% (16 of 32) of patients who underwent prostatectomy (P < .001). Patients in the prostatectomy group reported worse EPIC-26 urinary incontinence domain scores (median, 77.3 vs 100; P = .003).
• Patients who underwent prostatectomy also had significantly worse sexual function scores (median, 18 vs 62.5 with SBRT; P < .001). Erectile dysfunction events of grade 2 or higher were significantly more common in patients who underwent prostatectomy (63% vs 18%).
• However, at 2 years, the bowel domain scores in the prostatectomy group were significantly higher than in the SBRT group (median, 100 vs 87.5), with a mean difference of 8.9.
• Overall, clinician-reported genitourinary and gastrointestinal toxicities were low in both treatment groups.

IN PRACTICE:

“PACE-A provides level 1 evidence of better outcomes of urinary continence and sexual function with worse bowel bother for SBRT, compared with prostatectomy,” the authors wrote, adding that the trial “provides contemporary toxicity estimates to optimize treatment decisions and maximize individual quality of life.”

SOURCE:

The study, led by Nicholas van As, of The Royal Marsden Hospital and The Institute of Cancer Research in London, was published online in European Urology.

LIMITATIONS:

The small sample size and differential dropout from allocated treatment could have introduced bias. Data completeness was another limitation.

DISCLOSURES:

The study was supported by grants from the Royal Marsden NHS Foundation Trust. Several authors reported having various ties with various sources.

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

TOPLINE:

In patients with localized prostate cancer, stereotactic body radiotherapy (SBRT) was associated with better urinary continence and sexual function, but slightly worse bowel function, compared with radical prostatectomy, according to a phase 3, open-label, randomized trial evaluating quality-of-life outcomes.

METHODOLOGY:

• Compared with prostatectomy, radiotherapy may offer better urinary and sexual outcomes but a higher risk for bowel toxicity in patients with localized prostate cancer. However, a comparison has not been performed in a randomized trial using more modern treatment options, such as SBRT.
• Researchers conducted the multicenter PACE-A trial to compare and evaluate quality-of-life outcomes among 123 patients (median age, 65.5 years) with low- to intermediate-risk localized prostate cancer who were randomly assigned to undergo either SBRT (n = 63) or radical prostatectomy (n = 60).
• Of the 123 patients, 97 (79%) had a Gleason score of 3+4 and 116 (94%) had National Comprehensive Cancer Network intermediate risk. The median follow-up was 60.7 months.
• The co–primary endpoints were urinary continence, measured by the number of absorbent urinary pads required per day, and bowel function, assessed using the Expanded Prostate Cancer Index Composite Short Form (EPIC-26).
• Secondary endpoints included erectile function (measured using the International Index of Erectile Function 5 questionnaire) , clinician-reported genitourinary and gastrointestinal toxicity, and International Prostate Symptom Score. Other patient-reported outcomes included EPIC-26 domain scores for urinary irritative/obstructive symptoms, and overall urinary, bowel, and sexual issues.

TAKEAWAY:

• At 2 years, only 6.5% (three of 46) of patients who ultimately received SBRT used one or more urinary pads daily compared with 50% (16 of 32) of patients who underwent prostatectomy (P < .001). Patients in the prostatectomy group reported worse EPIC-26 urinary incontinence domain scores (median, 77.3 vs 100; P = .003).
• Patients who underwent prostatectomy also had significantly worse sexual function scores (median, 18 vs 62.5 with SBRT; P < .001). Erectile dysfunction events of grade 2 or higher were significantly more common in patients who underwent prostatectomy (63% vs 18%).
• However, at 2 years, the bowel domain scores in the prostatectomy group were significantly higher than in the SBRT group (median, 100 vs 87.5), with a mean difference of 8.9.
• Overall, clinician-reported genitourinary and gastrointestinal toxicities were low in both treatment groups.

IN PRACTICE:

“PACE-A provides level 1 evidence of better outcomes of urinary continence and sexual function with worse bowel bother for SBRT, compared with prostatectomy,” the authors wrote, adding that the trial “provides contemporary toxicity estimates to optimize treatment decisions and maximize individual quality of life.”

SOURCE:

The study, led by Nicholas van As, of The Royal Marsden Hospital and The Institute of Cancer Research in London, was published online in European Urology.

LIMITATIONS:

The small sample size and differential dropout from allocated treatment could have introduced bias. Data completeness was another limitation.

DISCLOSURES:

The study was supported by grants from the Royal Marsden NHS Foundation Trust. Several authors reported having various ties with various sources.

