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Ergonomic ‘Timeouts’ Make Endoscopy Easier For GIs

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Wed, 06/11/2025 - 18:31

Amandeep Shergill, MD, MS, AGAF, always thought she had good hand-eye coordination until she entered her gastroenterology fellowship.

“You’re learning how to scope and the endoscope just feels so awkward in the hands. It can be such a difficult instrument to both learn and to use,” said Dr. Shergill, professor of clinical medicine at University of California, San Francisco. 

Her attendings and mentors couldn’t give her the feedback she needed.

“I was told that I wasn’t holding it right. But every time I tried to do something that someone was trying to tell me, it seemed like my hands were too small. I couldn’t hold it the way that they were teaching me to hold it.” She began to wonder: Was this about her or the tool itself? 

A deep dive into hand tool interactions and medical device designs led her to human factors and ergonomics. Her fellowship mentor, Ken McQuaid, MD, AGAF, had gone to medical school with David Rempel, MD, MPH who was one of the top-funded ergonomists in the country. “He emailed David and wrote: I have a fellow who’s interested in learning more about ergonomics and applying it to endoscopy,” said Dr. Shergill.

Through her work with Dr. Rempel, she was able to uncover the mechanisms that lead to musculoskeletal disorders in endoscopists.

Over time, she has become a trailblazer in this field, helming the UC Berkeley Center for Ergonomic Endoscopy with Carisa Harris-Adamson PhD, CPE, her ergonomics collaborator. In an interview, she described the unique “timeout” algorithm she created to ease the process of endoscopy for GI physicians. 

 

What is your favorite aspect of being a GI physician?

I really love the diversity of patients and cases. You’re always learning something new. It’s an internal medicine subspecialty and a cognitive field, so we must think about differential diagnoses, risks and benefits of procedures for patients. But as a procedural field, we get to diagnose and immediately treat certain disorders. What’s exciting about GI right now is there’s still so much to learn. I think that we’re still discovering more about how the brain-gut interaction works every day. There’s been additional research about the microbiome and the immense influence it has on both health and disease. The field is continuing to evolve rapidly. There’s always something new to learn, and I think it keeps us fresh.

Tell me about your work in ergonomics and endoscopy.

Ken McQuaid connected me with David Rempel. I worked with David to approach this problem of endoscopy ergonomics from a very rigorous ergonomics perspective. Early in my fellowship, endoscopy ergonomics wasn’t well known. There were few survey-based studies, including one from the American Society for Gastrointestinal Endoscopy (ASGE) that documented a high prevalence of endoscopist injury. But not a lot was known about what was causing injury in endoscopists.

What were the risk factors for endoscopist injury? Instead of just doing another survey, I wanted to show that there was this potential for causation given the design of the endoscopes. I worked with David to do a pilot study where we collected some pinch forces and forearm muscle loads. I was able to collect some pilot data that I used to apply for the ASGE Endoscopic Research Award. And luckily, ASGE supported that work.

Another award I received, the ASGE Career Development Award, was instrumental in allowing me to become more proficient in the science of ergonomics. I was able to leverage that career development award to go back to school. I went to UC Berkeley and got a master’s in environmental health sciences with a focus on ergonomics. It really helped me to lay the foundation and understanding for ergonomics and then apply that to endoscopy to generate a more rigorous scientific background for endoscopy ergonomics and start that conversation within the field of GI.

 

What leads to musculoskeletal disorders in endoscopists and how can it be prevented?

Musculoskeletal disorders are associated with the repetitive procedures that we’re performing, often utilizing high forces and in non-neutral postures. This is because of how we’re interacting with our tools and how we’re interacting with our environments. The studies I have done with Carisa Harris-Adamson have been able to demonstrate and document the high forces that are required to interact with the endoscope. To turn the control section dials and to torque and manipulate the insertion tube, there are really high distal upper extremity muscle loads that are being applied. 

We were able to compare the loads and the forces we were seeing to established risk thresholds from the ergonomics literature and demonstrate that performing endoscopy was associated with moderate to high risk of development of distal upper extremity disorders. 

 

What research are you doing now?

We’re trying to focus more on interventions. We’ve done some studies on engineering controls we can utilize to decrease the loads of holding the scope. First, it was an anti-gravity support arm. More recently we’re hoping to publish data on whether a scope stand can alleviate some of those left distal upper extremity loads because the stand is holding the scope instead of the hand holding the scope. Can we decrease injury risk by decreasing static loading? 

Neck and back injuries, which have a high prevalence in endoscopists, are usually associated with how the room is set up. One of the things that I’ve tried to help promote is a pre-procedure ergonomic “timeout.” Before an endoscopist does a procedure, we’re supposed to perform a timeout focused on the patient’s safety. We should also try to advocate for physician safety and an ergonomic timeout. I developed a mnemonic device utilizing the word “MYSELF” to help endoscopists remember the ergonomic timeout checklist: M = monitor, Y = upside-down Y stance, S = scope, E = elbow/ bed position, L = lower extremities, F = free movement of endoscope/ processor placement. 

First, thinking about the monitor, “M”, and fixing the monitor height so that the neck is in neutral position. Then, thinking of an upside down “Y” standing straight with the feet either hip width or shoulder width apart, so that the physician has a stable, neutral standing posture. Then “S” is for checking the scope to ensure you have a scope with optimal angulation that’s working properly.

“E” is for elbows — adjusting the bed to an optimal position so that elbows and shoulders are in neutral position. “L” is for lower extremities — are the foot pedals within an easy reach? Do you have comfortable shoes on, an anti-fatigue floor mat if you need it? And then the “F” in “MYSELF” is for the processor placement, to ensure “free movement” of the scope. By placing the processor directly behind you and lining up the processor with the orifice to be scoped, you can ensure free movement of the scope so that you can leverage large movements of the control section to result in tip deflection. 

We studied the MYSELF mnemonic device for a pre-procedure ergonomic timeout in a simulated setting and presented our results at Digestive Disease Week (DDW) 2024, where we showed a reduction in ergonomic risk scores based on the Rapid Entire Body Assessment tool.

We presented the results of the scope stand study at DDW 2025 in San Diego this May.

 

What has been the feedback from physicians who use these supportive tools?

While physicians are very grateful for bringing attention to this issue, and many have found utility in some of the tools that I proposed, I think we still have so much work to do. We’re just all hoping to continue to move this field forward for better tools that are designed more with the breadth of endoscopists in mind. 

How do you handle stress and maintain work-life balance?

A few years ago, during DDW I gave a talk entitled “Achieving Work-Life Harmony.” I disclosed at the beginning of the talk that I had not achieved work-life harmony. It’s definitely a difficult thing to do, especially in our field as GI proceduralists, where we’re frequently on call and there are potentially on-call emergencies.

One of the key things that I’ve tried to do is create boundaries to prioritize both things in my personal life and my professional life and really try to stay true to the things that are important to me. For instance, things like family time and mealtimes, I think that’s so critical. Trying to be home on evenings for dinnertime is so important. 

One of my GI colleagues, Raj Keswani, MD, MS gave a talk about burnout and described imagining life as juggling balls; trying to figure out which balls are glass balls and need to be handled with care, and which balls are rubber balls. 

More often, work is the rubber ball. If you drop it, it’ll bounce back and the work that you have will still be there the next day. Family, friends, our health, those are the glass balls that if they fall, they can get scuffed or shatter sometimes. That image helps me think in the moment. If I need to decide between two competing priorities, which one will still be here tomorrow? Which is the one that’s going to be more resilient, and which is the one that I need to focus on? That’s been a helpful image for me. 

I also want to give a shout out to my amazing colleagues. We all pitch in with the ‘juggling’ and help to keep everyone’s ‘balls’ in the air, and cover for each other. Whether it’s a sick patient or whatever’s going on in our personal lives, we always take care of each other. 

 

What advice would you give to aspiring GI fellows or graduating fellows?

GI is such an amazing field and many people end up focusing on the procedural aspect of it. What I think defines an exceptional gastroenterologist and physician in general is adopting both a “growth mindset” and a “mastery mindset.” I would really encourage GI fellows to lean into that idea of a mastery mindset, especially as they’re identifying that niche within GI that they may be interested in pursuing. And really, it starts out with when you’re exploring an area of focus, listening to what consistently draws your attention, what you’re excited about learning more about. 

Finding mentors, getting involved in projects, doing deep learning, and really trying to develop an expertise in that area through additional training, coursework, and education. I think that idea of a mastery mindset will really help set you up for becoming deeply knowledgeable about a field.

Lightning Round

Coffee or tea?

Coffee



What’s your favorite book?

Project Hail Mary (audiobook)



Beach vacation or mountain retreat?

Mountain retreat



Early bird or night owl?

Night owl 



What’s your go-to comfort food?

Chaat (Indian street food) 



Do you prefer dogs or cats?

Dogs



What’s one hobby you’d like to pick up?

Sewing



If you could have dinner with any historical figure, who would it be?

Ruth Bader Ginsburg 



What’s your go-to karaoke song?

I Wanna Dance with Somebody



What’s one thing on your bucket list?

To see the Northern Lights

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Amandeep Shergill, MD, MS, AGAF, always thought she had good hand-eye coordination until she entered her gastroenterology fellowship.

“You’re learning how to scope and the endoscope just feels so awkward in the hands. It can be such a difficult instrument to both learn and to use,” said Dr. Shergill, professor of clinical medicine at University of California, San Francisco. 

Her attendings and mentors couldn’t give her the feedback she needed.

“I was told that I wasn’t holding it right. But every time I tried to do something that someone was trying to tell me, it seemed like my hands were too small. I couldn’t hold it the way that they were teaching me to hold it.” She began to wonder: Was this about her or the tool itself? 

A deep dive into hand tool interactions and medical device designs led her to human factors and ergonomics. Her fellowship mentor, Ken McQuaid, MD, AGAF, had gone to medical school with David Rempel, MD, MPH who was one of the top-funded ergonomists in the country. “He emailed David and wrote: I have a fellow who’s interested in learning more about ergonomics and applying it to endoscopy,” said Dr. Shergill.

Through her work with Dr. Rempel, she was able to uncover the mechanisms that lead to musculoskeletal disorders in endoscopists.

Over time, she has become a trailblazer in this field, helming the UC Berkeley Center for Ergonomic Endoscopy with Carisa Harris-Adamson PhD, CPE, her ergonomics collaborator. In an interview, she described the unique “timeout” algorithm she created to ease the process of endoscopy for GI physicians. 

 

What is your favorite aspect of being a GI physician?

I really love the diversity of patients and cases. You’re always learning something new. It’s an internal medicine subspecialty and a cognitive field, so we must think about differential diagnoses, risks and benefits of procedures for patients. But as a procedural field, we get to diagnose and immediately treat certain disorders. What’s exciting about GI right now is there’s still so much to learn. I think that we’re still discovering more about how the brain-gut interaction works every day. There’s been additional research about the microbiome and the immense influence it has on both health and disease. The field is continuing to evolve rapidly. There’s always something new to learn, and I think it keeps us fresh.

Tell me about your work in ergonomics and endoscopy.

Ken McQuaid connected me with David Rempel. I worked with David to approach this problem of endoscopy ergonomics from a very rigorous ergonomics perspective. Early in my fellowship, endoscopy ergonomics wasn’t well known. There were few survey-based studies, including one from the American Society for Gastrointestinal Endoscopy (ASGE) that documented a high prevalence of endoscopist injury. But not a lot was known about what was causing injury in endoscopists.

What were the risk factors for endoscopist injury? Instead of just doing another survey, I wanted to show that there was this potential for causation given the design of the endoscopes. I worked with David to do a pilot study where we collected some pinch forces and forearm muscle loads. I was able to collect some pilot data that I used to apply for the ASGE Endoscopic Research Award. And luckily, ASGE supported that work.

Another award I received, the ASGE Career Development Award, was instrumental in allowing me to become more proficient in the science of ergonomics. I was able to leverage that career development award to go back to school. I went to UC Berkeley and got a master’s in environmental health sciences with a focus on ergonomics. It really helped me to lay the foundation and understanding for ergonomics and then apply that to endoscopy to generate a more rigorous scientific background for endoscopy ergonomics and start that conversation within the field of GI.

 

What leads to musculoskeletal disorders in endoscopists and how can it be prevented?

Musculoskeletal disorders are associated with the repetitive procedures that we’re performing, often utilizing high forces and in non-neutral postures. This is because of how we’re interacting with our tools and how we’re interacting with our environments. The studies I have done with Carisa Harris-Adamson have been able to demonstrate and document the high forces that are required to interact with the endoscope. To turn the control section dials and to torque and manipulate the insertion tube, there are really high distal upper extremity muscle loads that are being applied. 

We were able to compare the loads and the forces we were seeing to established risk thresholds from the ergonomics literature and demonstrate that performing endoscopy was associated with moderate to high risk of development of distal upper extremity disorders. 

 

What research are you doing now?

We’re trying to focus more on interventions. We’ve done some studies on engineering controls we can utilize to decrease the loads of holding the scope. First, it was an anti-gravity support arm. More recently we’re hoping to publish data on whether a scope stand can alleviate some of those left distal upper extremity loads because the stand is holding the scope instead of the hand holding the scope. Can we decrease injury risk by decreasing static loading? 

Neck and back injuries, which have a high prevalence in endoscopists, are usually associated with how the room is set up. One of the things that I’ve tried to help promote is a pre-procedure ergonomic “timeout.” Before an endoscopist does a procedure, we’re supposed to perform a timeout focused on the patient’s safety. We should also try to advocate for physician safety and an ergonomic timeout. I developed a mnemonic device utilizing the word “MYSELF” to help endoscopists remember the ergonomic timeout checklist: M = monitor, Y = upside-down Y stance, S = scope, E = elbow/ bed position, L = lower extremities, F = free movement of endoscope/ processor placement. 

First, thinking about the monitor, “M”, and fixing the monitor height so that the neck is in neutral position. Then, thinking of an upside down “Y” standing straight with the feet either hip width or shoulder width apart, so that the physician has a stable, neutral standing posture. Then “S” is for checking the scope to ensure you have a scope with optimal angulation that’s working properly.

“E” is for elbows — adjusting the bed to an optimal position so that elbows and shoulders are in neutral position. “L” is for lower extremities — are the foot pedals within an easy reach? Do you have comfortable shoes on, an anti-fatigue floor mat if you need it? And then the “F” in “MYSELF” is for the processor placement, to ensure “free movement” of the scope. By placing the processor directly behind you and lining up the processor with the orifice to be scoped, you can ensure free movement of the scope so that you can leverage large movements of the control section to result in tip deflection. 

We studied the MYSELF mnemonic device for a pre-procedure ergonomic timeout in a simulated setting and presented our results at Digestive Disease Week (DDW) 2024, where we showed a reduction in ergonomic risk scores based on the Rapid Entire Body Assessment tool.

We presented the results of the scope stand study at DDW 2025 in San Diego this May.

 

What has been the feedback from physicians who use these supportive tools?

While physicians are very grateful for bringing attention to this issue, and many have found utility in some of the tools that I proposed, I think we still have so much work to do. We’re just all hoping to continue to move this field forward for better tools that are designed more with the breadth of endoscopists in mind. 

How do you handle stress and maintain work-life balance?

A few years ago, during DDW I gave a talk entitled “Achieving Work-Life Harmony.” I disclosed at the beginning of the talk that I had not achieved work-life harmony. It’s definitely a difficult thing to do, especially in our field as GI proceduralists, where we’re frequently on call and there are potentially on-call emergencies.

One of the key things that I’ve tried to do is create boundaries to prioritize both things in my personal life and my professional life and really try to stay true to the things that are important to me. For instance, things like family time and mealtimes, I think that’s so critical. Trying to be home on evenings for dinnertime is so important. 

One of my GI colleagues, Raj Keswani, MD, MS gave a talk about burnout and described imagining life as juggling balls; trying to figure out which balls are glass balls and need to be handled with care, and which balls are rubber balls. 

More often, work is the rubber ball. If you drop it, it’ll bounce back and the work that you have will still be there the next day. Family, friends, our health, those are the glass balls that if they fall, they can get scuffed or shatter sometimes. That image helps me think in the moment. If I need to decide between two competing priorities, which one will still be here tomorrow? Which is the one that’s going to be more resilient, and which is the one that I need to focus on? That’s been a helpful image for me. 

I also want to give a shout out to my amazing colleagues. We all pitch in with the ‘juggling’ and help to keep everyone’s ‘balls’ in the air, and cover for each other. Whether it’s a sick patient or whatever’s going on in our personal lives, we always take care of each other. 

 

What advice would you give to aspiring GI fellows or graduating fellows?

GI is such an amazing field and many people end up focusing on the procedural aspect of it. What I think defines an exceptional gastroenterologist and physician in general is adopting both a “growth mindset” and a “mastery mindset.” I would really encourage GI fellows to lean into that idea of a mastery mindset, especially as they’re identifying that niche within GI that they may be interested in pursuing. And really, it starts out with when you’re exploring an area of focus, listening to what consistently draws your attention, what you’re excited about learning more about. 

Finding mentors, getting involved in projects, doing deep learning, and really trying to develop an expertise in that area through additional training, coursework, and education. I think that idea of a mastery mindset will really help set you up for becoming deeply knowledgeable about a field.

Lightning Round

Coffee or tea?

Coffee



What’s your favorite book?

Project Hail Mary (audiobook)



Beach vacation or mountain retreat?

Mountain retreat



Early bird or night owl?

Night owl 



What’s your go-to comfort food?

Chaat (Indian street food) 



Do you prefer dogs or cats?

Dogs



What’s one hobby you’d like to pick up?

Sewing



If you could have dinner with any historical figure, who would it be?

Ruth Bader Ginsburg 



What’s your go-to karaoke song?

I Wanna Dance with Somebody



What’s one thing on your bucket list?

To see the Northern Lights

Amandeep Shergill, MD, MS, AGAF, always thought she had good hand-eye coordination until she entered her gastroenterology fellowship.

“You’re learning how to scope and the endoscope just feels so awkward in the hands. It can be such a difficult instrument to both learn and to use,” said Dr. Shergill, professor of clinical medicine at University of California, San Francisco. 

Her attendings and mentors couldn’t give her the feedback she needed.

“I was told that I wasn’t holding it right. But every time I tried to do something that someone was trying to tell me, it seemed like my hands were too small. I couldn’t hold it the way that they were teaching me to hold it.” She began to wonder: Was this about her or the tool itself? 

A deep dive into hand tool interactions and medical device designs led her to human factors and ergonomics. Her fellowship mentor, Ken McQuaid, MD, AGAF, had gone to medical school with David Rempel, MD, MPH who was one of the top-funded ergonomists in the country. “He emailed David and wrote: I have a fellow who’s interested in learning more about ergonomics and applying it to endoscopy,” said Dr. Shergill.

Through her work with Dr. Rempel, she was able to uncover the mechanisms that lead to musculoskeletal disorders in endoscopists.

Over time, she has become a trailblazer in this field, helming the UC Berkeley Center for Ergonomic Endoscopy with Carisa Harris-Adamson PhD, CPE, her ergonomics collaborator. In an interview, she described the unique “timeout” algorithm she created to ease the process of endoscopy for GI physicians. 

 

What is your favorite aspect of being a GI physician?

I really love the diversity of patients and cases. You’re always learning something new. It’s an internal medicine subspecialty and a cognitive field, so we must think about differential diagnoses, risks and benefits of procedures for patients. But as a procedural field, we get to diagnose and immediately treat certain disorders. What’s exciting about GI right now is there’s still so much to learn. I think that we’re still discovering more about how the brain-gut interaction works every day. There’s been additional research about the microbiome and the immense influence it has on both health and disease. The field is continuing to evolve rapidly. There’s always something new to learn, and I think it keeps us fresh.

Tell me about your work in ergonomics and endoscopy.

Ken McQuaid connected me with David Rempel. I worked with David to approach this problem of endoscopy ergonomics from a very rigorous ergonomics perspective. Early in my fellowship, endoscopy ergonomics wasn’t well known. There were few survey-based studies, including one from the American Society for Gastrointestinal Endoscopy (ASGE) that documented a high prevalence of endoscopist injury. But not a lot was known about what was causing injury in endoscopists.

What were the risk factors for endoscopist injury? Instead of just doing another survey, I wanted to show that there was this potential for causation given the design of the endoscopes. I worked with David to do a pilot study where we collected some pinch forces and forearm muscle loads. I was able to collect some pilot data that I used to apply for the ASGE Endoscopic Research Award. And luckily, ASGE supported that work.

Another award I received, the ASGE Career Development Award, was instrumental in allowing me to become more proficient in the science of ergonomics. I was able to leverage that career development award to go back to school. I went to UC Berkeley and got a master’s in environmental health sciences with a focus on ergonomics. It really helped me to lay the foundation and understanding for ergonomics and then apply that to endoscopy to generate a more rigorous scientific background for endoscopy ergonomics and start that conversation within the field of GI.

 

What leads to musculoskeletal disorders in endoscopists and how can it be prevented?

Musculoskeletal disorders are associated with the repetitive procedures that we’re performing, often utilizing high forces and in non-neutral postures. This is because of how we’re interacting with our tools and how we’re interacting with our environments. The studies I have done with Carisa Harris-Adamson have been able to demonstrate and document the high forces that are required to interact with the endoscope. To turn the control section dials and to torque and manipulate the insertion tube, there are really high distal upper extremity muscle loads that are being applied. 

We were able to compare the loads and the forces we were seeing to established risk thresholds from the ergonomics literature and demonstrate that performing endoscopy was associated with moderate to high risk of development of distal upper extremity disorders. 

 

What research are you doing now?

We’re trying to focus more on interventions. We’ve done some studies on engineering controls we can utilize to decrease the loads of holding the scope. First, it was an anti-gravity support arm. More recently we’re hoping to publish data on whether a scope stand can alleviate some of those left distal upper extremity loads because the stand is holding the scope instead of the hand holding the scope. Can we decrease injury risk by decreasing static loading? 

