User login
Bringing you the latest news, research and reviews, exclusive interviews, podcasts, quizzes, and more.
div[contains(@class, 'header__large-screen')]
div[contains(@class, 'read-next-article')]
div[contains(@class, 'nav-primary')]
nav[contains(@class, 'nav-primary')]
section[contains(@class, 'footer-nav-section-wrapper')]
footer[@id='footer']
div[contains(@class, 'main-prefix')]
section[contains(@class, 'nav-hidden')]
div[contains(@class, 'ce-card-content')]
nav[contains(@class, 'nav-ce-stack')]
Whether GLP-1 RAs Significantly Delay Gastric Emptying Called into Question
TOPLINE:
Patients taking a glucagon-like peptide 1 receptor agonist (GLP-1 RA) experience only a modest delay in gastric emptying of solid foods and no significant delay for liquids, compared with those receiving placebo, indicating that patients may not need to discontinue these medications before surgery.
METHODOLOGY:
- GLP-1 RAs, while effective in managing diabetes and obesity, are linked to delayed gastric emptying, which may pose risks during procedures requiring anesthesia or sedation due to potential aspiration of gastric contents.
- Researchers conducted a meta-analysis to quantify the duration of delay in gastric emptying caused by GLP-1 RAs in patients with diabetes and/or excessive body weight, which could guide periprocedural management decisions in the future.
- The primary outcome was halftime, the time required for 50% of solid gastric contents to empty, measured using scintigraphy. This analysis included data from five studies involving 247 patients who received either a GLP-1 RA or placebo.
- The secondary outcome was gastric emptying of liquids measured using the acetaminophen absorption test. Ten studies including 411 patients who received either a GLP-1 RA or placebo were included in this analysis.
TAKEAWAY:
- The mean gastric emptying halftime for solid foods was 138.4 minutes with a GLP-1 RA and 95.0 minutes with placebo, resulting in a pooled mean difference of 36.0 minutes (P < .01).
- Furthermore, the amount of gastric emptying noted at 4 or 5 hours on the acetaminophen absorption test was comparable between these groups.
- The gastric emptying time for both solids and liquids did not differ between GLP-1 RA formulations or between short-acting or long-acting GLP-1 RAs.
IN PRACTICE:
“Based on current evidence, a conservative approach with a liquid diet on the day before procedures while continuing GLP-1 RA therapy would represent the most sensible approach until more conclusive data on a solid diet are available,” the authors wrote.
SOURCE:
The study, led by Brent Hiramoto, MD, MPH, of the Center for Gastrointestinal Motility at Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in The American Journal of Gastroenterology.
LIMITATIONS:
The small number of studies utilizing some diagnostic modalities, such as breath testing, precluded a formal meta-analysis of these subgroups. The results could not be stratified by indication for GLP-1 RA (diabetes or obesity) because of insufficient studies in each category.
DISCLOSURES:
The lead author was supported by the National Institute of Diabetes and Digestive and Kidney Diseases. One author declared serving on the advisory boards of three pharmaceutical companies.
A version of this article first appeared on Medscape.com.
TOPLINE:
Patients taking a glucagon-like peptide 1 receptor agonist (GLP-1 RA) experience only a modest delay in gastric emptying of solid foods and no significant delay for liquids, compared with those receiving placebo, indicating that patients may not need to discontinue these medications before surgery.
METHODOLOGY:
- GLP-1 RAs, while effective in managing diabetes and obesity, are linked to delayed gastric emptying, which may pose risks during procedures requiring anesthesia or sedation due to potential aspiration of gastric contents.
- Researchers conducted a meta-analysis to quantify the duration of delay in gastric emptying caused by GLP-1 RAs in patients with diabetes and/or excessive body weight, which could guide periprocedural management decisions in the future.
- The primary outcome was halftime, the time required for 50% of solid gastric contents to empty, measured using scintigraphy. This analysis included data from five studies involving 247 patients who received either a GLP-1 RA or placebo.
- The secondary outcome was gastric emptying of liquids measured using the acetaminophen absorption test. Ten studies including 411 patients who received either a GLP-1 RA or placebo were included in this analysis.