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

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

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

Underrecognized, Poorly Managed

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

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

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

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

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

Risk Factors

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

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

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

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

Preoperative Opioid Use

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

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

Involving General Practitioners

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

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

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

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

Managing POCP

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

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

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

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

Underrecognized, Poorly Managed

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

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

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

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

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

Risk Factors

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

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

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

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

Preoperative Opioid Use

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

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

Involving General Practitioners

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

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

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

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

Managing POCP

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

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

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

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

Underrecognized, Poorly Managed

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

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

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

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

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

Risk Factors

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

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

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

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

Preoperative Opioid Use

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

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

Involving General Practitioners

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

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

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

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

Managing POCP

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

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

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

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

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

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

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

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

Why does music work so well?
 

Tune Your Brain to Work With Tunes

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

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

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

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

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

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

‘Mind on a Permanent Vacation’

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

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

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

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

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

Building Team Harmony

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

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

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

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

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

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

Get Your Own Musical Boost

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

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

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

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

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

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

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

Scale Up Your Career

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

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

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

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

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

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

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

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

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

Why does music work so well?
 

Tune Your Brain to Work With Tunes

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

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

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

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

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

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

‘Mind on a Permanent Vacation’

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

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

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

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

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

Building Team Harmony

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

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

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

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

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

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

Get Your Own Musical Boost

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

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

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

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

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

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

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

Scale Up Your Career

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

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

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

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

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

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

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

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

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

Why does music work so well?
 

Tune Your Brain to Work With Tunes

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

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

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

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

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

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

‘Mind on a Permanent Vacation’

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

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

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

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

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

Building Team Harmony

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

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

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

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

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

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

Get Your Own Musical Boost

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

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

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

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

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

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

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

Scale Up Your Career

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

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

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

“Obesity only recently caught the public’s attention as a disease,” Matthias Blüher, MD, professor of medicine at the Leipzig University and director of the Helmholtz Institute for Metabolism, Obesity and Vascular Research, Leipzig, Germany, told attendees in a thought-provoking presentation at the European Association for the Study of Diabetes (EASD) 2024 Annual Meeting.

Even though the attitudes around how obesity is perceived may be relatively new, Blüher believes they are nonetheless significant. As a sign of how the cultural headwinds have shifted, he noted the 2022 film The Whale, which focuses on a character struggling with obesity. As Blüher pointed out, not only did the film’s star, Brendan Fraser, receive an Academy Award for his portrayal but he also theorized that the majority of celebrities in the audience were likely taking new weight loss medications.

“I strongly believe that in the future, obesity treatment will carry less stigma. It will be considered not as a cosmetic problem, but as a progressive disease.”

He sees several changes in the management of obesity likely to occur on the near horizon, beginning with when interventions directed at treating it will begin.

Obesity treatment should start at a young age, he said, because if you have overweight at ages 3-6 years, the likelihood of becoming an adult with obesity is approximately 90%. “Looking ahead, shouldn’t we put more emphasis on this age group?”

Furthermore, he hopes that clinical trials will move beyond body weight and body mass index (BMI) as their main outcome parameters. Instead, “we should talk about fat distribution, fat or adipose tissue function, muscle loss, body composition, and severity of disease.”

Blüher pointed to the recently published framework for the diagnosis, staging, and management of obesity in adults put forward by the European Association for the Study of Obesity. It states that obesity should be staged not based on BMI or body weight alone but also on an individual›s medical, functional, and psychological (eg, mental health and eating behavior) status.

“The causes of obesity are too complex to be individually targeted,” he continued, unlike examples such as hypercholesterolemia or smoking cessation, where clinicians may have one target to address.

“But overeating, slow metabolism, and low physical activity involve socio-cultural factors, global food marketing, and many other factors. Therefore, clinicians should be setting health targets, such as improving sleep apnea and improving physical functioning, rather than a kilogram number.”
 

Three Pillars of Treatment

Right now, clinicians have three pillars of treatments available, Blüher said. The first is behavioral intervention, including strategies such as counseling, diet, exercise, self-monitoring, stress management, and sleep management.

“We know that these behavioral aspects typically lack adherence and effect size, but they’re important, and for a certain group of people, they may be the best and safest treatment.”

The second pillar is pharmacotherapy, and the third is surgery.

Each pillar poses questions for future research, he explained.

“First, do we really need more evidence that behavioral interventions typically fail in the long run and are prone to rebound of body weight and health issues? No. Or which diet is best? We have hundreds of diet interventions, all of which basically show very similar outcomes. They lead to an average weight loss of 3% to 5% and do improve health conditions associated with obesity.”