Neck and back injuries, which have a high prevalence in endoscopists, are usually associated with how the room is set up. One of the things that I’ve tried to help promote is a pre-procedure ergonomic “timeout.” Before an endoscopist does a procedure, we’re supposed to perform a timeout focused on the patient’s safety. We should also try to advocate for physician safety and an ergonomic timeout. I developed a mnemonic device utilizing the word “MYSELF” to help endoscopists remember the ergonomic timeout checklist: M = monitor, Y = upside-down Y stance, S = scope, E = elbow/ bed position, L = lower extremities, F = free movement of endoscope/ processor placement. 

First, thinking about the monitor, “M”, and fixing the monitor height so that the neck is in neutral position. Then, thinking of an upside down “Y” standing straight with the feet either hip width or shoulder width apart, so that the physician has a stable, neutral standing posture. Then “S” is for checking the scope to ensure you have a scope with optimal angulation that’s working properly.

“E” is for elbows — adjusting the bed to an optimal position so that elbows and shoulders are in neutral position. “L” is for lower extremities — are the foot pedals within an easy reach? Do you have comfortable shoes on, an anti-fatigue floor mat if you need it? And then the “F” in “MYSELF” is for the processor placement, to ensure “free movement” of the scope. By placing the processor directly behind you and lining up the processor with the orifice to be scoped, you can ensure free movement of the scope so that you can leverage large movements of the control section to result in tip deflection. 

We studied the MYSELF mnemonic device for a pre-procedure ergonomic timeout in a simulated setting and presented our results at Digestive Disease Week (DDW) 2024, where we showed a reduction in ergonomic risk scores based on the Rapid Entire Body Assessment tool.

We presented the results of the scope stand study at DDW 2025 in San Diego this May.

 

What has been the feedback from physicians who use these supportive tools?

While physicians are very grateful for bringing attention to this issue, and many have found utility in some of the tools that I proposed, I think we still have so much work to do. We’re just all hoping to continue to move this field forward for better tools that are designed more with the breadth of endoscopists in mind. 

How do you handle stress and maintain work-life balance?

A few years ago, during DDW I gave a talk entitled “Achieving Work-Life Harmony.” I disclosed at the beginning of the talk that I had not achieved work-life harmony. It’s definitely a difficult thing to do, especially in our field as GI proceduralists, where we’re frequently on call and there are potentially on-call emergencies.

One of the key things that I’ve tried to do is create boundaries to prioritize both things in my personal life and my professional life and really try to stay true to the things that are important to me. For instance, things like family time and mealtimes, I think that’s so critical. Trying to be home on evenings for dinnertime is so important. 

One of my GI colleagues, Raj Keswani, MD, MS gave a talk about burnout and described imagining life as juggling balls; trying to figure out which balls are glass balls and need to be handled with care, and which balls are rubber balls. 

More often, work is the rubber ball. If you drop it, it’ll bounce back and the work that you have will still be there the next day. Family, friends, our health, those are the glass balls that if they fall, they can get scuffed or shatter sometimes. That image helps me think in the moment. If I need to decide between two competing priorities, which one will still be here tomorrow? Which is the one that’s going to be more resilient, and which is the one that I need to focus on? That’s been a helpful image for me. 

I also want to give a shout out to my amazing colleagues. We all pitch in with the ‘juggling’ and help to keep everyone’s ‘balls’ in the air, and cover for each other. Whether it’s a sick patient or whatever’s going on in our personal lives, we always take care of each other. 

 

What advice would you give to aspiring GI fellows or graduating fellows?

GI is such an amazing field and many people end up focusing on the procedural aspect of it. What I think defines an exceptional gastroenterologist and physician in general is adopting both a “growth mindset” and a “mastery mindset.” I would really encourage GI fellows to lean into that idea of a mastery mindset, especially as they’re identifying that niche within GI that they may be interested in pursuing. And really, it starts out with when you’re exploring an area of focus, listening to what consistently draws your attention, what you’re excited about learning more about. 

Finding mentors, getting involved in projects, doing deep learning, and really trying to develop an expertise in that area through additional training, coursework, and education. I think that idea of a mastery mindset will really help set you up for becoming deeply knowledgeable about a field.

Lightning Round

Coffee or tea?

Coffee



What’s your favorite book?

Project Hail Mary (audiobook)



Beach vacation or mountain retreat?

Mountain retreat



Early bird or night owl?

Night owl 



What’s your go-to comfort food?

Chaat (Indian street food) 



Do you prefer dogs or cats?

Dogs



What’s one hobby you’d like to pick up?

Sewing



If you could have dinner with any historical figure, who would it be?

Ruth Bader Ginsburg 



What’s your go-to karaoke song?

I Wanna Dance with Somebody



What’s one thing on your bucket list?

To see the Northern Lights

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Endoscopist Brings Cutting-Edge Tech to Asia-Pacific Region

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Mon, 02/03/2025 - 11:27

As the COVID-19 crisis unfolded in early 2020, Tossapol Kerdsirichairat, MD, faced another challenge: his mother’s ovarian cancer diagnosis.

“She chose to remain in Thailand, so I decided to relocate to care for her,” said Dr. Kerdsirichairat, an interventional endoscopist who completed fellowships at the University of Michigan, Ann Arbor, and Johns Hopkins University in Baltimore. The move to Bangkok turned out to be one of the best decisions of his life, he said, as he could support his mother while introducing advanced endoscopic techniques and devices to the region.

“Bangkok is a hub for medical innovation in Asia, offering opportunities to work with a diverse patient population and access to cutting-edge technology,” said Dr. Kerdsirichairat, who works at Bumrungrad International Hospital as a clinical associate professor. 

Establishing a high-risk GI cancer program that included pancreatic cancer screening for high-risk individuals was one of his core achievements at Bumrungrad. The program is the first of its kind in Thailand and one of the few in the Asia-Pacific region. 

“I guide patients and families through understanding their risks and implementing preventive strategies, collaborating with multidisciplinary teams to ensure comprehensive care. It’s incredibly rewarding to see the impact of early tumor detection,” said Dr. Kerdsirichairat, an international member of AGA who was a participant in the AGA Young Delegates Program.

He has set several records in Thailand for the smallest tumor detected, including a 0.3-millimeter (mm) esophageal tumor, a 0.8-mm tumor for stomach cancer, a 5-mm pancreatic tumor, and a 1-mm tumor for colon cancer. 

Dr. Tossapol Kerdsirichairat (second from R) practices interventional endoscopy at Bumrungrad International Hospital, Bangkok, Thailand.



“These were detected through high-standard screening programs, as patients often do not develop symptoms from these subtle lesions,” said Dr. Kerdsirichairat, who discussed in an interview the unique challenges of practicing overseas.

 

Why did you choose GI?

Gastroenterology is a specialty that uniquely integrates procedural skill, clinical decision making, and a deep understanding of complex biological systems. I was drawn especially to the ability to make a direct and meaningful impact in patients’ lives through advanced endoscopic procedures, while also addressing both acute and chronic diseases, and focusing on cancer prevention. It is incredibly rewarding to perform an endoscopic retrograde cholangiopancreatography (ERCP) for cholangitis and see a patient return to normal the very next day, or to perform an endoscopic ultrasound (EUS) for pancreatic cancer screening in high-risk individuals and detect a sub-centimeter pancreatic tumor.

Realizing that early detection can improve survival by threefold after surgery is a powerful reminder of the difference we can make in patients’ lives. This specialty requires a delicate balance of precision and empathy, which perfectly aligns with my strengths and values as a physician.

Dr. Tossapol Kerdsirichairat



 

You have a wide variety of clinical interests, from endoscopic procedures to cancer research to GERD. What’s your key subspecialty and why?

My primary specialty is advanced endoscopy, which includes techniques such as EUS, ERCP, and endoscopic resection of precancerous and early cancerous lesions. I also focus on cutting-edge, evidence-based techniques recently included in clinical guidelines, such as Transoral Incisionless Fundoplication (TIF). These minimally invasive options allow me to diagnose and treat conditions that once required surgery. The precision and innovation involved in advanced endoscopy enable me to effectively manage complex cases—from diagnosing early cancers to managing bile duct obstructions and resecting precancerous lesions.

Can you describe your work in cancer genetics and screening?

I am deeply committed to the early detection of gastrointestinal cancers, particularly through screening for precancerous conditions and hereditary syndromes. During my general GI training at the University of Michigan, I had the privilege of working with Grace Elta, MD, AGAF, and Michelle Anderson, MD, MSc, renowned experts in pancreatic cancer management. I was later trained by Anne Marie Lennon, PhD, AGAF, who pioneered the liquid biopsy technique for cancer screening through the CancerSEEK project, and Marcia (Mimi) Canto, MD, MHS, who initiated the Cancer of the Pancreas Screening project for high-risk individuals of pancreatic cancer.

I also had the distinction of being the first at Bumrungrad International Hospital to perform endoscopic drainage for pancreatic fluid collections in the setting of multi-organ failure. This endoscopic approach has been extensively validated in the medical literature as significantly improving survival rates compared to surgical drainage. My training in this specialized procedure was conducted under the guidance of the premier group for necrotizing pancreatitis, led by Martin Freeman, MD, at the University of Minnesota.

Later, I contributed to overseeing the Inherited Gastrointestinal Malignancy Clinic of MyCode, a large-scale population-based cohort program focused on cancer screening in Pennsylvania. By December 2024, MyCode had collected blood samples from over 258,000 individuals, analyzed DNA sequences from over 184,000, and provided clinical data that benefits over 142,000 patients. It’s not uncommon for healthy 25-year-old patients to come to our clinic for colon cancer screening after learning from the program that they carry a cancer syndrome, and early screening can potentially save their lives.

 

What are the key differences between training and practicing medicine in the United States and in an Asian country?

The U.S. healthcare system is deeply rooted in evidence-based protocols and multidisciplinary care, driven by an insurance-based model. In contrast, many Asian countries face challenges such as the dependency on government approval for certain treatments and insurance limitations. Practicing in Asia requires navigating unique cultural, economic, and systemic differences, including varying resource availability and disease prevalence.

What specific challenges have you faced as a GI in Thailand?

As an advanced endoscopist, one of the biggest challenges I faced initially was the difficulty in obtaining the same devices I used in the U.S. for use in Thailand. With support from device companies and mentors in the U.S., I was able to perform groundbreaking procedures, such as the TIF in Southeast Asia and the first use of a full-thickness resection device in Thailand. I am also proud to be part of one of the first few centers worldwide performing the combination of injectable semaglutide and endoscopic sleeve gastroplasty, resulting in a remarkable weight reduction of 44%, comparable to surgical gastric bypass.

In addition, Bumrungrad International Hospital, where I practice, sees over 1.1 million visits annually from patients from more than 190 countries. This offers a unique opportunity to engage with a global patient base and learn from diverse cultures. Over time, although the hospital has professional interpreters for all languages, I have become able to communicate basic sentences with international patients in their preferred languages, including Chinese, Japanese, and Arabic, which has enriched my practice.

 

What’s your favorite thing to do when you’re not practicing GI?

I enjoy traveling, exploring new cuisines, and spending quality time with family and friends. These activities help me recharge and offer fresh perspectives on life.

Lightning Round

Texting or talking?

Talking. It’s more personal and meaningful.



Favorite city in the U.S.?

Ann Arbor, Michigan 



Cat or dog person?

Dog person 



Favorite junk food?

Pizza 



How many cups of coffee do you drink per day?

Two – just enough to stay sharp, but not jittery.



If you weren’t a GI, what would you be?

Architect 



Best place you went on vacation?

Kyoto, Japan 



Favorite sport?

Skiing 



Favorite ice cream?

Matcha green tea 



What song do you have to sing along with when you hear it?

“Everybody” by Backstreet Boys 



Favorite movie or TV show?

Forrest Gump and Friends 



Optimist or pessimist?

Optimist. I believe in focusing on solutions and possibilities.

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As the COVID-19 crisis unfolded in early 2020, Tossapol Kerdsirichairat, MD, faced another challenge: his mother’s ovarian cancer diagnosis.

“She chose to remain in Thailand, so I decided to relocate to care for her,” said Dr. Kerdsirichairat, an interventional endoscopist who completed fellowships at the University of Michigan, Ann Arbor, and Johns Hopkins University in Baltimore. The move to Bangkok turned out to be one of the best decisions of his life, he said, as he could support his mother while introducing advanced endoscopic techniques and devices to the region.

“Bangkok is a hub for medical innovation in Asia, offering opportunities to work with a diverse patient population and access to cutting-edge technology,” said Dr. Kerdsirichairat, who works at Bumrungrad International Hospital as a clinical associate professor. 

Establishing a high-risk GI cancer program that included pancreatic cancer screening for high-risk individuals was one of his core achievements at Bumrungrad. The program is the first of its kind in Thailand and one of the few in the Asia-Pacific region. 

“I guide patients and families through understanding their risks and implementing preventive strategies, collaborating with multidisciplinary teams to ensure comprehensive care. It’s incredibly rewarding to see the impact of early tumor detection,” said Dr. Kerdsirichairat, an international member of AGA who was a participant in the AGA Young Delegates Program.

He has set several records in Thailand for the smallest tumor detected, including a 0.3-millimeter (mm) esophageal tumor, a 0.8-mm tumor for stomach cancer, a 5-mm pancreatic tumor, and a 1-mm tumor for colon cancer. 

Dr. Tossapol Kerdsirichairat (second from R) practices interventional endoscopy at Bumrungrad International Hospital, Bangkok, Thailand.



“These were detected through high-standard screening programs, as patients often do not develop symptoms from these subtle lesions,” said Dr. Kerdsirichairat, who discussed in an interview the unique challenges of practicing overseas.

 

Why did you choose GI?

Gastroenterology is a specialty that uniquely integrates procedural skill, clinical decision making, and a deep understanding of complex biological systems. I was drawn especially to the ability to make a direct and meaningful impact in patients’ lives through advanced endoscopic procedures, while also addressing both acute and chronic diseases, and focusing on cancer prevention. It is incredibly rewarding to perform an endoscopic retrograde cholangiopancreatography (ERCP) for cholangitis and see a patient return to normal the very next day, or to perform an endoscopic ultrasound (EUS) for pancreatic cancer screening in high-risk individuals and detect a sub-centimeter pancreatic tumor.

Realizing that early detection can improve survival by threefold after surgery is a powerful reminder of the difference we can make in patients’ lives. This specialty requires a delicate balance of precision and empathy, which perfectly aligns with my strengths and values as a physician.

Dr. Tossapol Kerdsirichairat



 

You have a wide variety of clinical interests, from endoscopic procedures to cancer research to GERD. What’s your key subspecialty and why?

My primary specialty is advanced endoscopy, which includes techniques such as EUS, ERCP, and endoscopic resection of precancerous and early cancerous lesions. I also focus on cutting-edge, evidence-based techniques recently included in clinical guidelines, such as Transoral Incisionless Fundoplication (TIF). These minimally invasive options allow me to diagnose and treat conditions that once required surgery. The precision and innovation involved in advanced endoscopy enable me to effectively manage complex cases—from diagnosing early cancers to managing bile duct obstructions and resecting precancerous lesions.

Can you describe your work in cancer genetics and screening?

I am deeply committed to the early detection of gastrointestinal cancers, particularly through screening for precancerous conditions and hereditary syndromes. During my general GI training at the University of Michigan, I had the privilege of working with Grace Elta, MD, AGAF, and Michelle Anderson, MD, MSc, renowned experts in pancreatic cancer management. I was later trained by Anne Marie Lennon, PhD, AGAF, who pioneered the liquid biopsy technique for cancer screening through the CancerSEEK project, and Marcia (Mimi) Canto, MD, MHS, who initiated the Cancer of the Pancreas Screening project for high-risk individuals of pancreatic cancer.

I also had the distinction of being the first at Bumrungrad International Hospital to perform endoscopic drainage for pancreatic fluid collections in the setting of multi-organ failure. This endoscopic approach has been extensively validated in the medical literature as significantly improving survival rates compared to surgical drainage. My training in this specialized procedure was conducted under the guidance of the premier group for necrotizing pancreatitis, led by Martin Freeman, MD, at the University of Minnesota.

Later, I contributed to overseeing the Inherited Gastrointestinal Malignancy Clinic of MyCode, a large-scale population-based cohort program focused on cancer screening in Pennsylvania. By December 2024, MyCode had collected blood samples from over 258,000 individuals, analyzed DNA sequences from over 184,000, and provided clinical data that benefits over 142,000 patients. It’s not uncommon for healthy 25-year-old patients to come to our clinic for colon cancer screening after learning from the program that they carry a cancer syndrome, and early screening can potentially save their lives.

 

What are the key differences between training and practicing medicine in the United States and in an Asian country?

The U.S. healthcare system is deeply rooted in evidence-based protocols and multidisciplinary care, driven by an insurance-based model. In contrast, many Asian countries face challenges such as the dependency on government approval for certain treatments and insurance limitations. Practicing in Asia requires navigating unique cultural, economic, and systemic differences, including varying resource availability and disease prevalence.

What specific challenges have you faced as a GI in Thailand?

As an advanced endoscopist, one of the biggest challenges I faced initially was the difficulty in obtaining the same devices I used in the U.S. for use in Thailand. With support from device companies and mentors in the U.S., I was able to perform groundbreaking procedures, such as the TIF in Southeast Asia and the first use of a full-thickness resection device in Thailand. I am also proud to be part of one of the first few centers worldwide performing the combination of injectable semaglutide and endoscopic sleeve gastroplasty, resulting in a remarkable weight reduction of 44%, comparable to surgical gastric bypass.

In addition, Bumrungrad International Hospital, where I practice, sees over 1.1 million visits annually from patients from more than 190 countries. This offers a unique opportunity to engage with a global patient base and learn from diverse cultures. Over time, although the hospital has professional interpreters for all languages, I have become able to communicate basic sentences with international patients in their preferred languages, including Chinese, Japanese, and Arabic, which has enriched my practice.

 

What’s your favorite thing to do when you’re not practicing GI?

I enjoy traveling, exploring new cuisines, and spending quality time with family and friends. These activities help me recharge and offer fresh perspectives on life.

Lightning Round

Texting or talking?

Talking. It’s more personal and meaningful.



Favorite city in the U.S.?

Ann Arbor, Michigan 



Cat or dog person?

Dog person 



Favorite junk food?

Pizza 



How many cups of coffee do you drink per day?

Two – just enough to stay sharp, but not jittery.



If you weren’t a GI, what would you be?

Architect 



Best place you went on vacation?

Kyoto, Japan 



Favorite sport?

Skiing 



Favorite ice cream?

Matcha green tea 



What song do you have to sing along with when you hear it?

“Everybody” by Backstreet Boys 



Favorite movie or TV show?

Forrest Gump and Friends 



Optimist or pessimist?

Optimist. I believe in focusing on solutions and possibilities.

As the COVID-19 crisis unfolded in early 2020, Tossapol Kerdsirichairat, MD, faced another challenge: his mother’s ovarian cancer diagnosis.

“She chose to remain in Thailand, so I decided to relocate to care for her,” said Dr. Kerdsirichairat, an interventional endoscopist who completed fellowships at the University of Michigan, Ann Arbor, and Johns Hopkins University in Baltimore. The move to Bangkok turned out to be one of the best decisions of his life, he said, as he could support his mother while introducing advanced endoscopic techniques and devices to the region.

“Bangkok is a hub for medical innovation in Asia, offering opportunities to work with a diverse patient population and access to cutting-edge technology,” said Dr. Kerdsirichairat, who works at Bumrungrad International Hospital as a clinical associate professor. 

Establishing a high-risk GI cancer program that included pancreatic cancer screening for high-risk individuals was one of his core achievements at Bumrungrad. The program is the first of its kind in Thailand and one of the few in the Asia-Pacific region. 

“I guide patients and families through understanding their risks and implementing preventive strategies, collaborating with multidisciplinary teams to ensure comprehensive care. It’s incredibly rewarding to see the impact of early tumor detection,” said Dr. Kerdsirichairat, an international member of AGA who was a participant in the AGA Young Delegates Program.

He has set several records in Thailand for the smallest tumor detected, including a 0.3-millimeter (mm) esophageal tumor, a 0.8-mm tumor for stomach cancer, a 5-mm pancreatic tumor, and a 1-mm tumor for colon cancer. 

Dr. Tossapol Kerdsirichairat (second from R) practices interventional endoscopy at Bumrungrad International Hospital, Bangkok, Thailand.



“These were detected through high-standard screening programs, as patients often do not develop symptoms from these subtle lesions,” said Dr. Kerdsirichairat, who discussed in an interview the unique challenges of practicing overseas.

 

Why did you choose GI?

Gastroenterology is a specialty that uniquely integrates procedural skill, clinical decision making, and a deep understanding of complex biological systems. I was drawn especially to the ability to make a direct and meaningful impact in patients’ lives through advanced endoscopic procedures, while also addressing both acute and chronic diseases, and focusing on cancer prevention. It is incredibly rewarding to perform an endoscopic retrograde cholangiopancreatography (ERCP) for cholangitis and see a patient return to normal the very next day, or to perform an endoscopic ultrasound (EUS) for pancreatic cancer screening in high-risk individuals and detect a sub-centimeter pancreatic tumor.

Realizing that early detection can improve survival by threefold after surgery is a powerful reminder of the difference we can make in patients’ lives. This specialty requires a delicate balance of precision and empathy, which perfectly aligns with my strengths and values as a physician.

Dr. Tossapol Kerdsirichairat



 

You have a wide variety of clinical interests, from endoscopic procedures to cancer research to GERD. What’s your key subspecialty and why?

My primary specialty is advanced endoscopy, which includes techniques such as EUS, ERCP, and endoscopic resection of precancerous and early cancerous lesions. I also focus on cutting-edge, evidence-based techniques recently included in clinical guidelines, such as Transoral Incisionless Fundoplication (TIF). These minimally invasive options allow me to diagnose and treat conditions that once required surgery. The precision and innovation involved in advanced endoscopy enable me to effectively manage complex cases—from diagnosing early cancers to managing bile duct obstructions and resecting precancerous lesions.

Can you describe your work in cancer genetics and screening?