TAKEAWAY:
- The mean gastric emptying halftime for solid foods was 138.4 minutes with a GLP-1 RA and 95.0 minutes with placebo, resulting in a pooled mean difference of 36.0 minutes (P < .01).
- Furthermore, the amount of gastric emptying noted at 4 or 5 hours on the acetaminophen absorption test was comparable between these groups.
- The gastric emptying time for both solids and liquids did not differ between GLP-1 RA formulations or between short-acting or long-acting GLP-1 RAs.
IN PRACTICE:
“Based on current evidence, a conservative approach with a liquid diet on the day before procedures while continuing GLP-1 RA therapy would represent the most sensible approach until more conclusive data on a solid diet are available,” the authors wrote.
SOURCE:
The study, led by Brent Hiramoto, MD, MPH, of the Center for Gastrointestinal Motility at Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in The American Journal of Gastroenterology.
LIMITATIONS:
The small number of studies utilizing some diagnostic modalities, such as breath testing, precluded a formal meta-analysis of these subgroups. The results could not be stratified by indication for GLP-1 RA (diabetes or obesity) because of insufficient studies in each category.
DISCLOSURES:
The lead author was supported by the National Institute of Diabetes and Digestive and Kidney Diseases. One author declared serving on the advisory boards of three pharmaceutical companies.
A version of this article first appeared on Medscape.com.
TOPLINE:
Patients taking a glucagon-like peptide 1 receptor agonist (GLP-1 RA) experience only a modest delay in gastric emptying of solid foods and no significant delay for liquids, compared with those receiving placebo, indicating that patients may not need to discontinue these medications before surgery.
METHODOLOGY:
- GLP-1 RAs, while effective in managing diabetes and obesity, are linked to delayed gastric emptying, which may pose risks during procedures requiring anesthesia or sedation due to potential aspiration of gastric contents.
- Researchers conducted a meta-analysis to quantify the duration of delay in gastric emptying caused by GLP-1 RAs in patients with diabetes and/or excessive body weight, which could guide periprocedural management decisions in the future.
- The primary outcome was halftime, the time required for 50% of solid gastric contents to empty, measured using scintigraphy. This analysis included data from five studies involving 247 patients who received either a GLP-1 RA or placebo.
- The secondary outcome was gastric emptying of liquids measured using the acetaminophen absorption test. Ten studies including 411 patients who received either a GLP-1 RA or placebo were included in this analysis.
TAKEAWAY:
- The mean gastric emptying halftime for solid foods was 138.4 minutes with a GLP-1 RA and 95.0 minutes with placebo, resulting in a pooled mean difference of 36.0 minutes (P < .01).
- Furthermore, the amount of gastric emptying noted at 4 or 5 hours on the acetaminophen absorption test was comparable between these groups.
- The gastric emptying time for both solids and liquids did not differ between GLP-1 RA formulations or between short-acting or long-acting GLP-1 RAs.
IN PRACTICE:
“Based on current evidence, a conservative approach with a liquid diet on the day before procedures while continuing GLP-1 RA therapy would represent the most sensible approach until more conclusive data on a solid diet are available,” the authors wrote.
SOURCE:
The study, led by Brent Hiramoto, MD, MPH, of the Center for Gastrointestinal Motility at Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in The American Journal of Gastroenterology.
LIMITATIONS:
The small number of studies utilizing some diagnostic modalities, such as breath testing, precluded a formal meta-analysis of these subgroups. The results could not be stratified by indication for GLP-1 RA (diabetes or obesity) because of insufficient studies in each category.
DISCLOSURES:
The lead author was supported by the National Institute of Diabetes and Digestive and Kidney Diseases. One author declared serving on the advisory boards of three pharmaceutical companies.
A version of this article first appeared on Medscape.com.
A Doctor’s Guide to Relocation
Moving for any new opportunity in medicine can feel like starting a new life, not just a new job. This is especially true for residency or fellowships, as taking a step forward in your career is exciting. But in the process, you may be leaving family and friends for an unknown city or region where you will need to find a community. And the changes could be long-term. According to the Association of American Medical Colleges’ 2023 Report on Residents, 57.1% of the individuals who completed residency training between 2013 and 2022 are still practicing in the state where they completed their residency.