When it comes to pharmacotherapies, Blüher does believe clinicians need more options.

Depending on affordability and access, glucagon-like peptide 1 (GLP-1) semaglutide will likely become the first-line therapy for most people living with obesity who want to take medications, he suggested. The dual glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 tirzepatide will be reserved for those with more severe conditions.

“But this is not the end of the story,” he said. “The pipelines for obesity pharmacotherapies are full, and they have different categories. We are optimistic that we will have more therapies not only for type 2 diabetes (T2D) but also for obesity. Combinations such as CagriSema (cagrilintide + semaglutide, currently indicated for T2D) may outperform the monotherapies. We have to see if they’re as safe, and we have to wait for phase 3 trials and long-term outcomes.”

“The field is open for many combinations, ideas and interactions among the incretin-based signaling systems, but personally, I think that the triple agonists have a very bright future,” Blüher said.

For example, retatrutide, an agonist of the GIP, GLP-1, and glucagon receptors, showed promise in a phase 2 trial. Although that was not a comparative study, “the average changes in body weight suggest that in a dose-dependent manner, you can expect even more weight loss than with tirzepatide.”
 

Treating the Causes

The future of obesity therapy might also be directed at the originating factors that cause it, Blüher suggested, adding that “treating the causes is a dream of mine.”

One example of treating the cause is leptin therapy, as shown in a 1999 study of recombinant leptin in a child with congenital leptin deficiency. A more recent example is setmelanotide treatment for proopiomelanocortin deficiency.

“We are at the beginning for these causative treatments of obesity, and I hope that the future will hold much more of these insights and targets, as in cancer therapy.”

“Finally,” he said, “We eat with our brain. And so in the future, we also will be better able to use our knowledge about the complex neural circuits that are obesogenic, and how to target them. In doing so, we can learn from surgeons because obesity surgery is very effective in changing the anatomy, and we also observe hormonal changes. We see that ghrelin, GLP-1, peptide YY, and many others are affected when the anatomy changes. Why can’t we use that knowledge to design drugs that resemble or mimic the effect size of bariatric surgery?”

And that goes to the third pillar of treatment and the question of whether the new weight loss drugs may replace surgery, which also was the topic of another EASD session.

Blüher doesn’t see that happening for at least a decade, given that there is still an effect-size gap between tirzepatide and surgery, especially for individuals with T2D. In addition, he noted, there will still be nonresponders to drugs, and clinicians are not treating to target yet. Looking ahead, he foresees a combination of surgery and multi-receptor agonists.

“I believe that obesity won’t be cured in the future, but we will have increasingly better lifelong management with a multidisciplinary approach, although behavioral interventions still will not be as successful as pharmacotherapy and bariatric surgery,” he concluded.
 

Q&A

During the question-and-answer session following his lecture, several attendees asked Blüher for his thoughts around other emerging areas in this field. One wanted to know whether microbiome changes might be a future target for obesity treatment.

“So far, we don’t really understand which bacteria, which composition, at which age, and at which part of the intestine need to be targeted,” Blüher responded. “Before we know that mechanistically, I think it would be difficult, but it could be an avenue to go for, though I’m a little less optimistic about it compared to other approaches.”

Given that obesity is not one disease, are there cluster subtypes, as for T2D — eg, the hungry brain, the hungry gut, low metabolism — that might benefit from individualized treatment, another attendee asked.

“We do try to subcluster people living with obesity,” Blüher said. “We did that based on adipose tissue expression signatures, and indeed there is large heterogeneity. But we are far from addressing the root causes and all subtypes of the disease, and that would be a requirement before we could personalize treatment in that way.”

Next, an attendee asked what is responsible for the differential weight loss in people with diabetes and people without? Blüher responded that although he doesn’t have the answer, he does have hypotheses.

“One could be that the disease process — eg, deterioration of beta cell function, of the balance of hormones such as insulin and leptin, of inflammatory parameters, of insulin resistance — is much more advanced in diseases such as T2D and sleep apnea. Maybe it then takes more to address comorbid conditions such as inflammation and insulin resistance. Therefore, combining current therapies with insulin sensitizers, for example, could produce better results.”

What about using continuous glucose monitoring to help people stick to their diet?

“That’s an important question that speaks to personalized treatment,” he said. “It applies not only to continuous glucose monitoring but also to nutrition and other modes of self-monitoring, which seem to be among the most successful tools for long-term weight maintenance.”

Blüher finished by saying, “As we look into the future, I hope that there will be better approaches for all aspects of personalized medicine, whether it is nutrition, exercise, pharmacotherapy, or even surgical procedures.”