I am deeply committed to the early detection of gastrointestinal cancers, particularly through screening for precancerous conditions and hereditary syndromes. During my general GI training at the University of Michigan, I had the privilege of working with Grace Elta, MD, AGAF, and Michelle Anderson, MD, MSc, renowned experts in pancreatic cancer management. I was later trained by Anne Marie Lennon, PhD, AGAF, who pioneered the liquid biopsy technique for cancer screening through the CancerSEEK project, and Marcia (Mimi) Canto, MD, MHS, who initiated the Cancer of the Pancreas Screening project for high-risk individuals of pancreatic cancer.

I also had the distinction of being the first at Bumrungrad International Hospital to perform endoscopic drainage for pancreatic fluid collections in the setting of multi-organ failure. This endoscopic approach has been extensively validated in the medical literature as significantly improving survival rates compared to surgical drainage. My training in this specialized procedure was conducted under the guidance of the premier group for necrotizing pancreatitis, led by Martin Freeman, MD, at the University of Minnesota.

Later, I contributed to overseeing the Inherited Gastrointestinal Malignancy Clinic of MyCode, a large-scale population-based cohort program focused on cancer screening in Pennsylvania. By December 2024, MyCode had collected blood samples from over 258,000 individuals, analyzed DNA sequences from over 184,000, and provided clinical data that benefits over 142,000 patients. It’s not uncommon for healthy 25-year-old patients to come to our clinic for colon cancer screening after learning from the program that they carry a cancer syndrome, and early screening can potentially save their lives.

 

What are the key differences between training and practicing medicine in the United States and in an Asian country?

The U.S. healthcare system is deeply rooted in evidence-based protocols and multidisciplinary care, driven by an insurance-based model. In contrast, many Asian countries face challenges such as the dependency on government approval for certain treatments and insurance limitations. Practicing in Asia requires navigating unique cultural, economic, and systemic differences, including varying resource availability and disease prevalence.

What specific challenges have you faced as a GI in Thailand?

As an advanced endoscopist, one of the biggest challenges I faced initially was the difficulty in obtaining the same devices I used in the U.S. for use in Thailand. With support from device companies and mentors in the U.S., I was able to perform groundbreaking procedures, such as the TIF in Southeast Asia and the first use of a full-thickness resection device in Thailand. I am also proud to be part of one of the first few centers worldwide performing the combination of injectable semaglutide and endoscopic sleeve gastroplasty, resulting in a remarkable weight reduction of 44%, comparable to surgical gastric bypass.

In addition, Bumrungrad International Hospital, where I practice, sees over 1.1 million visits annually from patients from more than 190 countries. This offers a unique opportunity to engage with a global patient base and learn from diverse cultures. Over time, although the hospital has professional interpreters for all languages, I have become able to communicate basic sentences with international patients in their preferred languages, including Chinese, Japanese, and Arabic, which has enriched my practice.

 

What’s your favorite thing to do when you’re not practicing GI?

I enjoy traveling, exploring new cuisines, and spending quality time with family and friends. These activities help me recharge and offer fresh perspectives on life.

Lightning Round

Texting or talking?

Talking. It’s more personal and meaningful.



Favorite city in the U.S.?

Ann Arbor, Michigan 



Cat or dog person?

Dog person 



Favorite junk food?

Pizza 



How many cups of coffee do you drink per day?

Two – just enough to stay sharp, but not jittery.



If you weren’t a GI, what would you be?

Architect 



Best place you went on vacation?

Kyoto, Japan 



Favorite sport?

Skiing 



Favorite ice cream?

Matcha green tea 



What song do you have to sing along with when you hear it?

“Everybody” by Backstreet Boys 



Favorite movie or TV show?

Forrest Gump and Friends 



Optimist or pessimist?

Optimist. I believe in focusing on solutions and possibilities.

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GLP-1 Receptor Agonist Use in Gastrointestinal Endoscopy: A Review of Current Evidence and Guidelines

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Changed
Mon, 08/11/2025 - 11:51

The use of glucagon-like peptide-1 receptor agonists (GLP-1 RAs) has increased over the past several years and has become a cornerstone in both diabetes and weight loss management, particularly because of its unique combination of glucose control, weight reduction potential, and cardiac and metabolic benefits. However, increased use of these agents presents a dilemma in gastrointestinal endoscopy as it pertains to their safety and management during the periprocedural period.

This review explores management of GLP-1 RAs in the periprocedural setting for endoscopic procedures based on current evidence and guidelines, highlighting gaps and future directions.

 

Pharmacology and Mechanisms of Action

GLP-1 RAs have several mechanisms of action that make them relevant in gastrointestinal endoscopy. These medications modulate glucose control via enhancement of glucose-dependent insulin secretion and reduction of postprandial glucagon, which promotes satiety and delays gastric emptying. This delay in gastric emptying mediated by vagal pathways has been postulated to increase gastric residuals, posing a risk for aspiration during anesthesia.1

It is important to also consider the pharmacokinetics of GLP-1 RAs, as some have shorter half-lives on the order of several hours, like exenatide, while others, like semaglutide, are dosed weekly. Additionally, common side effects of GLP-1 RAs include nausea, vomiting, bloating, and early satiety, which pose challenges for patients undergoing endoscopic procedures. 

 

Current Guidelines

Various societies have published guidelines on the periprocedural use of GLP-1 RAs. The American Society of Anesthesiologist (ASA) in 2023 presented early recommendations to hold GLP-1 RAs either day of procedure or week prior depending on pharmacokinetics, because of the risk of delayed gastric emptying and increased potential for aspiration.2 Soon thereafter, a multi-gastroenterology society guideline was released stating more data is needed to decide if GLP-1 RAs need to be held prior to endoscopic procedures.3

Dr. Sitharthan Sekar

In early 2024, the American Gastroenterological Association (AGA) published a rapid clinical update that advocated for a more individualized approach, particularly in light of limited overall data for GLP-1 RAs and endoscopic procedures.4 In asymptomatic patients who follow typical fasting protocols for procedures, it is generally safe to proceed with endoscopy without holding GLP-1 RAs. In symptomatic patients (nausea, abdominal distension, etc), the AGA advises additional precautions, including performing transabdominal ultrasound if feasible to assess retained gastric contents. The AGA also suggests placing a patient on a clear liquid diet the day prior to the procedure — rather than holding GLP-1 RAs — as another reasonable strategy.

The guidelines continue to evolve with newer multi-society guidelines establishing best practices. While initially in 2023 the ASA did recommend holding these medications prior to endoscopy, the initial guidance was based on expert opinion with limited evidence. Newer multi-society guidance published jointly by the ASA along with various gastroenterology societies, including the AGA in December 2024, takes a more nuanced approach.5

The newer guidelines include two main recommendations:

1. Periprocedural management of GLP-1 RAs should be a joint decision among the procedural, anesthesia, and prescribing team balancing metabolic needs vs patient risks.

  • In a low-risk patient, one that is asymptomatic and on standard dosing, among other factors, the guidance states that GLP-1 RAs can be continued.
  • In higher-risk patients, the original guidance of holding a day or a week prior to endoscopic procedures should be followed.

2. Periprocedural management of GLP-1 RAs should attempt to minimize the aspiration risks loosely associated with delayed gastric emptying.

  • Consider a 24-hour clear liquid diet a day prior to the procedure and transabdominal ultrasound to check gastric contents.
  • It is acknowledged that this guidance is based on limited evidence and will be evolving as new medications and data are released.

Recent Clinical Studies

Although there is very little data to guide clinicians, several recent studies have been published that can direct clinical decision-making as guidelines continue to be refined and updated.

Dr. Nikiya Asamoah

A multicenter trial of approximately 800 patients undergoing upper endoscopy found a significant difference in rates of retained gastric contents between those that underwent endoscopy who did and did not follow the ASA guidance on periprocedural management of GLP-1 RAs (12.7% vs 4.4%; P < .0001). However, there were no significant differences in rates of aborted procedures or unplanned intubations.

Furthermore, a multivariable analysis was performed controlling for GLP-1 RA type and other factors, which found the likelihood of gastric retention increased by 36% for every 1% increase in hemoglobin A1c. This study suggests that a more individualized approach to holding GLP-1 RA would be applicable rather than a universal periprocedural hold.6

More recently, a single-center study of nearly 600 patients undergoing upper endoscopy showed that while there were slightly increased rates of retained gastric contents (OR 3.80; P = .003) and aborted procedures (1.3% vs 0%; P = .02), the rates of adverse anesthesia events (hypoxia, etc) were similar between the groups and no cases of pulmonary aspiration were noted.7

One single-center study of 57 patients evaluated the safety of GLP-1 RAs in those undergoing endoscopic sleeve gastrectomy. GLP-1 RAs were continued on all patients, but all adhered to a liquid only diet for at least 24 hours prior to the procedure. There were no instances of retained gastric solids, aspiration, or hypoxia. This study suggests that with a 24-hour clear liquid diet and routine NPO recommendations prior to endoscopy, it would be safe to continue GLP-1 RAs. This study provides rationale for the AGA recommendation for a clear liquid diet 24 hours prior to endoscopic procedures for those on GLP-1 RAs.8

A study looking at those who underwent emergency surgery and endoscopy with claims data of use of GLP-1 RAs found an overall incidence of postoperative respiratory complications of 3.5% for those with GLP-1 RAs fill history vs 4.0% for those without (P = .12). Approximately 800 of the 24,000 patients identified had undergone endoscopic procedures for GI bleeding or food impaction. The study overall showed that preoperative use of GLP-1 RAs in patients undergoing surgery or endoscopy, evaluated as a combined group, was not associated with an increased risk of pulmonary complications.9

Lastly, a systematic review and meta-analysis that included 15 studies that quantified gastric emptying using various methods, including gastric emptying scintigraphy and acetaminophen absorption test, found that there was a quantifiable delay in gastric emptying of about 36 minutes, compared to placebo (P < .01), in patients using GLP-1 RAs. However, compared to standard periprocedural fasting, this delay is clinically insignificant and standard fasting protocols would still be appropriate for patients on GLP-1 RAs.10

These studies taken together suggest that while GLP-1 RAs can mildly increase the likelihood of retained gastric contents, there is no statistically significant increase in the risk of aspiration or other anesthesia complications. Furthermore, while decreased gastric emptying is a known effect of GLP-1 RAs, this effect may not be clinically significant in the context of standard periprocedural fasting protocols particularly when combined with a 24-hour clear liquid diet. These findings support at a minimum a more patient-specific strategy for periprocedural management of GLP-1 RAs.

 

Clinical Implications

These most recent studies, as well as prior studies and guidelines by various societies lead to a dilemma among endoscopists on proper patient counseling on GLP-1 RAs use before endoscopic procedures. Clinicians must balance the metabolic benefits of GLP-1 RAs with potential endoscopic complications and risks.

Holding therapy theoretically decreases aspiration risk and pulmonary complications, though evidence remains low to support this. Holding medication, however, affects glycemic control leading to potential rebound hyperglycemia which may impact and delay plans for endoscopy. With growing indications for the use of GLP-1 RAs, a more tailored patient-centered treatment plan may be required, especially with consideration of procedure indication and comorbidities.

Currently, practice patterns at different institutions vary widely, making standardization much more difficult. Some centers have opted to follow ASA guidelines of holding these medications up to 1 week prior to procedures, while others have continued therapy with no pre-procedural adjustments. This leaves endoscopists to deal with the downstream effects of inconvenience to patients, care delays, and financial considerations if procedures are postponed related to GLP-1 RAs use.

 

Future Directions

Future studies are needed to make further evidence-based recommendations. Studies should focus on stratifying risks and recommendations based on procedure type (EGD, colonoscopy, etc). More widespread implementation of gastric ultrasound can assist in real-time decision-making, albeit this would require expertise and dedicated time within the pre-procedural workflow. Randomized controlled trials comparing outcomes of patients who continue GLP-1 RAs vs those who discontinue stratified by baseline risk will be instrumental for making concrete guidelines that provide clarity on periprocedural management of GLP-1 RAs.

 

Conclusion

The periprocedural management of GLP-1 RAs remains a controversial topic that presents unique challenges in endoscopy. Several guidelines have been released by various stakeholders including anesthesiologists, gastroenterologists, and other prescribing providers. Clinical data remains limited with no robust evidence available to suggest that gastric emptying delays caused by GLP-1 RAs prior to endoscopic procedures significantly increases risk of aspiration, pulmonary complications, or other comorbidities. Evolving multi-society guidelines will be important to establish more consistent practices with reassessment of the data as new studies emerge. A multidisciplinary, individualized patient approach may be the best strategy for managing GLP-1 RAs for patients undergoing endoscopic procedures.

Dr. Sekar and Dr. Asamoah are based in the department of gastroenterology at MedStar Georgetown University Hospital, Washington, D.C. Dr. Sekar reports no conflicts of interest in regard to this article. Dr. Asamoah serves on the Johnson & Johnson advisory board for inflammatory bowel disease–related therapies.

References

1. Halim MA et al. Glucagon-Like Peptide-1 Inhibits Prandial Gastrointestinal Motility Through Myenteric Neuronal Mechanisms in Humans. J Clin Endocrinol Metab. 2018 Feb. doi: 10.1210/jc.2017-02006.

2. American Society of Anesthesiologists. American Society of Anesthesiologists releases consensus-based guidance on preoperative use of GLP-1 receptor agonists. 2023 Jun 20. www.asahq.org/about-asa/newsroom/news-releases/2023/06/american-society-of-anesthesiologists-consensus-based-guidance-on-preoperative

3. American Gastroenterological Association. GI multi-society statement regarding GLP-1 agonists and endoscopy. 2023 Jul 25. gastro.org/news/gi-multi-society-statement-regarding-glp-1-agonists-and-endoscopy/.

4. Hashash JG et al. AGA Rapid Clinical Practice Update on the Management of Patients Taking GLP-1 Receptor Agonists Prior to Endoscopy: Communication. Clin Gastroenterol Hepatol. 2024 Apr. doi: 10.1016/j.cgh.2023.11.002.

5. Kindel TL et al; American Gastroenterological Association; American Society for Metabolic and Bariatric Surgery; American Society of Anesthesiologists; International Society of Perioperative Care of Patients with Obesity; Society of American Gastrointestinal and Endoscopic Surgeons. Multi-society Clinical Practice Guidance for the Safe Use of Glucagon-like Peptide-1 Receptor Agonists in the Perioperative Period. Clin Gastroenterol Hepatol. 2024 Oct. doi: 10.1016/j.cgh.2024.10.003.

6. Phan J et al. Glucagon-Like Peptide Receptor Agonists Use Before Endoscopy Is Associated With Low Retained Gastric Contents: A Multicenter Cross-Sectional Analysis. Am J Gastroenterol. 2025 Mar. doi: 10.14309/ajg.0000000000002969.

7. Panchal S et al. Endoscopy and Anesthesia Outcomes Associated With Glucagon-like Peptide-1 Receptor Agonist use in Patients Undergoing Outpatient Upper Endoscopy. Gastrointest Endosc. 2025 Aug. doi:10.1016/j.gie.2025.01.004.

8. Maselli DB et al. Safe Continuation of glucagon-like Peptide 1 Receptor Agonists at Endoscopy: A Case Series of 57 Adults Undergoing Endoscopic Sleeve Gastroplasty. Obes Surg. 2024 Jul. doi: 10.1007/s11695-024-07278-2.

9. Dixit AA et al. Preoperative GLP-1 Receptor Agonist Use and Risk of Postoperative Respiratory Complications. JAMA. 2024 Apr. doi: 10.1001/jama.2024.5003.

10. Hiramoto B et al. Quantified Metrics of Gastric Emptying Delay by Glucagon-Like Peptide-1 Agonists: A systematic review and meta-analysis with insights for periprocedural management. Am J Gastroenterol. 2024 Jun. doi: 10.14309/ajg.0000000000002820.

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The use of glucagon-like peptide-1 receptor agonists (GLP-1 RAs) has increased over the past several years and has become a cornerstone in both diabetes and weight loss management, particularly because of its unique combination of glucose control, weight reduction potential, and cardiac and metabolic benefits. However, increased use of these agents presents a dilemma in gastrointestinal endoscopy as it pertains to their safety and management during the periprocedural period.

This review explores management of GLP-1 RAs in the periprocedural setting for endoscopic procedures based on current evidence and guidelines, highlighting gaps and future directions.

 

Pharmacology and Mechanisms of Action

GLP-1 RAs have several mechanisms of action that make them relevant in gastrointestinal endoscopy. These medications modulate glucose control via enhancement of glucose-dependent insulin secretion and reduction of postprandial glucagon, which promotes satiety and delays gastric emptying. This delay in gastric emptying mediated by vagal pathways has been postulated to increase gastric residuals, posing a risk for aspiration during anesthesia.1

It is important to also consider the pharmacokinetics of GLP-1 RAs, as some have shorter half-lives on the order of several hours, like exenatide, while others, like semaglutide, are dosed weekly. Additionally, common side effects of GLP-1 RAs include nausea, vomiting, bloating, and early satiety, which pose challenges for patients undergoing endoscopic procedures. 

 

Current Guidelines

Various societies have published guidelines on the periprocedural use of GLP-1 RAs. The American Society of Anesthesiologist (ASA) in 2023 presented early recommendations to hold GLP-1 RAs either day of procedure or week prior depending on pharmacokinetics, because of the risk of delayed gastric emptying and increased potential for aspiration.2 Soon thereafter, a multi-gastroenterology society guideline was released stating more data is needed to decide if GLP-1 RAs need to be held prior to endoscopic procedures.3

Dr. Sitharthan Sekar

In early 2024, the American Gastroenterological Association (AGA) published a rapid clinical update that advocated for a more individualized approach, particularly in light of limited overall data for GLP-1 RAs and endoscopic procedures.4 In asymptomatic patients who follow typical fasting protocols for procedures, it is generally safe to proceed with endoscopy without holding GLP-1 RAs. In symptomatic patients (nausea, abdominal distension, etc), the AGA advises additional precautions, including performing transabdominal ultrasound if feasible to assess retained gastric contents. The AGA also suggests placing a patient on a clear liquid diet the day prior to the procedure — rather than holding GLP-1 RAs — as another reasonable strategy.

The guidelines continue to evolve with newer multi-society guidelines establishing best practices. While initially in 2023 the ASA did recommend holding these medications prior to endoscopy, the initial guidance was based on expert opinion with limited evidence. Newer multi-society guidance published jointly by the ASA along with various gastroenterology societies, including the AGA in December 2024, takes a more nuanced approach.5

The newer guidelines include two main recommendations:

1. Periprocedural management of GLP-1 RAs should be a joint decision among the procedural, anesthesia, and prescribing team balancing metabolic needs vs patient risks.

  • In a low-risk patient, one that is asymptomatic and on standard dosing, among other factors, the guidance states that GLP-1 RAs can be continued.
  • In higher-risk patients, the original guidance of holding a day or a week prior to endoscopic procedures should be followed.

2. Periprocedural management of GLP-1 RAs should attempt to minimize the aspiration risks loosely associated with delayed gastric emptying.

  • Consider a 24-hour clear liquid diet a day prior to the procedure and transabdominal ultrasound to check gastric contents.
  • It is acknowledged that this guidance is based on limited evidence and will be evolving as new medications and data are released.

Recent Clinical Studies

Although there is very little data to guide clinicians, several recent studies have been published that can direct clinical decision-making as guidelines continue to be refined and updated.

Dr. Nikiya Asamoah

A multicenter trial of approximately 800 patients undergoing upper endoscopy found a significant difference in rates of retained gastric contents between those that underwent endoscopy who did and did not follow the ASA guidance on periprocedural management of GLP-1 RAs (12.7% vs 4.4%; P < .0001). However, there were no significant differences in rates of aborted procedures or unplanned intubations.

Furthermore, a multivariable analysis was performed controlling for GLP-1 RA type and other factors, which found the likelihood of gastric retention increased by 36% for every 1% increase in hemoglobin A1c. This study suggests that a more individualized approach to holding GLP-1 RA would be applicable rather than a universal periprocedural hold.6

More recently, a single-center study of nearly 600 patients undergoing upper endoscopy showed that while there were slightly increased rates of retained gastric contents (OR 3.80; P = .003) and aborted procedures (1.3% vs 0%; P = .02), the rates of adverse anesthesia events (hypoxia, etc) were similar between the groups and no cases of pulmonary aspiration were noted.7

One single-center study of 57 patients evaluated the safety of GLP-1 RAs in those undergoing endoscopic sleeve gastrectomy. GLP-1 RAs were continued on all patients, but all adhered to a liquid only diet for at least 24 hours prior to the procedure. There were no instances of retained gastric solids, aspiration, or hypoxia. This study suggests that with a 24-hour clear liquid diet and routine NPO recommendations prior to endoscopy, it would be safe to continue GLP-1 RAs. This study provides rationale for the AGA recommendation for a clear liquid diet 24 hours prior to endoscopic procedures for those on GLP-1 RAs.8

A study looking at those who underwent emergency surgery and endoscopy with claims data of use of GLP-1 RAs found an overall incidence of postoperative respiratory complications of 3.5% for those with GLP-1 RAs fill history vs 4.0% for those without (P = .12). Approximately 800 of the 24,000 patients identified had undergone endoscopic procedures for GI bleeding or food impaction. The study overall showed that preoperative use of GLP-1 RAs in patients undergoing surgery or endoscopy, evaluated as a combined group, was not associated with an increased risk of pulmonary complications.9

Lastly, a systematic review and meta-analysis that included 15 studies that quantified gastric emptying using various methods, including gastric emptying scintigraphy and acetaminophen absorption test, found that there was a quantifiable delay in gastric emptying of about 36 minutes, compared to placebo (P < .01), in patients using GLP-1 RAs. However, compared to standard periprocedural fasting, this delay is clinically insignificant and standard fasting protocols would still be appropriate for patients on GLP-1 RAs.10

These studies taken together suggest that while GLP-1 RAs can mildly increase the likelihood of retained gastric contents, there is no statistically significant increase in the risk of aspiration or other anesthesia complications. Furthermore, while decreased gastric emptying is a known effect of GLP-1 RAs, this effect may not be clinically significant in the context of standard periprocedural fasting protocols particularly when combined with a 24-hour clear liquid diet. These findings support at a minimum a more patient-specific strategy for periprocedural management of GLP-1 RAs.