The process of planning out the right timeline; securing a comfortable, convenient, and affordable place to live; and meeting people while working long hours in an unfamiliar location can be overwhelming. And in the case of many residency programs and healthcare settings, financial assistance, relocation information, and other resources are scarce.
This news organization spoke to recent residents and medical school faculty members about how to navigate a medical move and set yourself up for success.
1. Find Relocation Resources
First things first. Find out what your program or hospital has to offer.
Some institutions help incoming residents by providing housing options or information. The Icahn School of Medicine at Mount Sinai’s Real Estate Division, for example, provides off-campus housing resources that guide new residents and faculty toward safe, convenient places to live in New York City. It also guarantees on-campus or block-leased housing offers to all incoming residents who apply.
Michael Leitman, MD, FACS, professor of surgery and medical education and dean for Graduate Medical Education at the Icahn School of Medicine at Mount Sinai in New York City, recommends connecting with colleagues at your program for guidance on navigating a new city and a new healthcare setting. He encourages incoming residents to use the contact information they receive during the interview and orientation processes to reach out to co-residents and faculty members.
Other residency programs offer partial reimbursement or need-based financial aid to help with the expense of relocation. But this is unlikely to cover all or even most of the cost of a cross-country move.
When Morgen Owens, MD, moved from Alabama to New York City for a physical medicine and rehabilitation residency at Mount Sinai in 2021, her program offered subsidized housing options. But there was little reimbursement for relocation. She paid around $3000 for a one-way rental truck, gas, one night in a hotel, and movers to unload her belongings. She says driving herself kept the price down because full-service movers would have cost her between $4000 and $6000.
If this will strain your finances, several banks offer loans specifically for medical school graduates to cover residency and internship expenses. But be aware that these loans tend to have higher interest rates than federal student loans because they are based on credit score rather than fixed.
2. Reach Out and Buddy Up
Reaching out to more senior residents is essential, and some programs facilitate a buddy system for relocation advice.
Family physician Mursal Sekandari, MD, known as “Dr. Mursi,” attended a residency program at St. Luke’s University Hospital–Bethlehem Campus, in Bethlehem, Pennsylvania. The program’s official buddy system paired her with a senior resident who advised her on the area and gave tips for her apartment search.
On the other hand, when America Revere, MD, moved from Texas to Georgia for a surgery residency, she found that her program offered little relocation assistance, financial or otherwise. She leaned on her co-residents, and especially senior ones, for support while she settled in.
Dr. Revere also discovered the importance of accepting invitations to events hosted by both her fellow residents and her program itself, especially in the early stages of residency. “Accepting social invitations is really the only way to get to know people,” she said. “Sure, you’ll meet people at work and get to know their ‘work’ personalities.” But Dr. Revere’s attendings also threw parties, which she says were a great way to connect with a wider group and build a community.
To meet people both within and beyond her own residency program, Dr. Owens joined a group chat for physical medicine and rehab residents in the New York City area. She suggests looking into GroupMe or WhatsApp groups specific to your specialty.
3. Play the ‘Doctor Card’
Finding a place to live in an unfamiliar and competitive housing market can be one of the biggest challenges of any move. Dr. Owens’ options were limited by owning a dog, which wouldn’t be allowed in her hospital’s subsidized housing. Instead, she opted to find her own apartment in New York City. Her strategy: Playing the “doctor card.”
“I explained my situation: ‘I’m a doctor moving from out of state,’ ” Owens said. “Own that! These companies and brokers will look at you as a student and think, ‘Oh, she has no money, she has no savings, she’s got all of these loans, how is she going to pay for this apartment?’ But you have to say, ‘I’m a doctor. I’m an incoming resident who has X amount of years of job security. I’m not going to lose my job while living here.’ ”
4. Move Early
Dr. Revere found it important to move into her new home 2 weeks before the start of her residency program. Moving in early allowed her to settle in, get to know her area, neighbors, and co-residents, and generally prepare for her first day. It also gave her time to put furniture together — her new vanity alone took 12 hours.
Having a larger window of time before residency can also benefit those who hire movers or have their furniture shipped. When it comes to a cross-country move, it can take a few days to a few weeks for the truck to arrive — which could translate to a few nights or a few weeks without a bed.