Blüher received honoraria for lectures and/or served as a consultant to Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Daiichi Sankyo, Eli Lilly, Novo Nordisk, Novartis, Pfizer, and Sanofi.
 

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

“Obesity only recently caught the public’s attention as a disease,” Matthias Blüher, MD, professor of medicine at the Leipzig University and director of the Helmholtz Institute for Metabolism, Obesity and Vascular Research, Leipzig, Germany, told attendees in a thought-provoking presentation at the European Association for the Study of Diabetes (EASD) 2024 Annual Meeting.

Even though the attitudes around how obesity is perceived may be relatively new, Blüher believes they are nonetheless significant. As a sign of how the cultural headwinds have shifted, he noted the 2022 film The Whale, which focuses on a character struggling with obesity. As Blüher pointed out, not only did the film’s star, Brendan Fraser, receive an Academy Award for his portrayal but he also theorized that the majority of celebrities in the audience were likely taking new weight loss medications.

“I strongly believe that in the future, obesity treatment will carry less stigma. It will be considered not as a cosmetic problem, but as a progressive disease.”

He sees several changes in the management of obesity likely to occur on the near horizon, beginning with when interventions directed at treating it will begin.

Obesity treatment should start at a young age, he said, because if you have overweight at ages 3-6 years, the likelihood of becoming an adult with obesity is approximately 90%. “Looking ahead, shouldn’t we put more emphasis on this age group?”

Furthermore, he hopes that clinical trials will move beyond body weight and body mass index (BMI) as their main outcome parameters. Instead, “we should talk about fat distribution, fat or adipose tissue function, muscle loss, body composition, and severity of disease.”

Blüher pointed to the recently published framework for the diagnosis, staging, and management of obesity in adults put forward by the European Association for the Study of Obesity. It states that obesity should be staged not based on BMI or body weight alone but also on an individual›s medical, functional, and psychological (eg, mental health and eating behavior) status.

“The causes of obesity are too complex to be individually targeted,” he continued, unlike examples such as hypercholesterolemia or smoking cessation, where clinicians may have one target to address.

“But overeating, slow metabolism, and low physical activity involve socio-cultural factors, global food marketing, and many other factors. Therefore, clinicians should be setting health targets, such as improving sleep apnea and improving physical functioning, rather than a kilogram number.”
 

Three Pillars of Treatment

Right now, clinicians have three pillars of treatments available, Blüher said. The first is behavioral intervention, including strategies such as counseling, diet, exercise, self-monitoring, stress management, and sleep management.

“We know that these behavioral aspects typically lack adherence and effect size, but they’re important, and for a certain group of people, they may be the best and safest treatment.”

The second pillar is pharmacotherapy, and the third is surgery.

Each pillar poses questions for future research, he explained.

“First, do we really need more evidence that behavioral interventions typically fail in the long run and are prone to rebound of body weight and health issues? No. Or which diet is best? We have hundreds of diet interventions, all of which basically show very similar outcomes. They lead to an average weight loss of 3% to 5% and do improve health conditions associated with obesity.”

When it comes to pharmacotherapies, Blüher does believe clinicians need more options.

Depending on affordability and access, glucagon-like peptide 1 (GLP-1) semaglutide will likely become the first-line therapy for most people living with obesity who want to take medications, he suggested. The dual glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 tirzepatide will be reserved for those with more severe conditions.

“But this is not the end of the story,” he said. “The pipelines for obesity pharmacotherapies are full, and they have different categories. We are optimistic that we will have more therapies not only for type 2 diabetes (T2D) but also for obesity. Combinations such as CagriSema (cagrilintide + semaglutide, currently indicated for T2D) may outperform the monotherapies. We have to see if they’re as safe, and we have to wait for phase 3 trials and long-term outcomes.”

“The field is open for many combinations, ideas and interactions among the incretin-based signaling systems, but personally, I think that the triple agonists have a very bright future,” Blüher said.

For example, retatrutide, an agonist of the GIP, GLP-1, and glucagon receptors, showed promise in a phase 2 trial. Although that was not a comparative study, “the average changes in body weight suggest that in a dose-dependent manner, you can expect even more weight loss than with tirzepatide.”
 

Treating the Causes

The future of obesity therapy might also be directed at the originating factors that cause it, Blüher suggested, adding that “treating the causes is a dream of mine.”

One example of treating the cause is leptin therapy, as shown in a 1999 study of recombinant leptin in a child with congenital leptin deficiency. A more recent example is setmelanotide treatment for proopiomelanocortin deficiency.