 

Clinical Implications

These most recent studies, as well as prior studies and guidelines by various societies lead to a dilemma among endoscopists on proper patient counseling on GLP-1 RAs use before endoscopic procedures. Clinicians must balance the metabolic benefits of GLP-1 RAs with potential endoscopic complications and risks.

Holding therapy theoretically decreases aspiration risk and pulmonary complications, though evidence remains low to support this. Holding medication, however, affects glycemic control leading to potential rebound hyperglycemia which may impact and delay plans for endoscopy. With growing indications for the use of GLP-1 RAs, a more tailored patient-centered treatment plan may be required, especially with consideration of procedure indication and comorbidities.

Currently, practice patterns at different institutions vary widely, making standardization much more difficult. Some centers have opted to follow ASA guidelines of holding these medications up to 1 week prior to procedures, while others have continued therapy with no pre-procedural adjustments. This leaves endoscopists to deal with the downstream effects of inconvenience to patients, care delays, and financial considerations if procedures are postponed related to GLP-1 RAs use.

 

Future Directions

Future studies are needed to make further evidence-based recommendations. Studies should focus on stratifying risks and recommendations based on procedure type (EGD, colonoscopy, etc). More widespread implementation of gastric ultrasound can assist in real-time decision-making, albeit this would require expertise and dedicated time within the pre-procedural workflow. Randomized controlled trials comparing outcomes of patients who continue GLP-1 RAs vs those who discontinue stratified by baseline risk will be instrumental for making concrete guidelines that provide clarity on periprocedural management of GLP-1 RAs.

 

Conclusion

The periprocedural management of GLP-1 RAs remains a controversial topic that presents unique challenges in endoscopy. Several guidelines have been released by various stakeholders including anesthesiologists, gastroenterologists, and other prescribing providers. Clinical data remains limited with no robust evidence available to suggest that gastric emptying delays caused by GLP-1 RAs prior to endoscopic procedures significantly increases risk of aspiration, pulmonary complications, or other comorbidities. Evolving multi-society guidelines will be important to establish more consistent practices with reassessment of the data as new studies emerge. A multidisciplinary, individualized patient approach may be the best strategy for managing GLP-1 RAs for patients undergoing endoscopic procedures.

Dr. Sekar and Dr. Asamoah are based in the department of gastroenterology at MedStar Georgetown University Hospital, Washington, D.C. Dr. Sekar reports no conflicts of interest in regard to this article. Dr. Asamoah serves on the Johnson & Johnson advisory board for inflammatory bowel disease–related therapies.

References

1. Halim MA et al. Glucagon-Like Peptide-1 Inhibits Prandial Gastrointestinal Motility Through Myenteric Neuronal Mechanisms in Humans. J Clin Endocrinol Metab. 2018 Feb. doi: 10.1210/jc.2017-02006.

2. American Society of Anesthesiologists. American Society of Anesthesiologists releases consensus-based guidance on preoperative use of GLP-1 receptor agonists. 2023 Jun 20. www.asahq.org/about-asa/newsroom/news-releases/2023/06/american-society-of-anesthesiologists-consensus-based-guidance-on-preoperative

3. American Gastroenterological Association. GI multi-society statement regarding GLP-1 agonists and endoscopy. 2023 Jul 25. gastro.org/news/gi-multi-society-statement-regarding-glp-1-agonists-and-endoscopy/.

4. Hashash JG et al. AGA Rapid Clinical Practice Update on the Management of Patients Taking GLP-1 Receptor Agonists Prior to Endoscopy: Communication. Clin Gastroenterol Hepatol. 2024 Apr. doi: 10.1016/j.cgh.2023.11.002.

5. Kindel TL et al; American Gastroenterological Association; American Society for Metabolic and Bariatric Surgery; American Society of Anesthesiologists; International Society of Perioperative Care of Patients with Obesity; Society of American Gastrointestinal and Endoscopic Surgeons. Multi-society Clinical Practice Guidance for the Safe Use of Glucagon-like Peptide-1 Receptor Agonists in the Perioperative Period. Clin Gastroenterol Hepatol. 2024 Oct. doi: 10.1016/j.cgh.2024.10.003.

6. Phan J et al. Glucagon-Like Peptide Receptor Agonists Use Before Endoscopy Is Associated With Low Retained Gastric Contents: A Multicenter Cross-Sectional Analysis. Am J Gastroenterol. 2025 Mar. doi: 10.14309/ajg.0000000000002969.

7. Panchal S et al. Endoscopy and Anesthesia Outcomes Associated With Glucagon-like Peptide-1 Receptor Agonist use in Patients Undergoing Outpatient Upper Endoscopy. Gastrointest Endosc. 2025 Aug. doi:10.1016/j.gie.2025.01.004.

8. Maselli DB et al. Safe Continuation of glucagon-like Peptide 1 Receptor Agonists at Endoscopy: A Case Series of 57 Adults Undergoing Endoscopic Sleeve Gastroplasty. Obes Surg. 2024 Jul. doi: 10.1007/s11695-024-07278-2.

9. Dixit AA et al. Preoperative GLP-1 Receptor Agonist Use and Risk of Postoperative Respiratory Complications. JAMA. 2024 Apr. doi: 10.1001/jama.2024.5003.

10. Hiramoto B et al. Quantified Metrics of Gastric Emptying Delay by Glucagon-Like Peptide-1 Agonists: A systematic review and meta-analysis with insights for periprocedural management. Am J Gastroenterol. 2024 Jun. doi: 10.14309/ajg.0000000000002820.

The use of glucagon-like peptide-1 receptor agonists (GLP-1 RAs) has increased over the past several years and has become a cornerstone in both diabetes and weight loss management, particularly because of its unique combination of glucose control, weight reduction potential, and cardiac and metabolic benefits. However, increased use of these agents presents a dilemma in gastrointestinal endoscopy as it pertains to their safety and management during the periprocedural period.

This review explores management of GLP-1 RAs in the periprocedural setting for endoscopic procedures based on current evidence and guidelines, highlighting gaps and future directions.

 

Pharmacology and Mechanisms of Action

GLP-1 RAs have several mechanisms of action that make them relevant in gastrointestinal endoscopy. These medications modulate glucose control via enhancement of glucose-dependent insulin secretion and reduction of postprandial glucagon, which promotes satiety and delays gastric emptying. This delay in gastric emptying mediated by vagal pathways has been postulated to increase gastric residuals, posing a risk for aspiration during anesthesia.1

It is important to also consider the pharmacokinetics of GLP-1 RAs, as some have shorter half-lives on the order of several hours, like exenatide, while others, like semaglutide, are dosed weekly. Additionally, common side effects of GLP-1 RAs include nausea, vomiting, bloating, and early satiety, which pose challenges for patients undergoing endoscopic procedures. 

 

Current Guidelines

Various societies have published guidelines on the periprocedural use of GLP-1 RAs. The American Society of Anesthesiologist (ASA) in 2023 presented early recommendations to hold GLP-1 RAs either day of procedure or week prior depending on pharmacokinetics, because of the risk of delayed gastric emptying and increased potential for aspiration.2 Soon thereafter, a multi-gastroenterology society guideline was released stating more data is needed to decide if GLP-1 RAs need to be held prior to endoscopic procedures.3

Dr. Sitharthan Sekar

In early 2024, the American Gastroenterological Association (AGA) published a rapid clinical update that advocated for a more individualized approach, particularly in light of limited overall data for GLP-1 RAs and endoscopic procedures.4 In asymptomatic patients who follow typical fasting protocols for procedures, it is generally safe to proceed with endoscopy without holding GLP-1 RAs. In symptomatic patients (nausea, abdominal distension, etc), the AGA advises additional precautions, including performing transabdominal ultrasound if feasible to assess retained gastric contents. The AGA also suggests placing a patient on a clear liquid diet the day prior to the procedure — rather than holding GLP-1 RAs — as another reasonable strategy.

The guidelines continue to evolve with newer multi-society guidelines establishing best practices. While initially in 2023 the ASA did recommend holding these medications prior to endoscopy, the initial guidance was based on expert opinion with limited evidence. Newer multi-society guidance published jointly by the ASA along with various gastroenterology societies, including the AGA in December 2024, takes a more nuanced approach.5

The newer guidelines include two main recommendations:

1. Periprocedural management of GLP-1 RAs should be a joint decision among the procedural, anesthesia, and prescribing team balancing metabolic needs vs patient risks.

  • In a low-risk patient, one that is asymptomatic and on standard dosing, among other factors, the guidance states that GLP-1 RAs can be continued.
  • In higher-risk patients, the original guidance of holding a day or a week prior to endoscopic procedures should be followed.

2. Periprocedural management of GLP-1 RAs should attempt to minimize the aspiration risks loosely associated with delayed gastric emptying.

  • Consider a 24-hour clear liquid diet a day prior to the procedure and transabdominal ultrasound to check gastric contents.
  • It is acknowledged that this guidance is based on limited evidence and will be evolving as new medications and data are released.

Recent Clinical Studies

Although there is very little data to guide clinicians, several recent studies have been published that can direct clinical decision-making as guidelines continue to be refined and updated.

Dr. Nikiya Asamoah

A multicenter trial of approximately 800 patients undergoing upper endoscopy found a significant difference in rates of retained gastric contents between those that underwent endoscopy who did and did not follow the ASA guidance on periprocedural management of GLP-1 RAs (12.7% vs 4.4%; P < .0001). However, there were no significant differences in rates of aborted procedures or unplanned intubations.

Furthermore, a multivariable analysis was performed controlling for GLP-1 RA type and other factors, which found the likelihood of gastric retention increased by 36% for every 1% increase in hemoglobin A1c. This study suggests that a more individualized approach to holding GLP-1 RA would be applicable rather than a universal periprocedural hold.6

More recently, a single-center study of nearly 600 patients undergoing upper endoscopy showed that while there were slightly increased rates of retained gastric contents (OR 3.80; P = .003) and aborted procedures (1.3% vs 0%; P = .02), the rates of adverse anesthesia events (hypoxia, etc) were similar between the groups and no cases of pulmonary aspiration were noted.7

One single-center study of 57 patients evaluated the safety of GLP-1 RAs in those undergoing endoscopic sleeve gastrectomy. GLP-1 RAs were continued on all patients, but all adhered to a liquid only diet for at least 24 hours prior to the procedure. There were no instances of retained gastric solids, aspiration, or hypoxia. This study suggests that with a 24-hour clear liquid diet and routine NPO recommendations prior to endoscopy, it would be safe to continue GLP-1 RAs. This study provides rationale for the AGA recommendation for a clear liquid diet 24 hours prior to endoscopic procedures for those on GLP-1 RAs.8

A study looking at those who underwent emergency surgery and endoscopy with claims data of use of GLP-1 RAs found an overall incidence of postoperative respiratory complications of 3.5% for those with GLP-1 RAs fill history vs 4.0% for those without (P = .12). Approximately 800 of the 24,000 patients identified had undergone endoscopic procedures for GI bleeding or food impaction. The study overall showed that preoperative use of GLP-1 RAs in patients undergoing surgery or endoscopy, evaluated as a combined group, was not associated with an increased risk of pulmonary complications.9

Lastly, a systematic review and meta-analysis that included 15 studies that quantified gastric emptying using various methods, including gastric emptying scintigraphy and acetaminophen absorption test, found that there was a quantifiable delay in gastric emptying of about 36 minutes, compared to placebo (P < .01), in patients using GLP-1 RAs. However, compared to standard periprocedural fasting, this delay is clinically insignificant and standard fasting protocols would still be appropriate for patients on GLP-1 RAs.10

These studies taken together suggest that while GLP-1 RAs can mildly increase the likelihood of retained gastric contents, there is no statistically significant increase in the risk of aspiration or other anesthesia complications. Furthermore, while decreased gastric emptying is a known effect of GLP-1 RAs, this effect may not be clinically significant in the context of standard periprocedural fasting protocols particularly when combined with a 24-hour clear liquid diet. These findings support at a minimum a more patient-specific strategy for periprocedural management of GLP-1 RAs.

 

Clinical Implications

These most recent studies, as well as prior studies and guidelines by various societies lead to a dilemma among endoscopists on proper patient counseling on GLP-1 RAs use before endoscopic procedures. Clinicians must balance the metabolic benefits of GLP-1 RAs with potential endoscopic complications and risks.

Holding therapy theoretically decreases aspiration risk and pulmonary complications, though evidence remains low to support this. Holding medication, however, affects glycemic control leading to potential rebound hyperglycemia which may impact and delay plans for endoscopy. With growing indications for the use of GLP-1 RAs, a more tailored patient-centered treatment plan may be required, especially with consideration of procedure indication and comorbidities.

Currently, practice patterns at different institutions vary widely, making standardization much more difficult. Some centers have opted to follow ASA guidelines of holding these medications up to 1 week prior to procedures, while others have continued therapy with no pre-procedural adjustments. This leaves endoscopists to deal with the downstream effects of inconvenience to patients, care delays, and financial considerations if procedures are postponed related to GLP-1 RAs use.

 

Future Directions

Future studies are needed to make further evidence-based recommendations. Studies should focus on stratifying risks and recommendations based on procedure type (EGD, colonoscopy, etc). More widespread implementation of gastric ultrasound can assist in real-time decision-making, albeit this would require expertise and dedicated time within the pre-procedural workflow. Randomized controlled trials comparing outcomes of patients who continue GLP-1 RAs vs those who discontinue stratified by baseline risk will be instrumental for making concrete guidelines that provide clarity on periprocedural management of GLP-1 RAs.

 

Conclusion

The periprocedural management of GLP-1 RAs remains a controversial topic that presents unique challenges in endoscopy. Several guidelines have been released by various stakeholders including anesthesiologists, gastroenterologists, and other prescribing providers. Clinical data remains limited with no robust evidence available to suggest that gastric emptying delays caused by GLP-1 RAs prior to endoscopic procedures significantly increases risk of aspiration, pulmonary complications, or other comorbidities. Evolving multi-society guidelines will be important to establish more consistent practices with reassessment of the data as new studies emerge. A multidisciplinary, individualized patient approach may be the best strategy for managing GLP-1 RAs for patients undergoing endoscopic procedures.

Dr. Sekar and Dr. Asamoah are based in the department of gastroenterology at MedStar Georgetown University Hospital, Washington, D.C. Dr. Sekar reports no conflicts of interest in regard to this article. Dr. Asamoah serves on the Johnson & Johnson advisory board for inflammatory bowel disease–related therapies.

References

1. Halim MA et al. Glucagon-Like Peptide-1 Inhibits Prandial Gastrointestinal Motility Through Myenteric Neuronal Mechanisms in Humans. J Clin Endocrinol Metab. 2018 Feb. doi: 10.1210/jc.2017-02006.

2. American Society of Anesthesiologists. American Society of Anesthesiologists releases consensus-based guidance on preoperative use of GLP-1 receptor agonists. 2023 Jun 20. www.asahq.org/about-asa/newsroom/news-releases/2023/06/american-society-of-anesthesiologists-consensus-based-guidance-on-preoperative

3. American Gastroenterological Association. GI multi-society statement regarding GLP-1 agonists and endoscopy. 2023 Jul 25. gastro.org/news/gi-multi-society-statement-regarding-glp-1-agonists-and-endoscopy/.

4. Hashash JG et al. AGA Rapid Clinical Practice Update on the Management of Patients Taking GLP-1 Receptor Agonists Prior to Endoscopy: Communication. Clin Gastroenterol Hepatol. 2024 Apr. doi: 10.1016/j.cgh.2023.11.002.

5. Kindel TL et al; American Gastroenterological Association; American Society for Metabolic and Bariatric Surgery; American Society of Anesthesiologists; International Society of Perioperative Care of Patients with Obesity; Society of American Gastrointestinal and Endoscopic Surgeons. Multi-society Clinical Practice Guidance for the Safe Use of Glucagon-like Peptide-1 Receptor Agonists in the Perioperative Period. Clin Gastroenterol Hepatol. 2024 Oct. doi: 10.1016/j.cgh.2024.10.003.

6. Phan J et al. Glucagon-Like Peptide Receptor Agonists Use Before Endoscopy Is Associated With Low Retained Gastric Contents: A Multicenter Cross-Sectional Analysis. Am J Gastroenterol. 2025 Mar. doi: 10.14309/ajg.0000000000002969.

7. Panchal S et al. Endoscopy and Anesthesia Outcomes Associated With Glucagon-like Peptide-1 Receptor Agonist use in Patients Undergoing Outpatient Upper Endoscopy. Gastrointest Endosc. 2025 Aug. doi:10.1016/j.gie.2025.01.004.

8. Maselli DB et al. Safe Continuation of glucagon-like Peptide 1 Receptor Agonists at Endoscopy: A Case Series of 57 Adults Undergoing Endoscopic Sleeve Gastroplasty. Obes Surg. 2024 Jul. doi: 10.1007/s11695-024-07278-2.

9. Dixit AA et al. Preoperative GLP-1 Receptor Agonist Use and Risk of Postoperative Respiratory Complications. JAMA. 2024 Apr. doi: 10.1001/jama.2024.5003.

10. Hiramoto B et al. Quantified Metrics of Gastric Emptying Delay by Glucagon-Like Peptide-1 Agonists: A systematic review and meta-analysis with insights for periprocedural management. Am J Gastroenterol. 2024 Jun. doi: 10.14309/ajg.0000000000002820.

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Mon, 08/11/2025 - 11:37

Sterile Water Bottles Deemed Unnecessary for Endoscopy

‘Back to Basics’ on Water
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Fri, 08/08/2025 - 15:31

Like diners saving on drinks, endoscopists can safely forgo sterile water in favor of tap, reducing both environmental and financial costs, according to a recent narrative review.

“No direct evidence supports the recommendation and widespread use of sterile water during gastrointestinal endosco-py procedures,” lead author Deepak Agrawal, MD, chief of gastroenterology & hepatology at the Dell Medical School, University Texas at Austin, and colleagues, wrote in Gastro Hep Advances. “Guidelines recommending sterile water during endoscopy are based on limited evidence and mostly expert opinions.”

Dr. Deepak Agrawal



After reviewing the literature back to 1975, Dr. Agrawal and colleagues considered the use of sterile water in endoscopy via three frameworks: medical evidence and guidelines, environmental and broader health effects, and financial costs.

Only 2 studies – both from the 1990s – directly compared sterile and tap water use in endoscopy. Neither showed an increased risk of infection from tap water. In fact, some cultures from allegedly sterile water bottles grew pathogenic bacteria, while no patient complications were reported in either study.

“The recommendations for sterile water contradict observations in other medical care scenarios, for example, for the irrigation of open wounds,” Dr. Agrawal and colleagues noted. “Similarly, there is no benefit in using sterile water for enteral feeds in immunosuppressed patients, and tap water enemas are routinely acceptable for colon cleansing before sigmoidoscopies in all patients, irrespective of immune status.”

Current guidelines, including the 2021 US multisociety guideline on reprocessing flexible GI endoscopes and accessories, recommend sterile water for procedures involving mucosal penetration but acknowledge low-quality supporting evidence. These recommendations are based on outdated studies, some unrelated to GI endoscopy, Dr. Agrawal and colleagues pointed out, and rely heavily on cross-referenced opinion statements rather than clinical data.

They went on to suggest a concerning possibility: all those plastic bottles may actually cause more health problems than prevent them. The review estimates that the production and transportation of sterile water bottles contributes over 6,000 metric tons of emissions per year from US endoscopy units alone. What’s more, as discarded bottles break down, they release greenhouse gases and microplastics, the latter of which have been linked to cardiovascular disease, inflammatory bowel disease, and endocrine disruption.

Dr. Agrawal and colleagues also underscored the financial toxicity of sterile water bottles. Considering a 1-liter bottle of sterile water costs $3-10, an endoscopy unit performing 30 procedures per day spends approximately $1,000-3,000 per month on bottled water alone. Scaled nationally, the routine use of sterile water costs tens of millions of dollars each year, not counting indirect expenses associated with stocking and waste disposal.

Considering the dubious clinical upside against the apparent environmental and financial downsides, Dr. Agrawal and colleagues urged endoscopy units to rethink routine sterile water use. 

They proposed a pragmatic model: start the day with a new sterile or reusable bottle, refill with tap water for subsequent cases, and recycle the bottle at day’s end. Institutions should ensure their tap water meets safety standards, they added, such as those outlined in the Joint Commission’s 2022 R3 Report on standards for water management.

Dr. Agrawal and colleagues also called on GI societies to revise existing guidance to reflect today’s clinical and environmental realities. Until strong evidence supports the need for sterile water, they wrote, the smarter, safer, and more sustainable option may be simply turning on the tap.

The investigators disclosed relationships with Guardant, Exact Sciences, Freenome, and others.
 

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In an editorial accompanying the study and comments to GI & Hepatology News, Dr. Seth A. Gross of NYU Langone Health urged gastroenterologists to reconsider the use of sterile water in endoscopy.

Dr. Seth A. Gross

While the rationale for bottled water has centered on infection prevention, Gross argued that the evidence does not hold up, noting that this practice contradicts modern values around sustainability and evidence-based care.



The two relevant clinical studies comparing sterile versus tap water in endoscopy are almost 30 years old, he said, and neither detected an increased risk of infection with tap water, leading both to conclude that tap water is “safe and practical” for routine endoscopy.



Gross also pointed out the inconsistency of sterile water use in medical practice, noting that tap water is acceptable in procedures with higher infection risk than endoscopy.



“Lastly,” he added, “most people drink tap water and not sterile water on a daily basis without outbreaks of gastroenteritis from bacterial infections.”



Gross’s comments went beyond the data to emphasize the obvious but overlooked environmental impacts of sterile water bottles. He suggested several challenging suggestions to make medicine more ecofriendly, like reducing travel to conferences, increasing the availability of telehealth, and choosing reusable devices over disposables.



But “what’s hiding in plain sight,” he said, “is our use of sterile water.”