“When residency comes, it comes fast,” Dr. Revere said. “It’s very confusing, and the last thing you need is to have half of your stuff unpacked or have no idea where you are or know nobody around you.”
5. Make Your New Home Your Sanctuary
During the stress of residency, your home can be a source of peace, and finding that might require trade-offs.
Dr. Sekandari’s parents urged her to live with roommates to save money on rent, but she insisted that spending more for solitude would be worth it. For her first year of residency, she barely saw her apartment. But when she did, she felt grateful to be in such a tranquil place to ease some of the stress of studying. “If you feel uncomfortable while you’re dealing with something stressful, the stress just exponentially increases,” she said. Creating an environment where you can really relax “makes a difference in how you respond to everything else around you.”
Dr. Revere agrees, urging medical professionals — and particularly residents — to invest in the most comfortable mattresses and bedding they can. Whether you are working nights, she also recommends blackout curtains to help facilitate daytime naps or better sleep in general, especially among the bright lights of bigger cities.
“You’re going to need somewhere to decompress,” she said. “That will look different for everyone. But I would definitely invest in your apartment to make it a sanctuary away from work.”
6. Consider a ‘Live’ Stress Reliever
When it comes to crucial stress relief during residency, “I like mine live,” Dr. Revere said in a YouTube vlog while petting her cat, Calyx.
Taking on the added responsibility of a pet during residency or any medical role may seem counterintuitive. But Revere has zero regrets about bringing Calyx along on her journey. “Cats are very easy,” she said. “I have nothing but wonderful things to say about having a cat during my difficult surgical residency.”
Dr. Owens admits that moving to New York City with her dog was difficult during her first years of residency. She worked an average of 80 hours each week and had little time for walks. She made room in her budget for dog walkers. Thankfully, her hours have eased up as she has progressed through her program, and she can now take her dog on longer walks every day. “He definitely has a better life now that I work fewer hours,” she said.
Once you’ve prepared, made the move, and found your village, it’s time for the real work to begin. “The first couple of months are certainly a challenge of adjusting to a new hospital, a new electronic medical record, a new culture, and a new geographic location,” said Dr. Leitman, who has relocated several times. “But at the end of the day ... it’s you and the patient.” By minimizing stress and getting the support you need, it can even be “a fun process,” Dr. Mursi added, “so make it an exciting chapter in your life.”
A version of this article first appeared on Medscape.com.
Moving for any new opportunity in medicine can feel like starting a new life, not just a new job. This is especially true for residency or fellowships, as taking a step forward in your career is exciting. But in the process, you may be leaving family and friends for an unknown city or region where you will need to find a community. And the changes could be long-term. According to the Association of American Medical Colleges’ 2023 Report on Residents, 57.1% of the individuals who completed residency training between 2013 and 2022 are still practicing in the state where they completed their residency.
The process of planning out the right timeline; securing a comfortable, convenient, and affordable place to live; and meeting people while working long hours in an unfamiliar location can be overwhelming. And in the case of many residency programs and healthcare settings, financial assistance, relocation information, and other resources are scarce.
This news organization spoke to recent residents and medical school faculty members about how to navigate a medical move and set yourself up for success.
1. Find Relocation Resources
First things first. Find out what your program or hospital has to offer.
Some institutions help incoming residents by providing housing options or information. The Icahn School of Medicine at Mount Sinai’s Real Estate Division, for example, provides off-campus housing resources that guide new residents and faculty toward safe, convenient places to live in New York City. It also guarantees on-campus or block-leased housing offers to all incoming residents who apply.
Michael Leitman, MD, FACS, professor of surgery and medical education and dean for Graduate Medical Education at the Icahn School of Medicine at Mount Sinai in New York City, recommends connecting with colleagues at your program for guidance on navigating a new city and a new healthcare setting. He encourages incoming residents to use the contact information they receive during the interview and orientation processes to reach out to co-residents and faculty members.
Other residency programs offer partial reimbursement or need-based financial aid to help with the expense of relocation. But this is unlikely to cover all or even most of the cost of a cross-country move.