“We are at the beginning for these causative treatments of obesity, and I hope that the future will hold much more of these insights and targets, as in cancer therapy.”

“Finally,” he said, “We eat with our brain. And so in the future, we also will be better able to use our knowledge about the complex neural circuits that are obesogenic, and how to target them. In doing so, we can learn from surgeons because obesity surgery is very effective in changing the anatomy, and we also observe hormonal changes. We see that ghrelin, GLP-1, peptide YY, and many others are affected when the anatomy changes. Why can’t we use that knowledge to design drugs that resemble or mimic the effect size of bariatric surgery?”

And that goes to the third pillar of treatment and the question of whether the new weight loss drugs may replace surgery, which also was the topic of another EASD session.

Blüher doesn’t see that happening for at least a decade, given that there is still an effect-size gap between tirzepatide and surgery, especially for individuals with T2D. In addition, he noted, there will still be nonresponders to drugs, and clinicians are not treating to target yet. Looking ahead, he foresees a combination of surgery and multi-receptor agonists.

“I believe that obesity won’t be cured in the future, but we will have increasingly better lifelong management with a multidisciplinary approach, although behavioral interventions still will not be as successful as pharmacotherapy and bariatric surgery,” he concluded.
 

Q&A

During the question-and-answer session following his lecture, several attendees asked Blüher for his thoughts around other emerging areas in this field. One wanted to know whether microbiome changes might be a future target for obesity treatment.

“So far, we don’t really understand which bacteria, which composition, at which age, and at which part of the intestine need to be targeted,” Blüher responded. “Before we know that mechanistically, I think it would be difficult, but it could be an avenue to go for, though I’m a little less optimistic about it compared to other approaches.”

Given that obesity is not one disease, are there cluster subtypes, as for T2D — eg, the hungry brain, the hungry gut, low metabolism — that might benefit from individualized treatment, another attendee asked.

“We do try to subcluster people living with obesity,” Blüher said. “We did that based on adipose tissue expression signatures, and indeed there is large heterogeneity. But we are far from addressing the root causes and all subtypes of the disease, and that would be a requirement before we could personalize treatment in that way.”

Next, an attendee asked what is responsible for the differential weight loss in people with diabetes and people without? Blüher responded that although he doesn’t have the answer, he does have hypotheses.

“One could be that the disease process — eg, deterioration of beta cell function, of the balance of hormones such as insulin and leptin, of inflammatory parameters, of insulin resistance — is much more advanced in diseases such as T2D and sleep apnea. Maybe it then takes more to address comorbid conditions such as inflammation and insulin resistance. Therefore, combining current therapies with insulin sensitizers, for example, could produce better results.”

What about using continuous glucose monitoring to help people stick to their diet?

“That’s an important question that speaks to personalized treatment,” he said. “It applies not only to continuous glucose monitoring but also to nutrition and other modes of self-monitoring, which seem to be among the most successful tools for long-term weight maintenance.”

Blüher finished by saying, “As we look into the future, I hope that there will be better approaches for all aspects of personalized medicine, whether it is nutrition, exercise, pharmacotherapy, or even surgical procedures.”

Blüher received honoraria for lectures and/or served as a consultant to Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Daiichi Sankyo, Eli Lilly, Novo Nordisk, Novartis, Pfizer, and Sanofi.
 

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

“Obesity only recently caught the public’s attention as a disease,” Matthias Blüher, MD, professor of medicine at the Leipzig University and director of the Helmholtz Institute for Metabolism, Obesity and Vascular Research, Leipzig, Germany, told attendees in a thought-provoking presentation at the European Association for the Study of Diabetes (EASD) 2024 Annual Meeting.

Even though the attitudes around how obesity is perceived may be relatively new, Blüher believes they are nonetheless significant. As a sign of how the cultural headwinds have shifted, he noted the 2022 film The Whale, which focuses on a character struggling with obesity. As Blüher pointed out, not only did the film’s star, Brendan Fraser, receive an Academy Award for his portrayal but he also theorized that the majority of celebrities in the audience were likely taking new weight loss medications.

“I strongly believe that in the future, obesity treatment will carry less stigma. It will be considered not as a cosmetic problem, but as a progressive disease.”

He sees several changes in the management of obesity likely to occur on the near horizon, beginning with when interventions directed at treating it will begin.

Obesity treatment should start at a young age, he said, because if you have overweight at ages 3-6 years, the likelihood of becoming an adult with obesity is approximately 90%. “Looking ahead, shouldn’t we put more emphasis on this age group?”