While acknowledging that some patients, like those who are immunocompromised, might still warrant sterile water, Gross supported the review’s recommendation to use tap water instead. He called on GI societies and regulatory bodies to re-examine current policy and pursue updated guidance.



“Sometimes going back to the basics,” he concluded, “could be the most innovative strategy with tremendous impact.”



 

Seth A. Gross, MD, AGAF, is clinical chief in the Division of Gastroenterology & Hepatology at NYU Langone Health, and professor at the NYU Grossman School of Medicine, both in New York City. He reported no conflicts of interest.

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In an editorial accompanying the study and comments to GI & Hepatology News, Dr. Seth A. Gross of NYU Langone Health urged gastroenterologists to reconsider the use of sterile water in endoscopy.

Dr. Seth A. Gross

While the rationale for bottled water has centered on infection prevention, Gross argued that the evidence does not hold up, noting that this practice contradicts modern values around sustainability and evidence-based care.



The two relevant clinical studies comparing sterile versus tap water in endoscopy are almost 30 years old, he said, and neither detected an increased risk of infection with tap water, leading both to conclude that tap water is “safe and practical” for routine endoscopy.



Gross also pointed out the inconsistency of sterile water use in medical practice, noting that tap water is acceptable in procedures with higher infection risk than endoscopy.



“Lastly,” he added, “most people drink tap water and not sterile water on a daily basis without outbreaks of gastroenteritis from bacterial infections.”



Gross’s comments went beyond the data to emphasize the obvious but overlooked environmental impacts of sterile water bottles. He suggested several challenging suggestions to make medicine more ecofriendly, like reducing travel to conferences, increasing the availability of telehealth, and choosing reusable devices over disposables.



But “what’s hiding in plain sight,” he said, “is our use of sterile water.”



While acknowledging that some patients, like those who are immunocompromised, might still warrant sterile water, Gross supported the review’s recommendation to use tap water instead. He called on GI societies and regulatory bodies to re-examine current policy and pursue updated guidance.



“Sometimes going back to the basics,” he concluded, “could be the most innovative strategy with tremendous impact.”



 

Seth A. Gross, MD, AGAF, is clinical chief in the Division of Gastroenterology & Hepatology at NYU Langone Health, and professor at the NYU Grossman School of Medicine, both in New York City. He reported no conflicts of interest.

Body

In an editorial accompanying the study and comments to GI & Hepatology News, Dr. Seth A. Gross of NYU Langone Health urged gastroenterologists to reconsider the use of sterile water in endoscopy.

Dr. Seth A. Gross

While the rationale for bottled water has centered on infection prevention, Gross argued that the evidence does not hold up, noting that this practice contradicts modern values around sustainability and evidence-based care.



The two relevant clinical studies comparing sterile versus tap water in endoscopy are almost 30 years old, he said, and neither detected an increased risk of infection with tap water, leading both to conclude that tap water is “safe and practical” for routine endoscopy.



Gross also pointed out the inconsistency of sterile water use in medical practice, noting that tap water is acceptable in procedures with higher infection risk than endoscopy.



“Lastly,” he added, “most people drink tap water and not sterile water on a daily basis without outbreaks of gastroenteritis from bacterial infections.”



Gross’s comments went beyond the data to emphasize the obvious but overlooked environmental impacts of sterile water bottles. He suggested several challenging suggestions to make medicine more ecofriendly, like reducing travel to conferences, increasing the availability of telehealth, and choosing reusable devices over disposables.



But “what’s hiding in plain sight,” he said, “is our use of sterile water.”



While acknowledging that some patients, like those who are immunocompromised, might still warrant sterile water, Gross supported the review’s recommendation to use tap water instead. He called on GI societies and regulatory bodies to re-examine current policy and pursue updated guidance.



“Sometimes going back to the basics,” he concluded, “could be the most innovative strategy with tremendous impact.”



 

Seth A. Gross, MD, AGAF, is clinical chief in the Division of Gastroenterology & Hepatology at NYU Langone Health, and professor at the NYU Grossman School of Medicine, both in New York City. He reported no conflicts of interest.

Title
‘Back to Basics’ on Water
‘Back to Basics’ on Water

Like diners saving on drinks, endoscopists can safely forgo sterile water in favor of tap, reducing both environmental and financial costs, according to a recent narrative review.

“No direct evidence supports the recommendation and widespread use of sterile water during gastrointestinal endosco-py procedures,” lead author Deepak Agrawal, MD, chief of gastroenterology & hepatology at the Dell Medical School, University Texas at Austin, and colleagues, wrote in Gastro Hep Advances. “Guidelines recommending sterile water during endoscopy are based on limited evidence and mostly expert opinions.”

Dr. Deepak Agrawal



After reviewing the literature back to 1975, Dr. Agrawal and colleagues considered the use of sterile water in endoscopy via three frameworks: medical evidence and guidelines, environmental and broader health effects, and financial costs.

Only 2 studies – both from the 1990s – directly compared sterile and tap water use in endoscopy. Neither showed an increased risk of infection from tap water. In fact, some cultures from allegedly sterile water bottles grew pathogenic bacteria, while no patient complications were reported in either study.

“The recommendations for sterile water contradict observations in other medical care scenarios, for example, for the irrigation of open wounds,” Dr. Agrawal and colleagues noted. “Similarly, there is no benefit in using sterile water for enteral feeds in immunosuppressed patients, and tap water enemas are routinely acceptable for colon cleansing before sigmoidoscopies in all patients, irrespective of immune status.”

Current guidelines, including the 2021 US multisociety guideline on reprocessing flexible GI endoscopes and accessories, recommend sterile water for procedures involving mucosal penetration but acknowledge low-quality supporting evidence. These recommendations are based on outdated studies, some unrelated to GI endoscopy, Dr. Agrawal and colleagues pointed out, and rely heavily on cross-referenced opinion statements rather than clinical data.

They went on to suggest a concerning possibility: all those plastic bottles may actually cause more health problems than prevent them. The review estimates that the production and transportation of sterile water bottles contributes over 6,000 metric tons of emissions per year from US endoscopy units alone. What’s more, as discarded bottles break down, they release greenhouse gases and microplastics, the latter of which have been linked to cardiovascular disease, inflammatory bowel disease, and endocrine disruption.

Dr. Agrawal and colleagues also underscored the financial toxicity of sterile water bottles. Considering a 1-liter bottle of sterile water costs $3-10, an endoscopy unit performing 30 procedures per day spends approximately $1,000-3,000 per month on bottled water alone. Scaled nationally, the routine use of sterile water costs tens of millions of dollars each year, not counting indirect expenses associated with stocking and waste disposal.

Considering the dubious clinical upside against the apparent environmental and financial downsides, Dr. Agrawal and colleagues urged endoscopy units to rethink routine sterile water use. 

They proposed a pragmatic model: start the day with a new sterile or reusable bottle, refill with tap water for subsequent cases, and recycle the bottle at day’s end. Institutions should ensure their tap water meets safety standards, they added, such as those outlined in the Joint Commission’s 2022 R3 Report on standards for water management.

Dr. Agrawal and colleagues also called on GI societies to revise existing guidance to reflect today’s clinical and environmental realities. Until strong evidence supports the need for sterile water, they wrote, the smarter, safer, and more sustainable option may be simply turning on the tap.

The investigators disclosed relationships with Guardant, Exact Sciences, Freenome, and others.
 

Like diners saving on drinks, endoscopists can safely forgo sterile water in favor of tap, reducing both environmental and financial costs, according to a recent narrative review.

“No direct evidence supports the recommendation and widespread use of sterile water during gastrointestinal endosco-py procedures,” lead author Deepak Agrawal, MD, chief of gastroenterology & hepatology at the Dell Medical School, University Texas at Austin, and colleagues, wrote in Gastro Hep Advances. “Guidelines recommending sterile water during endoscopy are based on limited evidence and mostly expert opinions.”

Dr. Deepak Agrawal



After reviewing the literature back to 1975, Dr. Agrawal and colleagues considered the use of sterile water in endoscopy via three frameworks: medical evidence and guidelines, environmental and broader health effects, and financial costs.

Only 2 studies – both from the 1990s – directly compared sterile and tap water use in endoscopy. Neither showed an increased risk of infection from tap water. In fact, some cultures from allegedly sterile water bottles grew pathogenic bacteria, while no patient complications were reported in either study.

“The recommendations for sterile water contradict observations in other medical care scenarios, for example, for the irrigation of open wounds,” Dr. Agrawal and colleagues noted. “Similarly, there is no benefit in using sterile water for enteral feeds in immunosuppressed patients, and tap water enemas are routinely acceptable for colon cleansing before sigmoidoscopies in all patients, irrespective of immune status.”

Current guidelines, including the 2021 US multisociety guideline on reprocessing flexible GI endoscopes and accessories, recommend sterile water for procedures involving mucosal penetration but acknowledge low-quality supporting evidence. These recommendations are based on outdated studies, some unrelated to GI endoscopy, Dr. Agrawal and colleagues pointed out, and rely heavily on cross-referenced opinion statements rather than clinical data.

They went on to suggest a concerning possibility: all those plastic bottles may actually cause more health problems than prevent them. The review estimates that the production and transportation of sterile water bottles contributes over 6,000 metric tons of emissions per year from US endoscopy units alone. What’s more, as discarded bottles break down, they release greenhouse gases and microplastics, the latter of which have been linked to cardiovascular disease, inflammatory bowel disease, and endocrine disruption.

Dr. Agrawal and colleagues also underscored the financial toxicity of sterile water bottles. Considering a 1-liter bottle of sterile water costs $3-10, an endoscopy unit performing 30 procedures per day spends approximately $1,000-3,000 per month on bottled water alone. Scaled nationally, the routine use of sterile water costs tens of millions of dollars each year, not counting indirect expenses associated with stocking and waste disposal.

Considering the dubious clinical upside against the apparent environmental and financial downsides, Dr. Agrawal and colleagues urged endoscopy units to rethink routine sterile water use. 

They proposed a pragmatic model: start the day with a new sterile or reusable bottle, refill with tap water for subsequent cases, and recycle the bottle at day’s end. Institutions should ensure their tap water meets safety standards, they added, such as those outlined in the Joint Commission’s 2022 R3 Report on standards for water management.

Dr. Agrawal and colleagues also called on GI societies to revise existing guidance to reflect today’s clinical and environmental realities. Until strong evidence supports the need for sterile water, they wrote, the smarter, safer, and more sustainable option may be simply turning on the tap.

The investigators disclosed relationships with Guardant, Exact Sciences, Freenome, and others.
 

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More Evidence Supports ‘Individualized Approach’ to Pre-Endoscopy GLP-1 RAs

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Low rates of retained gastric contents were seen in endoscopy patients on GLP-1 receptor agonists ( RAs), a retrospective multicenter cross-sectional analysis reported in The American Journal of Gastroenterology. Moreover, most instances occurred in patients using the drugs for type 2 diabetes (T2D) rather than for weight loss alone.

The findings suggest adopting an individualized approach rather than universal preoperative withholding of GLP-1 RAs before endoscopy, concluded Jennifer Phan, MD, medical director of the Hoag Advanced Endoscopy Center in Newport Beach, California, and colleagues. These agents are associated with slowed gastric emptying, possibly raising the risk for pulmonary aspiration. The study identified comorbid uncontrolled T2D as a risk factor for retained gastric contents.

Dr. Jennifer Phan



Recommendations from gastroenterological societies and the American Society of Anesthesiologists (ASA) differ regarding pre-endoscopic holding of these ubiquitous agents used for obesity and T2D. “Many patients undergo routine endoscopic procedures, and there was concern from the anesthesia safety perspective for retained gastric contents,” Phan told GI & Hepatology News. “At first these events were seen in a handful of cases; however, out of precaution this resulted in a statement from the ASA recommending that patients hold their GLP-1 medications for at least 1 week prior to a routine endoscopic procedure.”

That guidance resulted in protocol changes within endoscopy units, cancelled procedures, and potential delays in patient care. “We wanted to study whether this concern was clinically valid and to help identify which subgroup of patients are at highest risk in order to best inform anesthesia and endoscopy practices,” Phan added.

The ASA updated its guidance in 2023.

The current study aligns with other research showing that rates of clinically relevant retained gastric contents are < 10%, Phan said. For instance, the American Gastroenterological Association (AGA) published a rapid clinical practice update in November 2023 that found insufficient evidence to support patients stopping the medications before endoscopic procedures. AGA guidance suggests an individual approach for each patient on a GLP-1 RA rather than a blanket statement on how to manage all patients taking the medications.

“Our initial hypothesis was that the rates of clinically relevant retained gastric contents in patients on GLP-1 RA medications would be low,” Phan noted. “This was born out of anecdotal experience of the limited number of aborted procedures we experienced before the ASA statement.” 

Her group also hypothesized that the indication for which the GLP-1 RA was prescribed would be important, with patients taking GLP-1 RA medications for diabetes potentially having a higher likelihood of retained contents given the concomitant propensity for delayed gastric motility related to uncontrolled hyperglycemia.

 

The Study

The investigators identified 815 patients on confirmed GLP-1 RA medications of various types receiving endoscopy from 2021 to 2023 at four centers. Demographics, prescribing practices, and procedure outcomes were captured. GLP-1 RA management of preoperative holding was retroactively classified per ASA guidance.

Of the 815 patients (mean age, 67.7 years; 57.7% women; 53.9% White individuals), 70 (8.7%) exhibited retained gastric contents on endoscopy. Of these 65 (93%) had T2D with a median A1c of 6.5%. Among those with retained contents, most had a minimal (10, 14.3%) or moderate (31, 44.3%) amount of food retained, although 29 (41.4%) had a large quantity. Only one patient required unplanned intubation because of a large quantity of residual content, and none had aspiration events.

In multivariate analysis, the odds ratio of retention in those with diabetes was 4.1. “Given the predominance of diabetes in those with retained gastric contents, we highlight the potential to risk-stratify patients who require further preprocedural consideration,” the authors wrote.

Those with GLP-1 RA held per ASA guidance (406, 49.8%) were less likely to have retained contents (4.4% vs 12.7%; P < .001), but no significant differences for intubation (0% vs 2%; P = .53) or aborting procedure rates (28% vs 18%; P = .40) due to gastric retention were observed.

On multivariable analysis, the likelihood of food retention increased by 36% (95% CI, 1.15-1.60) for every 1% increase in glycosylated hemoglobin after adjusting for GLP-1 RA type and preoperative medication hold.

“Our study can help to differentiate which patients can be at largest risk for retained gastric contents,” Phan said, noting the impact of increasing percentages of A1C. “There’s a 36% increased likelihood of food retention in patients on GLP-1 medications, so a blanket policy to hold GLP-1s in patients who are nondiabetic and taking the medication for obesity may not be the best approach. But if patients have uncontrolled hyperglycemia, then an approach of caution is clinically valid.” In that context, holding the GLP-1 RA injection or lengthening the preoperative clear-liquid diet policy should be considered.

She noted that the study results are generalizable because the study was conducted across multiple types of hospital systems, both university and county, and included all types of GLP-1 RA.

Offering an anesthesiologist’s perspective on the study, Paul Potnuru, MD, an assistant professor in the Department of Anesthesiology, Critical Care, and Pain Medicine at UTHealth Houston and not involved in the study, called the findings “somewhat reassuring” but said the risk for aspiration was still a consideration.

recent review, however, reported that the risk for GLP-1 RA-associated pulmonary aspiration was low.

Potnuru acknowledged that the original ASA guidance on preoperative GLP-1 RA cessation led to some confusion. “There were not a lot of data on the issue, but some studies found that even with stopping GLP-1s 2 weeks preoperatively some patients still retained gastric content,” he told GI & Hepatology News.

A study at his center recently reported that 56% of GLP-1 RA users had increased pre-anesthesia residual gastric content compared with 19% of nonusers.

From the anesthesiologist’s clinical vantage point, the margin of safety is an issue even if aspiration risk is low. “If there’s a 1 in 1000 chance or even a 1 in 3000 chance, that can be considered too high,” Potnuru said.

He further noted that the current study included only 815 patients, not nearly enough for definitive data. In addition, a retrospective study based on medical records can’t really capture all the real-world procedural changes made in the operating room. “It’s common for anesthesiologists not to document all cases of intubation, for example,” he said.

While the ideal is a completely empty stomach, he agreed that a practical alternative to stopping GLP-1 RA therapy, especially that prescribed for diabetes, would be a 24-hour liquid diet, which would clear the stomach quickly. “If you stop these drugs in patients taking them for diabetes, you get a worsening of their glycemic control,” he said.

He noted that patients have different risk tolerances, with some willing to go ahead even if ultrasound shows gastric retention, while some opt to cancel.

Prospective studies are needed, Potnuru added, “because you find more if you know what you’re looking for.” His center is starting a clinical trial in 150 patients to assess the impact of a 24-hour, liquids-only diet on gastric retention.

According to Phan, other research is following GLP-1 RA users undergoing colonoscopy. “Future studies can look at the added value of point-of-care abdominal ultrasound to see if it increases precision preoperative management in these patients on GLP-1 medications.”

Other groups are examining the safety of these agents in the general context of sedation. “It’s worth noting that the studies are being done on currently available medications and may not apply to future medications such as triple agonists or anti-amylins that may come on the market in the near future,” Phan said.

This study received no financial support. Neither the study authors nor Potnuru had any conflicts of interest.

A version of this article appeared on Medscape.com.

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Low rates of retained gastric contents were seen in endoscopy patients on GLP-1 receptor agonists ( RAs), a retrospective multicenter cross-sectional analysis reported in The American Journal of Gastroenterology. Moreover, most instances occurred in patients using the drugs for type 2 diabetes (T2D) rather than for weight loss alone.

The findings suggest adopting an individualized approach rather than universal preoperative withholding of GLP-1 RAs before endoscopy, concluded Jennifer Phan, MD, medical director of the Hoag Advanced Endoscopy Center in Newport Beach, California, and colleagues. These agents are associated with slowed gastric emptying, possibly raising the risk for pulmonary aspiration. The study identified comorbid uncontrolled T2D as a risk factor for retained gastric contents.

Dr. Jennifer Phan



Recommendations from gastroenterological societies and the American Society of Anesthesiologists (ASA) differ regarding pre-endoscopic holding of these ubiquitous agents used for obesity and T2D. “Many patients undergo routine endoscopic procedures, and there was concern from the anesthesia safety perspective for retained gastric contents,” Phan told GI & Hepatology News. “At first these events were seen in a handful of cases; however, out of precaution this resulted in a statement from the ASA recommending that patients hold their GLP-1 medications for at least 1 week prior to a routine endoscopic procedure.”

That guidance resulted in protocol changes within endoscopy units, cancelled procedures, and potential delays in patient care. “We wanted to study whether this concern was clinically valid and to help identify which subgroup of patients are at highest risk in order to best inform anesthesia and endoscopy practices,” Phan added.

The ASA updated its guidance in 2023.

The current study aligns with other research showing that rates of clinically relevant retained gastric contents are < 10%, Phan said. For instance, the American Gastroenterological Association (AGA) published a rapid clinical practice update in November 2023 that found insufficient evidence to support patients stopping the medications before endoscopic procedures. AGA guidance suggests an individual approach for each patient on a GLP-1 RA rather than a blanket statement on how to manage all patients taking the medications.

“Our initial hypothesis was that the rates of clinically relevant retained gastric contents in patients on GLP-1 RA medications would be low,” Phan noted. “This was born out of anecdotal experience of the limited number of aborted procedures we experienced before the ASA statement.” 

Her group also hypothesized that the indication for which the GLP-1 RA was prescribed would be important, with patients taking GLP-1 RA medications for diabetes potentially having a higher likelihood of retained contents given the concomitant propensity for delayed gastric motility related to uncontrolled hyperglycemia.

 

The Study

The investigators identified 815 patients on confirmed GLP-1 RA medications of various types receiving endoscopy from 2021 to 2023 at four centers. Demographics, prescribing practices, and procedure outcomes were captured. GLP-1 RA management of preoperative holding was retroactively classified per ASA guidance.

Of the 815 patients (mean age, 67.7 years; 57.7% women; 53.9% White individuals), 70 (8.7%) exhibited retained gastric contents on endoscopy. Of these 65 (93%) had T2D with a median A1c of 6.5%. Among those with retained contents, most had a minimal (10, 14.3%) or moderate (31, 44.3%) amount of food retained, although 29 (41.4%) had a large quantity. Only one patient required unplanned intubation because of a large quantity of residual content, and none had aspiration events.

In multivariate analysis, the odds ratio of retention in those with diabetes was 4.1. “Given the predominance of diabetes in those with retained gastric contents, we highlight the potential to risk-stratify patients who require further preprocedural consideration,” the authors wrote.

Those with GLP-1 RA held per ASA guidance (406, 49.8%) were less likely to have retained contents (4.4% vs 12.7%; P < .001), but no significant differences for intubation (0% vs 2%; P = .53) or aborting procedure rates (28% vs 18%; P = .40) due to gastric retention were observed.

On multivariable analysis, the likelihood of food retention increased by 36% (95% CI, 1.15-1.60) for every 1% increase in glycosylated hemoglobin after adjusting for GLP-1 RA type and preoperative medication hold.

“Our study can help to differentiate which patients can be at largest risk for retained gastric contents,” Phan said, noting the impact of increasing percentages of A1C. “There’s a 36% increased likelihood of food retention in patients on GLP-1 medications, so a blanket policy to hold GLP-1s in patients who are nondiabetic and taking the medication for obesity may not be the best approach. But if patients have uncontrolled hyperglycemia, then an approach of caution is clinically valid.” In that context, holding the GLP-1 RA injection or lengthening the preoperative clear-liquid diet policy should be considered.

She noted that the study results are generalizable because the study was conducted across multiple types of hospital systems, both university and county, and included all types of GLP-1 RA.

Offering an anesthesiologist’s perspective on the study, Paul Potnuru, MD, an assistant professor in the Department of Anesthesiology, Critical Care, and Pain Medicine at UTHealth Houston and not involved in the study, called the findings “somewhat reassuring” but said the risk for aspiration was still a consideration.

recent review, however, reported that the risk for GLP-1 RA-associated pulmonary aspiration was low.