When Morgen Owens, MD, moved from Alabama to New York City for a physical medicine and rehabilitation residency at Mount Sinai in 2021, her program offered subsidized housing options. But there was little reimbursement for relocation. She paid around $3000 for a one-way rental truck, gas, one night in a hotel, and movers to unload her belongings. She says driving herself kept the price down because full-service movers would have cost her between $4000 and $6000.
If this will strain your finances, several banks offer loans specifically for medical school graduates to cover residency and internship expenses. But be aware that these loans tend to have higher interest rates than federal student loans because they are based on credit score rather than fixed.
2. Reach Out and Buddy Up
Reaching out to more senior residents is essential, and some programs facilitate a buddy system for relocation advice.
Family physician Mursal Sekandari, MD, known as “Dr. Mursi,” attended a residency program at St. Luke’s University Hospital–Bethlehem Campus, in Bethlehem, Pennsylvania. The program’s official buddy system paired her with a senior resident who advised her on the area and gave tips for her apartment search.
On the other hand, when America Revere, MD, moved from Texas to Georgia for a surgery residency, she found that her program offered little relocation assistance, financial or otherwise. She leaned on her co-residents, and especially senior ones, for support while she settled in.
Dr. Revere also discovered the importance of accepting invitations to events hosted by both her fellow residents and her program itself, especially in the early stages of residency. “Accepting social invitations is really the only way to get to know people,” she said. “Sure, you’ll meet people at work and get to know their ‘work’ personalities.” But Dr. Revere’s attendings also threw parties, which she says were a great way to connect with a wider group and build a community.
To meet people both within and beyond her own residency program, Dr. Owens joined a group chat for physical medicine and rehab residents in the New York City area. She suggests looking into GroupMe or WhatsApp groups specific to your specialty.
3. Play the ‘Doctor Card’
Finding a place to live in an unfamiliar and competitive housing market can be one of the biggest challenges of any move. Dr. Owens’ options were limited by owning a dog, which wouldn’t be allowed in her hospital’s subsidized housing. Instead, she opted to find her own apartment in New York City. Her strategy: Playing the “doctor card.”
“I explained my situation: ‘I’m a doctor moving from out of state,’ ” Owens said. “Own that! These companies and brokers will look at you as a student and think, ‘Oh, she has no money, she has no savings, she’s got all of these loans, how is she going to pay for this apartment?’ But you have to say, ‘I’m a doctor. I’m an incoming resident who has X amount of years of job security. I’m not going to lose my job while living here.’ ”
4. Move Early
Dr. Revere found it important to move into her new home 2 weeks before the start of her residency program. Moving in early allowed her to settle in, get to know her area, neighbors, and co-residents, and generally prepare for her first day. It also gave her time to put furniture together — her new vanity alone took 12 hours.
Having a larger window of time before residency can also benefit those who hire movers or have their furniture shipped. When it comes to a cross-country move, it can take a few days to a few weeks for the truck to arrive — which could translate to a few nights or a few weeks without a bed.
“When residency comes, it comes fast,” Dr. Revere said. “It’s very confusing, and the last thing you need is to have half of your stuff unpacked or have no idea where you are or know nobody around you.”
5. Make Your New Home Your Sanctuary
During the stress of residency, your home can be a source of peace, and finding that might require trade-offs.
Dr. Sekandari’s parents urged her to live with roommates to save money on rent, but she insisted that spending more for solitude would be worth it. For her first year of residency, she barely saw her apartment. But when she did, she felt grateful to be in such a tranquil place to ease some of the stress of studying. “If you feel uncomfortable while you’re dealing with something stressful, the stress just exponentially increases,” she said. Creating an environment where you can really relax “makes a difference in how you respond to everything else around you.”
Dr. Revere agrees, urging medical professionals — and particularly residents — to invest in the most comfortable mattresses and bedding they can. Whether you are working nights, she also recommends blackout curtains to help facilitate daytime naps or better sleep in general, especially among the bright lights of bigger cities.
“You’re going to need somewhere to decompress,” she said. “That will look different for everyone. But I would definitely invest in your apartment to make it a sanctuary away from work.”
6. Consider a ‘Live’ Stress Reliever
When it comes to crucial stress relief during residency, “I like mine live,” Dr. Revere said in a YouTube vlog while petting her cat, Calyx.