Furthermore, he hopes that clinical trials will move beyond body weight and body mass index (BMI) as their main outcome parameters. Instead, “we should talk about fat distribution, fat or adipose tissue function, muscle loss, body composition, and severity of disease.”

Blüher pointed to the recently published framework for the diagnosis, staging, and management of obesity in adults put forward by the European Association for the Study of Obesity. It states that obesity should be staged not based on BMI or body weight alone but also on an individual›s medical, functional, and psychological (eg, mental health and eating behavior) status.

“The causes of obesity are too complex to be individually targeted,” he continued, unlike examples such as hypercholesterolemia or smoking cessation, where clinicians may have one target to address.

“But overeating, slow metabolism, and low physical activity involve socio-cultural factors, global food marketing, and many other factors. Therefore, clinicians should be setting health targets, such as improving sleep apnea and improving physical functioning, rather than a kilogram number.”
 

Three Pillars of Treatment

Right now, clinicians have three pillars of treatments available, Blüher said. The first is behavioral intervention, including strategies such as counseling, diet, exercise, self-monitoring, stress management, and sleep management.

“We know that these behavioral aspects typically lack adherence and effect size, but they’re important, and for a certain group of people, they may be the best and safest treatment.”

The second pillar is pharmacotherapy, and the third is surgery.

Each pillar poses questions for future research, he explained.

“First, do we really need more evidence that behavioral interventions typically fail in the long run and are prone to rebound of body weight and health issues? No. Or which diet is best? We have hundreds of diet interventions, all of which basically show very similar outcomes. They lead to an average weight loss of 3% to 5% and do improve health conditions associated with obesity.”

When it comes to pharmacotherapies, Blüher does believe clinicians need more options.

Depending on affordability and access, glucagon-like peptide 1 (GLP-1) semaglutide will likely become the first-line therapy for most people living with obesity who want to take medications, he suggested. The dual glucose-dependent insulinotropic polypeptide (GIP)/GLP-1 tirzepatide will be reserved for those with more severe conditions.

“But this is not the end of the story,” he said. “The pipelines for obesity pharmacotherapies are full, and they have different categories. We are optimistic that we will have more therapies not only for type 2 diabetes (T2D) but also for obesity. Combinations such as CagriSema (cagrilintide + semaglutide, currently indicated for T2D) may outperform the monotherapies. We have to see if they’re as safe, and we have to wait for phase 3 trials and long-term outcomes.”

“The field is open for many combinations, ideas and interactions among the incretin-based signaling systems, but personally, I think that the triple agonists have a very bright future,” Blüher said.

For example, retatrutide, an agonist of the GIP, GLP-1, and glucagon receptors, showed promise in a phase 2 trial. Although that was not a comparative study, “the average changes in body weight suggest that in a dose-dependent manner, you can expect even more weight loss than with tirzepatide.”
 

Treating the Causes

The future of obesity therapy might also be directed at the originating factors that cause it, Blüher suggested, adding that “treating the causes is a dream of mine.”

One example of treating the cause is leptin therapy, as shown in a 1999 study of recombinant leptin in a child with congenital leptin deficiency. A more recent example is setmelanotide treatment for proopiomelanocortin deficiency.

“We are at the beginning for these causative treatments of obesity, and I hope that the future will hold much more of these insights and targets, as in cancer therapy.”

“Finally,” he said, “We eat with our brain. And so in the future, we also will be better able to use our knowledge about the complex neural circuits that are obesogenic, and how to target them. In doing so, we can learn from surgeons because obesity surgery is very effective in changing the anatomy, and we also observe hormonal changes. We see that ghrelin, GLP-1, peptide YY, and many others are affected when the anatomy changes. Why can’t we use that knowledge to design drugs that resemble or mimic the effect size of bariatric surgery?”

And that goes to the third pillar of treatment and the question of whether the new weight loss drugs may replace surgery, which also was the topic of another EASD session.

Blüher doesn’t see that happening for at least a decade, given that there is still an effect-size gap between tirzepatide and surgery, especially for individuals with T2D. In addition, he noted, there will still be nonresponders to drugs, and clinicians are not treating to target yet. Looking ahead, he foresees a combination of surgery and multi-receptor agonists.

“I believe that obesity won’t be cured in the future, but we will have increasingly better lifelong management with a multidisciplinary approach, although behavioral interventions still will not be as successful as pharmacotherapy and bariatric surgery,” he concluded.
 

Q&A

During the question-and-answer session following his lecture, several attendees asked Blüher for his thoughts around other emerging areas in this field. One wanted to know whether microbiome changes might be a future target for obesity treatment.