Potnuru acknowledged that the original ASA guidance on preoperative GLP-1 RA cessation led to some confusion. “There were not a lot of data on the issue, but some studies found that even with stopping GLP-1s 2 weeks preoperatively some patients still retained gastric content,” he told GI & Hepatology News.

A study at his center recently reported that 56% of GLP-1 RA users had increased pre-anesthesia residual gastric content compared with 19% of nonusers.

From the anesthesiologist’s clinical vantage point, the margin of safety is an issue even if aspiration risk is low. “If there’s a 1 in 1000 chance or even a 1 in 3000 chance, that can be considered too high,” Potnuru said.

He further noted that the current study included only 815 patients, not nearly enough for definitive data. In addition, a retrospective study based on medical records can’t really capture all the real-world procedural changes made in the operating room. “It’s common for anesthesiologists not to document all cases of intubation, for example,” he said.

While the ideal is a completely empty stomach, he agreed that a practical alternative to stopping GLP-1 RA therapy, especially that prescribed for diabetes, would be a 24-hour liquid diet, which would clear the stomach quickly. “If you stop these drugs in patients taking them for diabetes, you get a worsening of their glycemic control,” he said.

He noted that patients have different risk tolerances, with some willing to go ahead even if ultrasound shows gastric retention, while some opt to cancel.

Prospective studies are needed, Potnuru added, “because you find more if you know what you’re looking for.” His center is starting a clinical trial in 150 patients to assess the impact of a 24-hour, liquids-only diet on gastric retention.

According to Phan, other research is following GLP-1 RA users undergoing colonoscopy. “Future studies can look at the added value of point-of-care abdominal ultrasound to see if it increases precision preoperative management in these patients on GLP-1 medications.”

Other groups are examining the safety of these agents in the general context of sedation. “It’s worth noting that the studies are being done on currently available medications and may not apply to future medications such as triple agonists or anti-amylins that may come on the market in the near future,” Phan said.

This study received no financial support. Neither the study authors nor Potnuru had any conflicts of interest.

A version of this article appeared on Medscape.com.

Low rates of retained gastric contents were seen in endoscopy patients on GLP-1 receptor agonists ( RAs), a retrospective multicenter cross-sectional analysis reported in The American Journal of Gastroenterology. Moreover, most instances occurred in patients using the drugs for type 2 diabetes (T2D) rather than for weight loss alone.

The findings suggest adopting an individualized approach rather than universal preoperative withholding of GLP-1 RAs before endoscopy, concluded Jennifer Phan, MD, medical director of the Hoag Advanced Endoscopy Center in Newport Beach, California, and colleagues. These agents are associated with slowed gastric emptying, possibly raising the risk for pulmonary aspiration. The study identified comorbid uncontrolled T2D as a risk factor for retained gastric contents.

Dr. Jennifer Phan



Recommendations from gastroenterological societies and the American Society of Anesthesiologists (ASA) differ regarding pre-endoscopic holding of these ubiquitous agents used for obesity and T2D. “Many patients undergo routine endoscopic procedures, and there was concern from the anesthesia safety perspective for retained gastric contents,” Phan told GI & Hepatology News. “At first these events were seen in a handful of cases; however, out of precaution this resulted in a statement from the ASA recommending that patients hold their GLP-1 medications for at least 1 week prior to a routine endoscopic procedure.”

That guidance resulted in protocol changes within endoscopy units, cancelled procedures, and potential delays in patient care. “We wanted to study whether this concern was clinically valid and to help identify which subgroup of patients are at highest risk in order to best inform anesthesia and endoscopy practices,” Phan added.

The ASA updated its guidance in 2023.

The current study aligns with other research showing that rates of clinically relevant retained gastric contents are < 10%, Phan said. For instance, the American Gastroenterological Association (AGA) published a rapid clinical practice update in November 2023 that found insufficient evidence to support patients stopping the medications before endoscopic procedures. AGA guidance suggests an individual approach for each patient on a GLP-1 RA rather than a blanket statement on how to manage all patients taking the medications.

“Our initial hypothesis was that the rates of clinically relevant retained gastric contents in patients on GLP-1 RA medications would be low,” Phan noted. “This was born out of anecdotal experience of the limited number of aborted procedures we experienced before the ASA statement.” 

Her group also hypothesized that the indication for which the GLP-1 RA was prescribed would be important, with patients taking GLP-1 RA medications for diabetes potentially having a higher likelihood of retained contents given the concomitant propensity for delayed gastric motility related to uncontrolled hyperglycemia.

 

The Study

The investigators identified 815 patients on confirmed GLP-1 RA medications of various types receiving endoscopy from 2021 to 2023 at four centers. Demographics, prescribing practices, and procedure outcomes were captured. GLP-1 RA management of preoperative holding was retroactively classified per ASA guidance.

Of the 815 patients (mean age, 67.7 years; 57.7% women; 53.9% White individuals), 70 (8.7%) exhibited retained gastric contents on endoscopy. Of these 65 (93%) had T2D with a median A1c of 6.5%. Among those with retained contents, most had a minimal (10, 14.3%) or moderate (31, 44.3%) amount of food retained, although 29 (41.4%) had a large quantity. Only one patient required unplanned intubation because of a large quantity of residual content, and none had aspiration events.

In multivariate analysis, the odds ratio of retention in those with diabetes was 4.1. “Given the predominance of diabetes in those with retained gastric contents, we highlight the potential to risk-stratify patients who require further preprocedural consideration,” the authors wrote.

Those with GLP-1 RA held per ASA guidance (406, 49.8%) were less likely to have retained contents (4.4% vs 12.7%; P < .001), but no significant differences for intubation (0% vs 2%; P = .53) or aborting procedure rates (28% vs 18%; P = .40) due to gastric retention were observed.

On multivariable analysis, the likelihood of food retention increased by 36% (95% CI, 1.15-1.60) for every 1% increase in glycosylated hemoglobin after adjusting for GLP-1 RA type and preoperative medication hold.

“Our study can help to differentiate which patients can be at largest risk for retained gastric contents,” Phan said, noting the impact of increasing percentages of A1C. “There’s a 36% increased likelihood of food retention in patients on GLP-1 medications, so a blanket policy to hold GLP-1s in patients who are nondiabetic and taking the medication for obesity may not be the best approach. But if patients have uncontrolled hyperglycemia, then an approach of caution is clinically valid.” In that context, holding the GLP-1 RA injection or lengthening the preoperative clear-liquid diet policy should be considered.

She noted that the study results are generalizable because the study was conducted across multiple types of hospital systems, both university and county, and included all types of GLP-1 RA.

Offering an anesthesiologist’s perspective on the study, Paul Potnuru, MD, an assistant professor in the Department of Anesthesiology, Critical Care, and Pain Medicine at UTHealth Houston and not involved in the study, called the findings “somewhat reassuring” but said the risk for aspiration was still a consideration.

recent review, however, reported that the risk for GLP-1 RA-associated pulmonary aspiration was low.

Potnuru acknowledged that the original ASA guidance on preoperative GLP-1 RA cessation led to some confusion. “There were not a lot of data on the issue, but some studies found that even with stopping GLP-1s 2 weeks preoperatively some patients still retained gastric content,” he told GI & Hepatology News.

A study at his center recently reported that 56% of GLP-1 RA users had increased pre-anesthesia residual gastric content compared with 19% of nonusers.

From the anesthesiologist’s clinical vantage point, the margin of safety is an issue even if aspiration risk is low. “If there’s a 1 in 1000 chance or even a 1 in 3000 chance, that can be considered too high,” Potnuru said.

He further noted that the current study included only 815 patients, not nearly enough for definitive data. In addition, a retrospective study based on medical records can’t really capture all the real-world procedural changes made in the operating room. “It’s common for anesthesiologists not to document all cases of intubation, for example,” he said.

While the ideal is a completely empty stomach, he agreed that a practical alternative to stopping GLP-1 RA therapy, especially that prescribed for diabetes, would be a 24-hour liquid diet, which would clear the stomach quickly. “If you stop these drugs in patients taking them for diabetes, you get a worsening of their glycemic control,” he said.

He noted that patients have different risk tolerances, with some willing to go ahead even if ultrasound shows gastric retention, while some opt to cancel.

Prospective studies are needed, Potnuru added, “because you find more if you know what you’re looking for.” His center is starting a clinical trial in 150 patients to assess the impact of a 24-hour, liquids-only diet on gastric retention.

According to Phan, other research is following GLP-1 RA users undergoing colonoscopy. “Future studies can look at the added value of point-of-care abdominal ultrasound to see if it increases precision preoperative management in these patients on GLP-1 medications.”

Other groups are examining the safety of these agents in the general context of sedation. “It’s worth noting that the studies are being done on currently available medications and may not apply to future medications such as triple agonists or anti-amylins that may come on the market in the near future,” Phan said.

This study received no financial support. Neither the study authors nor Potnuru had any conflicts of interest.

A version of this article appeared on Medscape.com.

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Endoscopic Lifting Agents: AGA Issues New Clinical Practice Update

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The American Gastroenterological Association (AGA) has released a comprehensive clinical practice update on lifting agents for endoscopic surgery.

Published in Clinical Gastroenterology and Hepatology, the commentary reviews available agents and provides clinically relevant commentary on their indications and use — with the caveat that it is not a formal systematic review but rather empirical advice for endoscopists. No formal rating of the quality of evidence or strength of recommendations was performed.

Led by Tobias Zuchelli, MD, a clinical associate professor at Michigan State University and a gastroenterologist at the Henry Ford Health System in Detroit, the expert panel noted that endoscopists are increasingly resecting precancerous lesions and early cancers of the gastrointestinal tract.

“Although new endoscopic procedures have been developed, there had not been much in terms of high-quality guidance on lifting agents,” panelist Amit V. Patel, MD, a professor of medicine at Duke University and director of Endoscopy at Durham Veterans Affairs Medical Center in Durham, North Carolina, told GI & Hepatology News. “With our better understanding and use of techniques, this commentary was timely. It summarizes the available data on the topic and includes our clinical experiences.”

Dr. Amit V. Patel



Filling that knowledge gap, the document reviews in detail the timing and methods of agent injection according to procedure type, including the dynamic needle approach, the empirical merits of different agents such as saline (with or without blue contrast) and viscous agents, as well as lift-enhancing assistive devices — for example, the ERBEJET 2 high-pressure water jet, an adjustable hydrosurgical device to facilitate lifting. A chart provides an at-a-glance summary of agents and their pros and cons.

“The feedback from gastroenterologists so far has been quite positive on social media and on GI channels,” Patel said.

Endoscopic resection has evolved from snare polypectomy to endoscopic mucosal resection (EMR) and now, endoscopic submucosal dissection (ESD). The primary benefit of submucosal lifting is the creation of a separating submucosal cushion between the lesion and muscularis propria (MP), which reduces the risk for immediate or delayed perforation of the muscle. Adding a contrast agent also demarcates lesion margins and stains the submucosa, which is fundamental to ESD and allows for assessment of MP injury during EMR.

For decades, homemade solutions were used to lift lesions before removal, with the sentinel agent being normal saline, later mixed with a blue contrast agent, usually indigo carmine or methylene blue. The authors noted that some endoscopists performing ESD start the submucosal injection and incision using a prepackaged viscous solution. “The endoscopist may continue with the viscous fluid or transition to saline or another less expensive solution,” they wrote.

Saline tends to dissipate more quickly than viscous solutions, however. In 2015, the polymer compound SIC-8000 became the first FDA-approved submucosal injection agent. Since then, several other fluids have come on the market, although homemade agents remain available.

Among the update’s recommendations, the fluid selected for EMR should be determined by lesion size, predicted histology, and endoscopist preference. Based on the US Multi-Society Task Force (USMSTF) on Colorectal Cancer, submucosal injection is optional for nonpedunculated colorectal lesions (NPCRLs) of intermediate size (10-19 mm).

Cold snare polypectomy without submucosal injection was later found to be non-inferior to other resection methods utilizing submucosal injection for NPCRLs ≤ 15 mm. 

The update noted that the USMSTF considers EMR first-line therapy for most NPCRLs ≥ 20 mm and advocates viscous solutions as preferred, while the use of lifting agents for pedunculated polyps is generally at the discretion of the endoscopist.

For Patel, the main “clinical pearls” in the update are adding a contrast agent to normal saline, using a viscous agent for cold EMR, and manipulating the injection needle first tangentially and then dynamically toward the lumen to maximize separation of the lesion.

In terms of the ideal, an optimal lifting solution would be readily available, inexpensive, and premixed, providing a sustained submucosal cushion. “However, this ideal solution currently does not exist. Injection fluids should, therefore, be selected based on planned resection method, predicted histology, local expertise and preferences, and cost,” the panelists wrote.

Added Patel, “A lot of the agents out there check most of these boxes, but we’re hoping for further development toward the ideal.”

Offering a nonparticipant’s perspective on the overview, Wasseem Skef, MD, a gastroenterologist at UTHealth Houston, found the update very useful. “It always helps to have the literature summarized,” he told GI & Hepatology News. “It’s a pretty balanced review that pulls together the various options but allows people to stick to their preferred practice.”

Dr. Wasseem Skef



In his practice, the lifting agent selected depends on the type of resection. “Viscous agents are generally more popular for EMR-type resections,” Skef said. One unanswered question, he noted, is whether adding a hemostatic agent would be superior to a viscous agent alone. “But overall, this is a nice summary of available agents. Gastroenterologists should consider these different options if doing procedures like EMR.”

This review was sponsored by the AGA Institute. 

Zuchelli is a consultant for Boston Scientific. Patel consults for Medpace, Renexxion, and Sanofi. Skef reported having no relevant disclosures.

A version of this article appeared on Medscape.com . 

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The American Gastroenterological Association (AGA) has released a comprehensive clinical practice update on lifting agents for endoscopic surgery.

Published in Clinical Gastroenterology and Hepatology, the commentary reviews available agents and provides clinically relevant commentary on their indications and use — with the caveat that it is not a formal systematic review but rather empirical advice for endoscopists. No formal rating of the quality of evidence or strength of recommendations was performed.

Led by Tobias Zuchelli, MD, a clinical associate professor at Michigan State University and a gastroenterologist at the Henry Ford Health System in Detroit, the expert panel noted that endoscopists are increasingly resecting precancerous lesions and early cancers of the gastrointestinal tract.

“Although new endoscopic procedures have been developed, there had not been much in terms of high-quality guidance on lifting agents,” panelist Amit V. Patel, MD, a professor of medicine at Duke University and director of Endoscopy at Durham Veterans Affairs Medical Center in Durham, North Carolina, told GI & Hepatology News. “With our better understanding and use of techniques, this commentary was timely. It summarizes the available data on the topic and includes our clinical experiences.”

Dr. Amit V. Patel



Filling that knowledge gap, the document reviews in detail the timing and methods of agent injection according to procedure type, including the dynamic needle approach, the empirical merits of different agents such as saline (with or without blue contrast) and viscous agents, as well as lift-enhancing assistive devices — for example, the ERBEJET 2 high-pressure water jet, an adjustable hydrosurgical device to facilitate lifting. A chart provides an at-a-glance summary of agents and their pros and cons.

“The feedback from gastroenterologists so far has been quite positive on social media and on GI channels,” Patel said.

Endoscopic resection has evolved from snare polypectomy to endoscopic mucosal resection (EMR) and now, endoscopic submucosal dissection (ESD). The primary benefit of submucosal lifting is the creation of a separating submucosal cushion between the lesion and muscularis propria (MP), which reduces the risk for immediate or delayed perforation of the muscle. Adding a contrast agent also demarcates lesion margins and stains the submucosa, which is fundamental to ESD and allows for assessment of MP injury during EMR.

For decades, homemade solutions were used to lift lesions before removal, with the sentinel agent being normal saline, later mixed with a blue contrast agent, usually indigo carmine or methylene blue. The authors noted that some endoscopists performing ESD start the submucosal injection and incision using a prepackaged viscous solution. “The endoscopist may continue with the viscous fluid or transition to saline or another less expensive solution,” they wrote.

Saline tends to dissipate more quickly than viscous solutions, however. In 2015, the polymer compound SIC-8000 became the first FDA-approved submucosal injection agent. Since then, several other fluids have come on the market, although homemade agents remain available.

Among the update’s recommendations, the fluid selected for EMR should be determined by lesion size, predicted histology, and endoscopist preference. Based on the US Multi-Society Task Force (USMSTF) on Colorectal Cancer, submucosal injection is optional for nonpedunculated colorectal lesions (NPCRLs) of intermediate size (10-19 mm).

Cold snare polypectomy without submucosal injection was later found to be non-inferior to other resection methods utilizing submucosal injection for NPCRLs ≤ 15 mm. 

The update noted that the USMSTF considers EMR first-line therapy for most NPCRLs ≥ 20 mm and advocates viscous solutions as preferred, while the use of lifting agents for pedunculated polyps is generally at the discretion of the endoscopist.

For Patel, the main “clinical pearls” in the update are adding a contrast agent to normal saline, using a viscous agent for cold EMR, and manipulating the injection needle first tangentially and then dynamically toward the lumen to maximize separation of the lesion.

In terms of the ideal, an optimal lifting solution would be readily available, inexpensive, and premixed, providing a sustained submucosal cushion. “However, this ideal solution currently does not exist. Injection fluids should, therefore, be selected based on planned resection method, predicted histology, local expertise and preferences, and cost,” the panelists wrote.

Added Patel, “A lot of the agents out there check most of these boxes, but we’re hoping for further development toward the ideal.”

Offering a nonparticipant’s perspective on the overview, Wasseem Skef, MD, a gastroenterologist at UTHealth Houston, found the update very useful. “It always helps to have the literature summarized,” he told GI & Hepatology News. “It’s a pretty balanced review that pulls together the various options but allows people to stick to their preferred practice.”

Dr. Wasseem Skef



In his practice, the lifting agent selected depends on the type of resection. “Viscous agents are generally more popular for EMR-type resections,” Skef said. One unanswered question, he noted, is whether adding a hemostatic agent would be superior to a viscous agent alone. “But overall, this is a nice summary of available agents. Gastroenterologists should consider these different options if doing procedures like EMR.”

This review was sponsored by the AGA Institute. 

Zuchelli is a consultant for Boston Scientific. Patel consults for Medpace, Renexxion, and Sanofi. Skef reported having no relevant disclosures.

A version of this article appeared on Medscape.com . 

The American Gastroenterological Association (AGA) has released a comprehensive clinical practice update on lifting agents for endoscopic surgery.

Published in Clinical Gastroenterology and Hepatology, the commentary reviews available agents and provides clinically relevant commentary on their indications and use — with the caveat that it is not a formal systematic review but rather empirical advice for endoscopists. No formal rating of the quality of evidence or strength of recommendations was performed.

Led by Tobias Zuchelli, MD, a clinical associate professor at Michigan State University and a gastroenterologist at the Henry Ford Health System in Detroit, the expert panel noted that endoscopists are increasingly resecting precancerous lesions and early cancers of the gastrointestinal tract.

“Although new endoscopic procedures have been developed, there had not been much in terms of high-quality guidance on lifting agents,” panelist Amit V. Patel, MD, a professor of medicine at Duke University and director of Endoscopy at Durham Veterans Affairs Medical Center in Durham, North Carolina, told GI & Hepatology News. “With our better understanding and use of techniques, this commentary was timely. It summarizes the available data on the topic and includes our clinical experiences.”

Dr. Amit V. Patel



Filling that knowledge gap, the document reviews in detail the timing and methods of agent injection according to procedure type, including the dynamic needle approach, the empirical merits of different agents such as saline (with or without blue contrast) and viscous agents, as well as lift-enhancing assistive devices — for example, the ERBEJET 2 high-pressure water jet, an adjustable hydrosurgical device to facilitate lifting. A chart provides an at-a-glance summary of agents and their pros and cons.

“The feedback from gastroenterologists so far has been quite positive on social media and on GI channels,” Patel said.

Endoscopic resection has evolved from snare polypectomy to endoscopic mucosal resection (EMR) and now, endoscopic submucosal dissection (ESD). The primary benefit of submucosal lifting is the creation of a separating submucosal cushion between the lesion and muscularis propria (MP), which reduces the risk for immediate or delayed perforation of the muscle. Adding a contrast agent also demarcates lesion margins and stains the submucosa, which is fundamental to ESD and allows for assessment of MP injury during EMR.

For decades, homemade solutions were used to lift lesions before removal, with the sentinel agent being normal saline, later mixed with a blue contrast agent, usually indigo carmine or methylene blue. The authors noted that some endoscopists performing ESD start the submucosal injection and incision using a prepackaged viscous solution. “The endoscopist may continue with the viscous fluid or transition to saline or another less expensive solution,” they wrote.

Saline tends to dissipate more quickly than viscous solutions, however. In 2015, the polymer compound SIC-8000 became the first FDA-approved submucosal injection agent. Since then, several other fluids have come on the market, although homemade agents remain available.

Among the update’s recommendations, the fluid selected for EMR should be determined by lesion size, predicted histology, and endoscopist preference. Based on the US Multi-Society Task Force (USMSTF) on Colorectal Cancer, submucosal injection is optional for nonpedunculated colorectal lesions (NPCRLs) of intermediate size (10-19 mm).

Cold snare polypectomy without submucosal injection was later found to be non-inferior to other resection methods utilizing submucosal injection for NPCRLs ≤ 15 mm. 

The update noted that the USMSTF considers EMR first-line therapy for most NPCRLs ≥ 20 mm and advocates viscous solutions as preferred, while the use of lifting agents for pedunculated polyps is generally at the discretion of the endoscopist.

For Patel, the main “clinical pearls” in the update are adding a contrast agent to normal saline, using a viscous agent for cold EMR, and manipulating the injection needle first tangentially and then dynamically toward the lumen to maximize separation of the lesion.

In terms of the ideal, an optimal lifting solution would be readily available, inexpensive, and premixed, providing a sustained submucosal cushion. “However, this ideal solution currently does not exist. Injection fluids should, therefore, be selected based on planned resection method, predicted histology, local expertise and preferences, and cost,” the panelists wrote.

Added Patel, “A lot of the agents out there check most of these boxes, but we’re hoping for further development toward the ideal.”

Offering a nonparticipant’s perspective on the overview, Wasseem Skef, MD, a gastroenterologist at UTHealth Houston, found the update very useful. “It always helps to have the literature summarized,” he told GI & Hepatology News. “It’s a pretty balanced review that pulls together the various options but allows people to stick to their preferred practice.”

Dr. Wasseem Skef



In his practice, the lifting agent selected depends on the type of resection. “Viscous agents are generally more popular for EMR-type resections,” Skef said. One unanswered question, he noted, is whether adding a hemostatic agent would be superior to a viscous agent alone. “But overall, this is a nice summary of available agents. Gastroenterologists should consider these different options if doing procedures like EMR.”

This review was sponsored by the AGA Institute. 

Zuchelli is a consultant for Boston Scientific. Patel consults for Medpace, Renexxion, and Sanofi. Skef reported having no relevant disclosures.

A version of this article appeared on Medscape.com . 

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Papilla Sphincterotomy Shows No Risk Reduction in Pancreas Divisum

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SAN DIEGO — In treating pancreas divisum, the common use of endoscopic retrograde cholangiopancreatography (ERCP) with minor papilla endoscopic sphincterotomy showed no significant benefit over a sham procedure, suggesting that patients can be spared the intervention, which can carry risks of its own.

“This is a topic that has been debated for decades,” said first author Gregory A. Coté, MD, AGAF, Division Head, professor of medicine, Division of Gastroenterology & Hepatology, Oregon Health & Science University, in Portland, Oregon.

Dr. Gregory A. Cote



“Many doctors believe the procedure helps and offer it because we have limited options to help our patients, whereas others believe the procedure is harmful and doesn’t help,” he explained in a press briefing for the late-breaking study, presented at Digestive Disease Week (DDW) 2025.

The study’s findings supported the latter argument.

“Patients who underwent ERCP with sphincterotomy were just as likely as those who did not have this procedure to develop acute pancreatitis again,” Coté reported.

While clinical guidelines currently recommend ERCP as treatment for pancreas divisum, “these guidelines are likely to change based on this study,” he said.

Pancreas divisum, occurring in about 7%-10% of people, is an anatomic variation that can represent an obstructive risk factor for acute recurrent pancreatitis.

The common use of ERCP with minor papilla endoscopic sphincterotomy to treat the condition is based on prior retrospective studies showing that in patients who did develop acute pancreatitis, up to 70% with the treatment never developed acute pancreatitis again. However, there have been no studies comparing the use of the treatment with a control group.

Coté and colleagues conducted the multicenter SHARP trial, in which 148 patients with pancreas divisum were enrolled between September 2018 and August 2024 and randomized to receive either ERCP with minor papilla endoscopic sphincterotomy (n = 75) or a sham treatment (n = 73).

The patients, who had a median age of 51 years, had a median of 3 acute pancreatitis episodes prior to randomization.

With a median follow-up of 33.5 months (range, 6-48 months), 34.7% of patients in the ERCP arm experienced an acute pancreatitis incident compared with 43.8% in the sham arm, for a hazard ratio of 0.83 after adjusting for duct size and the number of episodes, which was not a statistically significant difference (P = .27).

A subgroup analysis further showed no indication of a treatment effect based on factors including age, diabetes status, sex, alcohol or tobacco use, or other factors.

“Compared with a sham ERCP group, we found that minor papillotomy did not reduce the risk of acute pancreatitis, incident chronic pancreatitis, endocrine pancreatic insufficiency or diabetes, or pancreas-related pain events,” Coté said.

The findings are particularly important because the treatment itself is associated with some risks, he added.

“Ironically, the problem with this procedure is that it can cause acute pancreatitis in 10%-20% of patients and may instigate other issues later,” such as the development of scarring of the pancreas related to incisions in the procedure.

“No one wants to offer an expensive procedure that has its own risks if it doesn’t help,” Coté said.

Based on the findings, “pancreas divisum anatomy should no longer be considered an indication for ERCP, even for idiopathic acute pancreatitis,” he concluded.

A version of this article appeared on Medscape.com.

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SAN DIEGO — In treating pancreas divisum, the common use of endoscopic retrograde cholangiopancreatography (ERCP) with minor papilla endoscopic sphincterotomy showed no significant benefit over a sham procedure, suggesting that patients can be spared the intervention, which can carry risks of its own.

“This is a topic that has been debated for decades,” said first author Gregory A. Coté, MD, AGAF, Division Head, professor of medicine, Division of Gastroenterology & Hepatology, Oregon Health & Science University, in Portland, Oregon.

Dr. Gregory A. Cote



“Many doctors believe the procedure helps and offer it because we have limited options to help our patients, whereas others believe the procedure is harmful and doesn’t help,” he explained in a press briefing for the late-breaking study, presented at Digestive Disease Week (DDW) 2025.

The study’s findings supported the latter argument.

“Patients who underwent ERCP with sphincterotomy were just as likely as those who did not have this procedure to develop acute pancreatitis again,” Coté reported.

While clinical guidelines currently recommend ERCP as treatment for pancreas divisum, “these guidelines are likely to change based on this study,” he said.

Pancreas divisum, occurring in about 7%-10% of people, is an anatomic variation that can represent an obstructive risk factor for acute recurrent pancreatitis.

The common use of ERCP with minor papilla endoscopic sphincterotomy to treat the condition is based on prior retrospective studies showing that in patients who did develop acute pancreatitis, up to 70% with the treatment never developed acute pancreatitis again. However, there have been no studies comparing the use of the treatment with a control group.

Coté and colleagues conducted the multicenter SHARP trial, in which 148 patients with pancreas divisum were enrolled between September 2018 and August 2024 and randomized to receive either ERCP with minor papilla endoscopic sphincterotomy (n = 75) or a sham treatment (n = 73).

The patients, who had a median age of 51 years, had a median of 3 acute pancreatitis episodes prior to randomization.

With a median follow-up of 33.5 months (range, 6-48 months), 34.7% of patients in the ERCP arm experienced an acute pancreatitis incident compared with 43.8% in the sham arm, for a hazard ratio of 0.83 after adjusting for duct size and the number of episodes, which was not a statistically significant difference (P = .27).

A subgroup analysis further showed no indication of a treatment effect based on factors including age, diabetes status, sex, alcohol or tobacco use, or other factors.

“Compared with a sham ERCP group, we found that minor papillotomy did not reduce the risk of acute pancreatitis, incident chronic pancreatitis, endocrine pancreatic insufficiency or diabetes, or pancreas-related pain events,” Coté said.

The findings are particularly important because the treatment itself is associated with some risks, he added.

“Ironically, the problem with this procedure is that it can cause acute pancreatitis in 10%-20% of patients and may instigate other issues later,” such as the development of scarring of the pancreas related to incisions in the procedure.

“No one wants to offer an expensive procedure that has its own risks if it doesn’t help,” Coté said.

Based on the findings, “pancreas divisum anatomy should no longer be considered an indication for ERCP, even for idiopathic acute pancreatitis,” he concluded.

A version of this article appeared on Medscape.com.

SAN DIEGO — In treating pancreas divisum, the common use of endoscopic retrograde cholangiopancreatography (ERCP) with minor papilla endoscopic sphincterotomy showed no significant benefit over a sham procedure, suggesting that patients can be spared the intervention, which can carry risks of its own.

“This is a topic that has been debated for decades,” said first author Gregory A. Coté, MD, AGAF, Division Head, professor of medicine, Division of Gastroenterology & Hepatology, Oregon Health & Science University, in Portland, Oregon.

Dr. Gregory A. Cote



“Many doctors believe the procedure helps and offer it because we have limited options to help our patients, whereas others believe the procedure is harmful and doesn’t help,” he explained in a press briefing for the late-breaking study, presented at Digestive Disease Week (DDW) 2025.

The study’s findings supported the latter argument.

“Patients who underwent ERCP with sphincterotomy were just as likely as those who did not have this procedure to develop acute pancreatitis again,” Coté reported.

While clinical guidelines currently recommend ERCP as treatment for pancreas divisum, “these guidelines are likely to change based on this study,” he said.

Pancreas divisum, occurring in about 7%-10% of people, is an anatomic variation that can represent an obstructive risk factor for acute recurrent pancreatitis.

The common use of ERCP with minor papilla endoscopic sphincterotomy to treat the condition is based on prior retrospective studies showing that in patients who did develop acute pancreatitis, up to 70% with the treatment never developed acute pancreatitis again. However, there have been no studies comparing the use of the treatment with a control group.

Coté and colleagues conducted the multicenter SHARP trial, in which 148 patients with pancreas divisum were enrolled between September 2018 and August 2024 and randomized to receive either ERCP with minor papilla endoscopic sphincterotomy (n = 75) or a sham treatment (n = 73).

The patients, who had a median age of 51 years, had a median of 3 acute pancreatitis episodes prior to randomization.

With a median follow-up of 33.5 months (range, 6-48 months), 34.7% of patients in the ERCP arm experienced an acute pancreatitis incident compared with 43.8% in the sham arm, for a hazard ratio of 0.83 after adjusting for duct size and the number of episodes, which was not a statistically significant difference (P = .27).

A subgroup analysis further showed no indication of a treatment effect based on factors including age, diabetes status, sex, alcohol or tobacco use, or other factors.

“Compared with a sham ERCP group, we found that minor papillotomy did not reduce the risk of acute pancreatitis, incident chronic pancreatitis, endocrine pancreatic insufficiency or diabetes, or pancreas-related pain events,” Coté said.

The findings are particularly important because the treatment itself is associated with some risks, he added.

“Ironically, the problem with this procedure is that it can cause acute pancreatitis in 10%-20% of patients and may instigate other issues later,” such as the development of scarring of the pancreas related to incisions in the procedure.

“No one wants to offer an expensive procedure that has its own risks if it doesn’t help,” Coté said.

Based on the findings, “pancreas divisum anatomy should no longer be considered an indication for ERCP, even for idiopathic acute pancreatitis,” he concluded.

A version of this article appeared on Medscape.com.

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Salvage Rendezvous Technique on Par With Precut Sphincterotomy for Tough Biliary Access

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Both endoscopic ultrasound–guided rendezvous (EUS-RV) and precut sphincterotomy are equally effective salvage techniques for patients with benign biliary obstruction and difficult bile duct cannulation, new data suggest.

Selective deep cannulation of the common bile duct remains the key rate-limiting step in successful endoscopic retrograde cholangiopancreatography (ERCP), especially in benign biliary disease.

In cases of difficult cannulation, the traditional fallback has been precut sphincterotomy. Recently, EUS-RV has emerged as an alternative. However, head-to-head comparisons of these salvage techniques in homogeneous patient populations have been lacking, until now. 

A team led by Arup Choudhury, MD, DM, with Department of Gastroenterology, Postgraduate Institute of Medical Education and Research, Chandigarh, India, compared the two salvage techniques in a single-center, randomized controlled trial of 100 patients with benign biliary disease and difficult bile duct cannulation.

There were 50 patients in each group. When one technique failed, patients were crossed over to the other technique.

The technical success rate for achieving deep biliary, the primary outcome measure, was similar with EUS-RV and precut sphincterotomy (92% and 90%, respectively; = 1.00; relative risk [RR], 1.02), the authors reported in Annals of Internal Medicine.

Median procedure time was also comparable (10.1 minutes with EUS-RV and 9.75 minutes with precut sphincterotomy). As expected, radiation exposure was notably higher in the EUS-RV group (median, 200.2 vs 67.8 mGy).

There was no difference in overall complication rates (12% and 10%, respectively; RR, 1.20).

Five patients in each group (10%) developed post-ERCP pancreatitis (PEP); one patient in the EUS-RV had moderately severe pancreatitis, whereas the rest had mild pancreatitis.

In an exploratory analysis of the subcohort of 72 patients who did not have 1 or more inadvertent pancreatic duct cannulation, two (5.6%) patients in the precut sphincterotomy group had PEP, whereas none of the patients in the EUS-RV had PEP (RR, 0.21). The investigators caution that a larger, multicenter, randomized controlled trial would be required to evaluate the “probable benefit” of lower PEP in the EUS-RV approach.

None of the patients had bleeding or perforation, but two (4%) patients in the EUS-RV group had an infection after the intervention. One required repeated ERCP due to post procedure cholangitis, whereas the other developed lower respiratory tract infection with transient acute lung injury and sputum showing gram-negative organism. None of the patients required surgical intervention.

“Interestingly,” said the investigators, on crossover from one salvage technique to the other, all of the cases could be successfully cannulated, suggesting the two salvage techniques are “complementary to each other and can help achieve successful cannulation in all cases when used in any sequence.”

Summing up, they said it appears from this head-to-head comparison that both EUS-RV and precut sphincterotomy can be considered effective salvage techniques in expert centers with similar safety and success profiles.

Limitations included the single-center design with both procedures performed by expert operators. EUS-RV entailed additional cost of needle and use of a separate scope, and a cost-efficacy analysis was not done.

This study had no specific funding. Disclosures for the authors are available with the original article.

A version of this article appeared on Medscape.com.

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Both endoscopic ultrasound–guided rendezvous (EUS-RV) and precut sphincterotomy are equally effective salvage techniques for patients with benign biliary obstruction and difficult bile duct cannulation, new data suggest.

Selective deep cannulation of the common bile duct remains the key rate-limiting step in successful endoscopic retrograde cholangiopancreatography (ERCP), especially in benign biliary disease.

In cases of difficult cannulation, the traditional fallback has been precut sphincterotomy. Recently, EUS-RV has emerged as an alternative. However, head-to-head comparisons of these salvage techniques in homogeneous patient populations have been lacking, until now. 

A team led by Arup Choudhury, MD, DM, with Department of Gastroenterology, Postgraduate Institute of Medical Education and Research, Chandigarh, India, compared the two salvage techniques in a single-center, randomized controlled trial of 100 patients with benign biliary disease and difficult bile duct cannulation.

There were 50 patients in each group. When one technique failed, patients were crossed over to the other technique.

The technical success rate for achieving deep biliary, the primary outcome measure, was similar with EUS-RV and precut sphincterotomy (92% and 90%, respectively; = 1.00; relative risk [RR], 1.02), the authors reported in Annals of Internal Medicine.

Median procedure time was also comparable (10.1 minutes with EUS-RV and 9.75 minutes with precut sphincterotomy). As expected, radiation exposure was notably higher in the EUS-RV group (median, 200.2 vs 67.8 mGy).

There was no difference in overall complication rates (12% and 10%, respectively; RR, 1.20).

Five patients in each group (10%) developed post-ERCP pancreatitis (PEP); one patient in the EUS-RV had moderately severe pancreatitis, whereas the rest had mild pancreatitis.

In an exploratory analysis of the subcohort of 72 patients who did not have 1 or more inadvertent pancreatic duct cannulation, two (5.6%) patients in the precut sphincterotomy group had PEP, whereas none of the patients in the EUS-RV had PEP (RR, 0.21). The investigators caution that a larger, multicenter, randomized controlled trial would be required to evaluate the “probable benefit” of lower PEP in the EUS-RV approach.

None of the patients had bleeding or perforation, but two (4%) patients in the EUS-RV group had an infection after the intervention. One required repeated ERCP due to post procedure cholangitis, whereas the other developed lower respiratory tract infection with transient acute lung injury and sputum showing gram-negative organism. None of the patients required surgical intervention.

“Interestingly,” said the investigators, on crossover from one salvage technique to the other, all of the cases could be successfully cannulated, suggesting the two salvage techniques are “complementary to each other and can help achieve successful cannulation in all cases when used in any sequence.”

Summing up, they said it appears from this head-to-head comparison that both EUS-RV and precut sphincterotomy can be considered effective salvage techniques in expert centers with similar safety and success profiles.

Limitations included the single-center design with both procedures performed by expert operators. EUS-RV entailed additional cost of needle and use of a separate scope, and a cost-efficacy analysis was not done.

This study had no specific funding. Disclosures for the authors are available with the original article.

A version of this article appeared on Medscape.com.

Both endoscopic ultrasound–guided rendezvous (EUS-RV) and precut sphincterotomy are equally effective salvage techniques for patients with benign biliary obstruction and difficult bile duct cannulation, new data suggest.

Selective deep cannulation of the common bile duct remains the key rate-limiting step in successful endoscopic retrograde cholangiopancreatography (ERCP), especially in benign biliary disease.

In cases of difficult cannulation, the traditional fallback has been precut sphincterotomy. Recently, EUS-RV has emerged as an alternative. However, head-to-head comparisons of these salvage techniques in homogeneous patient populations have been lacking, until now. 

A team led by Arup Choudhury, MD, DM, with Department of Gastroenterology, Postgraduate Institute of Medical Education and Research, Chandigarh, India, compared the two salvage techniques in a single-center, randomized controlled trial of 100 patients with benign biliary disease and difficult bile duct cannulation.

There were 50 patients in each group. When one technique failed, patients were crossed over to the other technique.

The technical success rate for achieving deep biliary, the primary outcome measure, was similar with EUS-RV and precut sphincterotomy (92% and 90%, respectively; = 1.00; relative risk [RR], 1.02), the authors reported in Annals of Internal Medicine.

Median procedure time was also comparable (10.1 minutes with EUS-RV and 9.75 minutes with precut sphincterotomy). As expected, radiation exposure was notably higher in the EUS-RV group (median, 200.2 vs 67.8 mGy).

There was no difference in overall complication rates (12% and 10%, respectively; RR, 1.20).

Five patients in each group (10%) developed post-ERCP pancreatitis (PEP); one patient in the EUS-RV had moderately severe pancreatitis, whereas the rest had mild pancreatitis.

In an exploratory analysis of the subcohort of 72 patients who did not have 1 or more inadvertent pancreatic duct cannulation, two (5.6%) patients in the precut sphincterotomy group had PEP, whereas none of the patients in the EUS-RV had PEP (RR, 0.21). The investigators caution that a larger, multicenter, randomized controlled trial would be required to evaluate the “probable benefit” of lower PEP in the EUS-RV approach.

None of the patients had bleeding or perforation, but two (4%) patients in the EUS-RV group had an infection after the intervention. One required repeated ERCP due to post procedure cholangitis, whereas the other developed lower respiratory tract infection with transient acute lung injury and sputum showing gram-negative organism. None of the patients required surgical intervention.

“Interestingly,” said the investigators, on crossover from one salvage technique to the other, all of the cases could be successfully cannulated, suggesting the two salvage techniques are “complementary to each other and can help achieve successful cannulation in all cases when used in any sequence.”

Summing up, they said it appears from this head-to-head comparison that both EUS-RV and precut sphincterotomy can be considered effective salvage techniques in expert centers with similar safety and success profiles.

Limitations included the single-center design with both procedures performed by expert operators. EUS-RV entailed additional cost of needle and use of a separate scope, and a cost-efficacy analysis was not done.

This study had no specific funding. Disclosures for the authors are available with the original article.

A version of this article appeared on Medscape.com.

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Two Cystic Duct Stents Appear Better Than One

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Placing two cystic duct stents instead of one during endoscopic transpapillary gallbladder drainage (ETGBD) is associated with a lower rate of unplanned reintervention, according to a retrospective multicenter study.

These findings suggest that endoscopists should prioritize dual stent placement when feasible, and consider adding a second stent in patients who previously received a single stent, James D. Haddad, MD, of the University of Texas Southwestern, Dallas, and colleagues reported.

 

Dr. James D. Haddad

The American Gastroenterological Association (AGA) has recognized the role of endoscopic drainage in managing acute cholecystitis in high-risk patients, but specific guidance on optimal technique and follow-up remains unclear, the investigators wrote in Techniques and Innovations in Gastrointestinal Endoscopy.

“Despite accumulating data and increased interest in this technique, clear guidance on the ideal strategy for ETGBD is lacking,” Dr. Haddad and colleagues wrote. “For example, the optimal size, number, and follow-up of cystic duct stents for patients undergoing ETGBD has not been well established.”

To address this knowledge gap, the investigators analyzed data from 75 patients at five academic medical centers who had undergone ETGBD between June 2013 and October 2022. Patients were divided into two groups based on whether they received one or two cystic duct stents. 

The primary outcome was clinical success, defined as symptom resolution without requiring another drainage procedure. Secondary outcomes included technical success (defined as successful stent placement), along with rates of adverse events and unplanned reinterventions. 

Out of the 75 patients, 59 received a single stent, while 16 received dual stents. The median follow-up time was 407 days overall, with a longer follow-up in the single-stent group (433 days), compared with the double-stent group (118 days).

Clinical success was reported in 81.3% of cases, which technical success was achieved in 88.2% of cases. 

Patients who received two stents had significantly lower rates of unplanned reintervention, compared with those who received a single stent (0% vs 25.4%; P = .02). The median time to unplanned reintervention in the single-stent group was 210 days.

Use of a 7 French stent was strongly associated with placement of two stents (odd ratio [OR], 15.5; P = .01). Similarly, patients with a prior percutaneous cholecystostomy tube were significantly more likely to have two stents placed (OR, 10.8; P = .001).

Adverse event rates were uncommon and not statistically different between groups, with an overall rate of 6.7%. Post-endoscopic retrograde cholangiopancreatography pancreatitis was the most common adverse event, occurring in two patients in the single-stent group and one patient in the double-stent group. There were no reported cases of cystic duct or gallbladder perforation.

“In conclusion,” the investigators wrote, “ETGBD with dual transpapillary gallbladder stenting is associated with a lower rate of unplanned reinterventions, compared with that with single stenting, and has a low rate of adverse events. Endoscopists performing ETGBD should consider planned exchange of solitary transpapillary gallbladder stents or interval ERCP for reattempted placement of a second stent if placement of two stents is not possible at the index ERCP.”

The investigators disclosed relationships with Boston Scientific, Motus GI, and ConMed.







 

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Placing two cystic duct stents instead of one during endoscopic transpapillary gallbladder drainage (ETGBD) is associated with a lower rate of unplanned reintervention, according to a retrospective multicenter study.

These findings suggest that endoscopists should prioritize dual stent placement when feasible, and consider adding a second stent in patients who previously received a single stent, James D. Haddad, MD, of the University of Texas Southwestern, Dallas, and colleagues reported.