“So far, we don’t really understand which bacteria, which composition, at which age, and at which part of the intestine need to be targeted,” Blüher responded. “Before we know that mechanistically, I think it would be difficult, but it could be an avenue to go for, though I’m a little less optimistic about it compared to other approaches.”

Given that obesity is not one disease, are there cluster subtypes, as for T2D — eg, the hungry brain, the hungry gut, low metabolism — that might benefit from individualized treatment, another attendee asked.

“We do try to subcluster people living with obesity,” Blüher said. “We did that based on adipose tissue expression signatures, and indeed there is large heterogeneity. But we are far from addressing the root causes and all subtypes of the disease, and that would be a requirement before we could personalize treatment in that way.”

Next, an attendee asked what is responsible for the differential weight loss in people with diabetes and people without? Blüher responded that although he doesn’t have the answer, he does have hypotheses.

“One could be that the disease process — eg, deterioration of beta cell function, of the balance of hormones such as insulin and leptin, of inflammatory parameters, of insulin resistance — is much more advanced in diseases such as T2D and sleep apnea. Maybe it then takes more to address comorbid conditions such as inflammation and insulin resistance. Therefore, combining current therapies with insulin sensitizers, for example, could produce better results.”

What about using continuous glucose monitoring to help people stick to their diet?

“That’s an important question that speaks to personalized treatment,” he said. “It applies not only to continuous glucose monitoring but also to nutrition and other modes of self-monitoring, which seem to be among the most successful tools for long-term weight maintenance.”

Blüher finished by saying, “As we look into the future, I hope that there will be better approaches for all aspects of personalized medicine, whether it is nutrition, exercise, pharmacotherapy, or even surgical procedures.”

Blüher received honoraria for lectures and/or served as a consultant to Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Daiichi Sankyo, Eli Lilly, Novo Nordisk, Novartis, Pfizer, and Sanofi.
 

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

Physicians shared their views on frequently discussed (and sometimes controversial) topics ranging from romances with patients to age-related competency tests in the latest report from Medscape Medical News.

The report captured data from over 1000 full- or part-time US physicians across more than 29 specialties who were surveyed over a 3-month period in 2024.

Responsibility toward their patients was a clear priority among the doctors surveyed.

While around 6 in 10 physicians said they would immediately discharge a patient who refused to follow their treatment recommendations, 8% said they would wait, and 31% indicated they would keep the patient.

Asked whether physicians should have to undergo competency testing at a certain age, 30% of respondents said yes vs 22% no, and 48% felt it depended on multiple factors.

Most doctors (91%) said they would not accept a gift of substantial monetary or sentimental value from a patient, adhering to the AMA Code of Medical Ethics.

Big gifts “may signal psychological issues, and it is not fair to patients who can’t afford big gifts, since they may encourage better care,” said Jason Doctor, PhD, a senior scholar at the USC Leonard D. Schaeffer Center for Health Policy & Economics in Los Angeles, California. “It also taints the doctor-patient relationship, which should not involve large gifts of expectations of reciprocity.”

The vast majority of doctors said a romantic relationship with a patient still in their care was unacceptable, although 1% felt it would be OK, and 9% said, “it depends.”

When asked if they might withhold information about a patient’s condition if disclosure could do more harm than good, the majority of doctors said no. But 38% said it depended on the situation.

“This is how the profession and public expectations are evolving from the old paternalistic approach,” said Peter Angood, MD, president and CEO of the American Association for Physician Leadership.

Meanwhile, most doctors (62%) said that an annual flu shot should be mandatory for physicians who see patients. And a substantial majority of doctors surveyed agreed that taking care of their physical and mental health amounts to an ethical duty.

Around three in four physicians surveyed said felt periodic bias training was necessary for doctors.

“We all need refreshers about our own bias and how to manage it,” one respondent said. But another physician said, “I think we all know what appropriate behavior is and don’t need to add yet another CME course, ugh.”

Roughly equal shares of doctors surveyed felt some obligation to take at least some Medicaid patients or felt no societal obligation. The remaining 18% were willing to treat Medicaid patients once states streamlined the rules and improved reimbursements.

And finally, nearly all the survey respondents said physicians should advise patients on the risks of marijuana, notwithstanding the number of states and localities that recently have legalized pot or cannabis products.
 

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

Physicians shared their views on frequently discussed (and sometimes controversial) topics ranging from romances with patients to age-related competency tests in the latest report from Medscape Medical News.

The report captured data from over 1000 full- or part-time US physicians across more than 29 specialties who were surveyed over a 3-month period in 2024.

Responsibility toward their patients was a clear priority among the doctors surveyed.

While around 6 in 10 physicians said they would immediately discharge a patient who refused to follow their treatment recommendations, 8% said they would wait, and 31% indicated they would keep the patient.

Asked whether physicians should have to undergo competency testing at a certain age, 30% of respondents said yes vs 22% no, and 48% felt it depended on multiple factors.

Most doctors (91%) said they would not accept a gift of substantial monetary or sentimental value from a patient, adhering to the AMA Code of Medical Ethics.

Big gifts “may signal psychological issues, and it is not fair to patients who can’t afford big gifts, since they may encourage better care,” said Jason Doctor, PhD, a senior scholar at the USC Leonard D. Schaeffer Center for Health Policy & Economics in Los Angeles, California. “It also taints the doctor-patient relationship, which should not involve large gifts of expectations of reciprocity.”

The vast majority of doctors said a romantic relationship with a patient still in their care was unacceptable, although 1% felt it would be OK, and 9% said, “it depends.”

When asked if they might withhold information about a patient’s condition if disclosure could do more harm than good, the majority of doctors said no. But 38% said it depended on the situation.

“This is how the profession and public expectations are evolving from the old paternalistic approach,” said Peter Angood, MD, president and CEO of the American Association for Physician Leadership.

Meanwhile, most doctors (62%) said that an annual flu shot should be mandatory for physicians who see patients. And a substantial majority of doctors surveyed agreed that taking care of their physical and mental health amounts to an ethical duty.

Around three in four physicians surveyed said felt periodic bias training was necessary for doctors.

“We all need refreshers about our own bias and how to manage it,” one respondent said. But another physician said, “I think we all know what appropriate behavior is and don’t need to add yet another CME course, ugh.”

Roughly equal shares of doctors surveyed felt some obligation to take at least some Medicaid patients or felt no societal obligation. The remaining 18% were willing to treat Medicaid patients once states streamlined the rules and improved reimbursements.

And finally, nearly all the survey respondents said physicians should advise patients on the risks of marijuana, notwithstanding the number of states and localities that recently have legalized pot or cannabis products.
 

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

Physicians shared their views on frequently discussed (and sometimes controversial) topics ranging from romances with patients to age-related competency tests in the latest report from Medscape Medical News.

The report captured data from over 1000 full- or part-time US physicians across more than 29 specialties who were surveyed over a 3-month period in 2024.

Responsibility toward their patients was a clear priority among the doctors surveyed.

While around 6 in 10 physicians said they would immediately discharge a patient who refused to follow their treatment recommendations, 8% said they would wait, and 31% indicated they would keep the patient.

Asked whether physicians should have to undergo competency testing at a certain age, 30% of respondents said yes vs 22% no, and 48% felt it depended on multiple factors.

Most doctors (91%) said they would not accept a gift of substantial monetary or sentimental value from a patient, adhering to the AMA Code of Medical Ethics.

Big gifts “may signal psychological issues, and it is not fair to patients who can’t afford big gifts, since they may encourage better care,” said Jason Doctor, PhD, a senior scholar at the USC Leonard D. Schaeffer Center for Health Policy & Economics in Los Angeles, California. “It also taints the doctor-patient relationship, which should not involve large gifts of expectations of reciprocity.”

The vast majority of doctors said a romantic relationship with a patient still in their care was unacceptable, although 1% felt it would be OK, and 9% said, “it depends.”

When asked if they might withhold information about a patient’s condition if disclosure could do more harm than good, the majority of doctors said no. But 38% said it depended on the situation.

“This is how the profession and public expectations are evolving from the old paternalistic approach,” said Peter Angood, MD, president and CEO of the American Association for Physician Leadership.

Meanwhile, most doctors (62%) said that an annual flu shot should be mandatory for physicians who see patients. And a substantial majority of doctors surveyed agreed that taking care of their physical and mental health amounts to an ethical duty.

Around three in four physicians surveyed said felt periodic bias training was necessary for doctors.

“We all need refreshers about our own bias and how to manage it,” one respondent said. But another physician said, “I think we all know what appropriate behavior is and don’t need to add yet another CME course, ugh.”

Roughly equal shares of doctors surveyed felt some obligation to take at least some Medicaid patients or felt no societal obligation. The remaining 18% were willing to treat Medicaid patients once states streamlined the rules and improved reimbursements.

And finally, nearly all the survey respondents said physicians should advise patients on the risks of marijuana, notwithstanding the number of states and localities that recently have legalized pot or cannabis products.
 

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