 

Dr. James D. Haddad

The American Gastroenterological Association (AGA) has recognized the role of endoscopic drainage in managing acute cholecystitis in high-risk patients, but specific guidance on optimal technique and follow-up remains unclear, the investigators wrote in Techniques and Innovations in Gastrointestinal Endoscopy.

“Despite accumulating data and increased interest in this technique, clear guidance on the ideal strategy for ETGBD is lacking,” Dr. Haddad and colleagues wrote. “For example, the optimal size, number, and follow-up of cystic duct stents for patients undergoing ETGBD has not been well established.”

To address this knowledge gap, the investigators analyzed data from 75 patients at five academic medical centers who had undergone ETGBD between June 2013 and October 2022. Patients were divided into two groups based on whether they received one or two cystic duct stents. 

The primary outcome was clinical success, defined as symptom resolution without requiring another drainage procedure. Secondary outcomes included technical success (defined as successful stent placement), along with rates of adverse events and unplanned reinterventions. 

Out of the 75 patients, 59 received a single stent, while 16 received dual stents. The median follow-up time was 407 days overall, with a longer follow-up in the single-stent group (433 days), compared with the double-stent group (118 days).

Clinical success was reported in 81.3% of cases, which technical success was achieved in 88.2% of cases. 

Patients who received two stents had significantly lower rates of unplanned reintervention, compared with those who received a single stent (0% vs 25.4%; P = .02). The median time to unplanned reintervention in the single-stent group was 210 days.

Use of a 7 French stent was strongly associated with placement of two stents (odd ratio [OR], 15.5; P = .01). Similarly, patients with a prior percutaneous cholecystostomy tube were significantly more likely to have two stents placed (OR, 10.8; P = .001).

Adverse event rates were uncommon and not statistically different between groups, with an overall rate of 6.7%. Post-endoscopic retrograde cholangiopancreatography pancreatitis was the most common adverse event, occurring in two patients in the single-stent group and one patient in the double-stent group. There were no reported cases of cystic duct or gallbladder perforation.

“In conclusion,” the investigators wrote, “ETGBD with dual transpapillary gallbladder stenting is associated with a lower rate of unplanned reinterventions, compared with that with single stenting, and has a low rate of adverse events. Endoscopists performing ETGBD should consider planned exchange of solitary transpapillary gallbladder stents or interval ERCP for reattempted placement of a second stent if placement of two stents is not possible at the index ERCP.”

The investigators disclosed relationships with Boston Scientific, Motus GI, and ConMed.







 

Placing two cystic duct stents instead of one during endoscopic transpapillary gallbladder drainage (ETGBD) is associated with a lower rate of unplanned reintervention, according to a retrospective multicenter study.

These findings suggest that endoscopists should prioritize dual stent placement when feasible, and consider adding a second stent in patients who previously received a single stent, James D. Haddad, MD, of the University of Texas Southwestern, Dallas, and colleagues reported.

 

Dr. James D. Haddad

The American Gastroenterological Association (AGA) has recognized the role of endoscopic drainage in managing acute cholecystitis in high-risk patients, but specific guidance on optimal technique and follow-up remains unclear, the investigators wrote in Techniques and Innovations in Gastrointestinal Endoscopy.

“Despite accumulating data and increased interest in this technique, clear guidance on the ideal strategy for ETGBD is lacking,” Dr. Haddad and colleagues wrote. “For example, the optimal size, number, and follow-up of cystic duct stents for patients undergoing ETGBD has not been well established.”

To address this knowledge gap, the investigators analyzed data from 75 patients at five academic medical centers who had undergone ETGBD between June 2013 and October 2022. Patients were divided into two groups based on whether they received one or two cystic duct stents. 

The primary outcome was clinical success, defined as symptom resolution without requiring another drainage procedure. Secondary outcomes included technical success (defined as successful stent placement), along with rates of adverse events and unplanned reinterventions. 

Out of the 75 patients, 59 received a single stent, while 16 received dual stents. The median follow-up time was 407 days overall, with a longer follow-up in the single-stent group (433 days), compared with the double-stent group (118 days).

Clinical success was reported in 81.3% of cases, which technical success was achieved in 88.2% of cases. 

Patients who received two stents had significantly lower rates of unplanned reintervention, compared with those who received a single stent (0% vs 25.4%; P = .02). The median time to unplanned reintervention in the single-stent group was 210 days.

Use of a 7 French stent was strongly associated with placement of two stents (odd ratio [OR], 15.5; P = .01). Similarly, patients with a prior percutaneous cholecystostomy tube were significantly more likely to have two stents placed (OR, 10.8; P = .001).

Adverse event rates were uncommon and not statistically different between groups, with an overall rate of 6.7%. Post-endoscopic retrograde cholangiopancreatography pancreatitis was the most common adverse event, occurring in two patients in the single-stent group and one patient in the double-stent group. There were no reported cases of cystic duct or gallbladder perforation.

“In conclusion,” the investigators wrote, “ETGBD with dual transpapillary gallbladder stenting is associated with a lower rate of unplanned reinterventions, compared with that with single stenting, and has a low rate of adverse events. Endoscopists performing ETGBD should consider planned exchange of solitary transpapillary gallbladder stents or interval ERCP for reattempted placement of a second stent if placement of two stents is not possible at the index ERCP.”

The investigators disclosed relationships with Boston Scientific, Motus GI, and ConMed.







 

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FROM TECHNIQUES AND INNOVATIONS IN GASTROINTESTINAL ENDOSCOPY

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GLP-1 RAs Safe in the Perioperative Period: New Guidance

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The majority of patients may safely take glucagon-like peptide 1 receptor agonists (GLP-1 RAs) before elective surgery and gastrointestinal endoscopies, according to updated guidance from five medical societies.

The new guidance, contrasting with earlier recommendations, says these incrementally used agents can be taken up until the day of surgery, but patients are advised to follow a liquid diet for 24 hours before the procedure. The decision to proceed with endoscopy and other procedures should be based on shared decision-making with the patient and interdisciplinary care teams in conjunction with minimization of the aspiration risk from delayed gastric emptying, the guidance stresses.

The five endorsing organizations are the American Society for Metabolic and Bariatric Surgery, American Society of Anesthesiologists (ASA), American Gastroenterological Association, International Society of Perioperative Care of Patients with Obesity, and Society of American Gastrointestinal and Endoscopic Surgeons. The societies emphasize that the statement is intended as guidance only and is not an evidence-based formal guideline.

GLP-1 RAs are known to delay gastric emptying, raising concerns about regurgitation, aspiration, and airway compromise during anesthesia. Rare serious adverse events have also been observed, prompting the ASA in 2023 to recommend holding these agents for 1 week for the injectable form and 1 day for the oral form before all procedures requiring anesthesia. 

 

University of Michigan
Dr. Allison R. Schulman

That abundance of caution, however, had negative impacts of its own. “This guidance has led to cancellations and postponements of many endoscopic and surgical procedures or required patients to undergo general anesthesia who may otherwise have had their procedures performed under moderate sedation,” said guidance coauthor Allison R. Schulman, MD, MPH, an associate professor of medicine and surgery and chief of endoscopy at the University of Michigan in Ann Arbor. “Nearly all institutions have been forced to revise preprocedural protocols, despite a lack of high-level evidence to suggest that these adjustments are necessary.”

“Studies have yielded mixed results as to whether patients on GLP-1s are at increased risk of these events, and the limited data available are inconsistent,” Schulman said. “As a result, there are inconsistencies in the recommendations from various societies leading to growing uncertainty with proceduralists on how to provide safe, effective, and timely procedural care to patients taking GLP-1 RAs.”

The new joint-society guidance may alleviate some of the uncertainty. Among the recommendations:

  • Continuing GLP-1 RAs in the perioperative period should be based on shared decision-making with the patient and all care teams balancing the metabolic need for the GLP-1 RA with individual patient risk.
  • Certain variables may increase the risk for delayed gastric emptying and aspiration with the periprocedural use of GLP-1 RAs: escalation phase — This phase vs the maintenance phase is associated with a higher risk for delayed gastric emptying; higher dose — the higher the dose, the greater the risk for gastrointestinal (GI) side effects; weekly dosing — GI side effects are more common with weekly vs daily formulations; presence of GI symptoms — nausea, vomiting, abdominal pain, dyspepsia, and constipation may suggest delayed gastric emptying; and medical problems beyond GLP-1 RA indications with GI effects — assess for such conditions as bowel dysmotility, gastroparesis, and Parkinson’s disease.
  • Risk factors should be assessed in advance to allow sufficient time to adjust preoperative care, including diet modification and medication bridging if GLP-1 RA cessation is deemed advisable.
  • If retained gastric contents are a concern on the day of a procedure, point-of-care gastric ultrasound could be used to assess aspiration risk, resources permitting.
  • The aspiration risk from delayed gastric emptying should be minimized by preoperative diet modification and/or altering the anesthesia plan to consider rapid sequence induction of general anesthesia for tracheal intubation. A 24-hour preoperative liquid diet, as before colonoscopy and bariatric surgery, can be utilized when delayed gastric emptying is a concern.
  • When concern about retained gastric contents exists on procedure day, providers should engage patients in a shared decision-making model and consider the benefits and risks of rapid-sequence induction of general anesthesia for tracheal intubation to minimize aspiration risk vs procedure cancellation.
 

 

“Safe continuation of surgery and gastrointestinal endoscopy, and prevention of procedure cancellation, for patients on GLP-1 RAs can be prioritized following the recommendations above, as would occur for other patient populations with gastroparesis,” the guidance panel wrote.

 

Digestive Health Center of Huntington
Dr. David B. Purow

Commenting on the statement but not involved in it, David B. Purow, MD, managing director of the Digestive Health Center at Northwell Health/Huntington Hospital in Huntington, New York, said the recommendations will encourage clinicians to be more discerning about actual risk in individual cases rather than follow the previous blanket recommendation to stop these agents before procedures requiring sedation. 

While GLP-1 RAs were prescribed for the relatively small number of patients with diabetes, he said, the risk was not apparent but became clearer with the widespread use of these agents for weight loss — often unregulated and undisclosed to care providers.

“The pendulum shifted too far the other way, and now it’s shifted back,” he said in an interview. “The new guidance is great because now we can be more thoughtful about managing individual patients.” He cited, for instance, the recommendations on the greater risk in patients in the dose escalation phase or on higher doses, and the risk-reducing measure of a liquid diet for 24 hours before surgery.

His center is already using point-of-care ultrasound and recently had a case in which a patient who forgot and took his GLP-1 RA before a scheduled procedure was found on ultrasound to have a full stomach. “In some cases, these drugs can cause an almost gastroparesis level of delayed emptying,” Purow said.

Purow thinks this early guidance will probably progress to firm guidelines within a year. Schulman is more cautious. “Our understanding of this complex topic is increasing rapidly, and ongoing clinical research will ultimately lead to evidence-based guidelines in this changing landscape,” she said.

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Schulman is a consultant for Apollo Endosurgery, Boston Scientific, Olympus, Microtech, and Fractyl. Purow had no competing interests to declare.

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

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The majority of patients may safely take glucagon-like peptide 1 receptor agonists (GLP-1 RAs) before elective surgery and gastrointestinal endoscopies, according to updated guidance from five medical societies.

The new guidance, contrasting with earlier recommendations, says these incrementally used agents can be taken up until the day of surgery, but patients are advised to follow a liquid diet for 24 hours before the procedure. The decision to proceed with endoscopy and other procedures should be based on shared decision-making with the patient and interdisciplinary care teams in conjunction with minimization of the aspiration risk from delayed gastric emptying, the guidance stresses.

The five endorsing organizations are the American Society for Metabolic and Bariatric Surgery, American Society of Anesthesiologists (ASA), American Gastroenterological Association, International Society of Perioperative Care of Patients with Obesity, and Society of American Gastrointestinal and Endoscopic Surgeons. The societies emphasize that the statement is intended as guidance only and is not an evidence-based formal guideline.

GLP-1 RAs are known to delay gastric emptying, raising concerns about regurgitation, aspiration, and airway compromise during anesthesia. Rare serious adverse events have also been observed, prompting the ASA in 2023 to recommend holding these agents for 1 week for the injectable form and 1 day for the oral form before all procedures requiring anesthesia. 

 

University of Michigan
Dr. Allison R. Schulman

That abundance of caution, however, had negative impacts of its own. “This guidance has led to cancellations and postponements of many endoscopic and surgical procedures or required patients to undergo general anesthesia who may otherwise have had their procedures performed under moderate sedation,” said guidance coauthor Allison R. Schulman, MD, MPH, an associate professor of medicine and surgery and chief of endoscopy at the University of Michigan in Ann Arbor. “Nearly all institutions have been forced to revise preprocedural protocols, despite a lack of high-level evidence to suggest that these adjustments are necessary.”

“Studies have yielded mixed results as to whether patients on GLP-1s are at increased risk of these events, and the limited data available are inconsistent,” Schulman said. “As a result, there are inconsistencies in the recommendations from various societies leading to growing uncertainty with proceduralists on how to provide safe, effective, and timely procedural care to patients taking GLP-1 RAs.”

The new joint-society guidance may alleviate some of the uncertainty. Among the recommendations:

  • Continuing GLP-1 RAs in the perioperative period should be based on shared decision-making with the patient and all care teams balancing the metabolic need for the GLP-1 RA with individual patient risk.
  • Certain variables may increase the risk for delayed gastric emptying and aspiration with the periprocedural use of GLP-1 RAs: escalation phase — This phase vs the maintenance phase is associated with a higher risk for delayed gastric emptying; higher dose — the higher the dose, the greater the risk for gastrointestinal (GI) side effects; weekly dosing — GI side effects are more common with weekly vs daily formulations; presence of GI symptoms — nausea, vomiting, abdominal pain, dyspepsia, and constipation may suggest delayed gastric emptying; and medical problems beyond GLP-1 RA indications with GI effects — assess for such conditions as bowel dysmotility, gastroparesis, and Parkinson’s disease.
  • Risk factors should be assessed in advance to allow sufficient time to adjust preoperative care, including diet modification and medication bridging if GLP-1 RA cessation is deemed advisable.
  • If retained gastric contents are a concern on the day of a procedure, point-of-care gastric ultrasound could be used to assess aspiration risk, resources permitting.
  • The aspiration risk from delayed gastric emptying should be minimized by preoperative diet modification and/or altering the anesthesia plan to consider rapid sequence induction of general anesthesia for tracheal intubation. A 24-hour preoperative liquid diet, as before colonoscopy and bariatric surgery, can be utilized when delayed gastric emptying is a concern.
  • When concern about retained gastric contents exists on procedure day, providers should engage patients in a shared decision-making model and consider the benefits and risks of rapid-sequence induction of general anesthesia for tracheal intubation to minimize aspiration risk vs procedure cancellation.
 

 

“Safe continuation of surgery and gastrointestinal endoscopy, and prevention of procedure cancellation, for patients on GLP-1 RAs can be prioritized following the recommendations above, as would occur for other patient populations with gastroparesis,” the guidance panel wrote.

 

Digestive Health Center of Huntington
Dr. David B. Purow

Commenting on the statement but not involved in it, David B. Purow, MD, managing director of the Digestive Health Center at Northwell Health/Huntington Hospital in Huntington, New York, said the recommendations will encourage clinicians to be more discerning about actual risk in individual cases rather than follow the previous blanket recommendation to stop these agents before procedures requiring sedation. 

While GLP-1 RAs were prescribed for the relatively small number of patients with diabetes, he said, the risk was not apparent but became clearer with the widespread use of these agents for weight loss — often unregulated and undisclosed to care providers.

“The pendulum shifted too far the other way, and now it’s shifted back,” he said in an interview. “The new guidance is great because now we can be more thoughtful about managing individual patients.” He cited, for instance, the recommendations on the greater risk in patients in the dose escalation phase or on higher doses, and the risk-reducing measure of a liquid diet for 24 hours before surgery.

His center is already using point-of-care ultrasound and recently had a case in which a patient who forgot and took his GLP-1 RA before a scheduled procedure was found on ultrasound to have a full stomach. “In some cases, these drugs can cause an almost gastroparesis level of delayed emptying,” Purow said.

Purow thinks this early guidance will probably progress to firm guidelines within a year. Schulman is more cautious. “Our understanding of this complex topic is increasing rapidly, and ongoing clinical research will ultimately lead to evidence-based guidelines in this changing landscape,” she said.

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Schulman is a consultant for Apollo Endosurgery, Boston Scientific, Olympus, Microtech, and Fractyl. Purow had no competing interests to declare.

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

The majority of patients may safely take glucagon-like peptide 1 receptor agonists (GLP-1 RAs) before elective surgery and gastrointestinal endoscopies, according to updated guidance from five medical societies.

The new guidance, contrasting with earlier recommendations, says these incrementally used agents can be taken up until the day of surgery, but patients are advised to follow a liquid diet for 24 hours before the procedure. The decision to proceed with endoscopy and other procedures should be based on shared decision-making with the patient and interdisciplinary care teams in conjunction with minimization of the aspiration risk from delayed gastric emptying, the guidance stresses.

The five endorsing organizations are the American Society for Metabolic and Bariatric Surgery, American Society of Anesthesiologists (ASA), American Gastroenterological Association, International Society of Perioperative Care of Patients with Obesity, and Society of American Gastrointestinal and Endoscopic Surgeons. The societies emphasize that the statement is intended as guidance only and is not an evidence-based formal guideline.

GLP-1 RAs are known to delay gastric emptying, raising concerns about regurgitation, aspiration, and airway compromise during anesthesia. Rare serious adverse events have also been observed, prompting the ASA in 2023 to recommend holding these agents for 1 week for the injectable form and 1 day for the oral form before all procedures requiring anesthesia. 

 

University of Michigan
Dr. Allison R. Schulman

That abundance of caution, however, had negative impacts of its own. “This guidance has led to cancellations and postponements of many endoscopic and surgical procedures or required patients to undergo general anesthesia who may otherwise have had their procedures performed under moderate sedation,” said guidance coauthor Allison R. Schulman, MD, MPH, an associate professor of medicine and surgery and chief of endoscopy at the University of Michigan in Ann Arbor. “Nearly all institutions have been forced to revise preprocedural protocols, despite a lack of high-level evidence to suggest that these adjustments are necessary.”

“Studies have yielded mixed results as to whether patients on GLP-1s are at increased risk of these events, and the limited data available are inconsistent,” Schulman said. “As a result, there are inconsistencies in the recommendations from various societies leading to growing uncertainty with proceduralists on how to provide safe, effective, and timely procedural care to patients taking GLP-1 RAs.”

The new joint-society guidance may alleviate some of the uncertainty. Among the recommendations:

  • Continuing GLP-1 RAs in the perioperative period should be based on shared decision-making with the patient and all care teams balancing the metabolic need for the GLP-1 RA with individual patient risk.
  • Certain variables may increase the risk for delayed gastric emptying and aspiration with the periprocedural use of GLP-1 RAs: escalation phase — This phase vs the maintenance phase is associated with a higher risk for delayed gastric emptying; higher dose — the higher the dose, the greater the risk for gastrointestinal (GI) side effects; weekly dosing — GI side effects are more common with weekly vs daily formulations; presence of GI symptoms — nausea, vomiting, abdominal pain, dyspepsia, and constipation may suggest delayed gastric emptying; and medical problems beyond GLP-1 RA indications with GI effects — assess for such conditions as bowel dysmotility, gastroparesis, and Parkinson’s disease.
  • Risk factors should be assessed in advance to allow sufficient time to adjust preoperative care, including diet modification and medication bridging if GLP-1 RA cessation is deemed advisable.
  • If retained gastric contents are a concern on the day of a procedure, point-of-care gastric ultrasound could be used to assess aspiration risk, resources permitting.
  • The aspiration risk from delayed gastric emptying should be minimized by preoperative diet modification and/or altering the anesthesia plan to consider rapid sequence induction of general anesthesia for tracheal intubation. A 24-hour preoperative liquid diet, as before colonoscopy and bariatric surgery, can be utilized when delayed gastric emptying is a concern.
  • When concern about retained gastric contents exists on procedure day, providers should engage patients in a shared decision-making model and consider the benefits and risks of rapid-sequence induction of general anesthesia for tracheal intubation to minimize aspiration risk vs procedure cancellation.
 

 

“Safe continuation of surgery and gastrointestinal endoscopy, and prevention of procedure cancellation, for patients on GLP-1 RAs can be prioritized following the recommendations above, as would occur for other patient populations with gastroparesis,” the guidance panel wrote.

 

Digestive Health Center of Huntington
Dr. David B. Purow

Commenting on the statement but not involved in it, David B. Purow, MD, managing director of the Digestive Health Center at Northwell Health/Huntington Hospital in Huntington, New York, said the recommendations will encourage clinicians to be more discerning about actual risk in individual cases rather than follow the previous blanket recommendation to stop these agents before procedures requiring sedation. 

While GLP-1 RAs were prescribed for the relatively small number of patients with diabetes, he said, the risk was not apparent but became clearer with the widespread use of these agents for weight loss — often unregulated and undisclosed to care providers.

“The pendulum shifted too far the other way, and now it’s shifted back,” he said in an interview. “The new guidance is great because now we can be more thoughtful about managing individual patients.” He cited, for instance, the recommendations on the greater risk in patients in the dose escalation phase or on higher doses, and the risk-reducing measure of a liquid diet for 24 hours before surgery.

His center is already using point-of-care ultrasound and recently had a case in which a patient who forgot and took his GLP-1 RA before a scheduled procedure was found on ultrasound to have a full stomach. “In some cases, these drugs can cause an almost gastroparesis level of delayed emptying,” Purow said.

Purow thinks this early guidance will probably progress to firm guidelines within a year. Schulman is more cautious. “Our understanding of this complex topic is increasing rapidly, and ongoing clinical research will ultimately lead to evidence-based guidelines in this changing landscape,” she said.

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Schulman is a consultant for Apollo Endosurgery, Boston Scientific, Olympus, Microtech, and Fractyl. Purow had no competing interests to declare.

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

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