Taking on the added responsibility of a pet during residency or any medical role may seem counterintuitive. But Revere has zero regrets about bringing Calyx along on her journey. “Cats are very easy,” she said. “I have nothing but wonderful things to say about having a cat during my difficult surgical residency.”
Dr. Owens admits that moving to New York City with her dog was difficult during her first years of residency. She worked an average of 80 hours each week and had little time for walks. She made room in her budget for dog walkers. Thankfully, her hours have eased up as she has progressed through her program, and she can now take her dog on longer walks every day. “He definitely has a better life now that I work fewer hours,” she said.
Once you’ve prepared, made the move, and found your village, it’s time for the real work to begin. “The first couple of months are certainly a challenge of adjusting to a new hospital, a new electronic medical record, a new culture, and a new geographic location,” said Dr. Leitman, who has relocated several times. “But at the end of the day ... it’s you and the patient.” By minimizing stress and getting the support you need, it can even be “a fun process,” Dr. Mursi added, “so make it an exciting chapter in your life.”
A version of this article first appeared on Medscape.com.
Moving for any new opportunity in medicine can feel like starting a new life, not just a new job. This is especially true for residency or fellowships, as taking a step forward in your career is exciting. But in the process, you may be leaving family and friends for an unknown city or region where you will need to find a community. And the changes could be long-term. According to the Association of American Medical Colleges’ 2023 Report on Residents, 57.1% of the individuals who completed residency training between 2013 and 2022 are still practicing in the state where they completed their residency.
The process of planning out the right timeline; securing a comfortable, convenient, and affordable place to live; and meeting people while working long hours in an unfamiliar location can be overwhelming. And in the case of many residency programs and healthcare settings, financial assistance, relocation information, and other resources are scarce.
This news organization spoke to recent residents and medical school faculty members about how to navigate a medical move and set yourself up for success.
1. Find Relocation Resources
First things first. Find out what your program or hospital has to offer.
Some institutions help incoming residents by providing housing options or information. The Icahn School of Medicine at Mount Sinai’s Real Estate Division, for example, provides off-campus housing resources that guide new residents and faculty toward safe, convenient places to live in New York City. It also guarantees on-campus or block-leased housing offers to all incoming residents who apply.
Michael Leitman, MD, FACS, professor of surgery and medical education and dean for Graduate Medical Education at the Icahn School of Medicine at Mount Sinai in New York City, recommends connecting with colleagues at your program for guidance on navigating a new city and a new healthcare setting. He encourages incoming residents to use the contact information they receive during the interview and orientation processes to reach out to co-residents and faculty members.
Other residency programs offer partial reimbursement or need-based financial aid to help with the expense of relocation. But this is unlikely to cover all or even most of the cost of a cross-country move.
When Morgen Owens, MD, moved from Alabama to New York City for a physical medicine and rehabilitation residency at Mount Sinai in 2021, her program offered subsidized housing options. But there was little reimbursement for relocation. She paid around $3000 for a one-way rental truck, gas, one night in a hotel, and movers to unload her belongings. She says driving herself kept the price down because full-service movers would have cost her between $4000 and $6000.
If this will strain your finances, several banks offer loans specifically for medical school graduates to cover residency and internship expenses. But be aware that these loans tend to have higher interest rates than federal student loans because they are based on credit score rather than fixed.
2. Reach Out and Buddy Up
Reaching out to more senior residents is essential, and some programs facilitate a buddy system for relocation advice.
Family physician Mursal Sekandari, MD, known as “Dr. Mursi,” attended a residency program at St. Luke’s University Hospital–Bethlehem Campus, in Bethlehem, Pennsylvania. The program’s official buddy system paired her with a senior resident who advised her on the area and gave tips for her apartment search.
On the other hand, when America Revere, MD, moved from Texas to Georgia for a surgery residency, she found that her program offered little relocation assistance, financial or otherwise. She leaned on her co-residents, and especially senior ones, for support while she settled in.
Dr. Revere also discovered the importance of accepting invitations to events hosted by both her fellow residents and her program itself, especially in the early stages of residency. “Accepting social invitations is really the only way to get to know people,” she said. “Sure, you’ll meet people at work and get to know their ‘work’ personalities.” But Dr. Revere’s attendings also threw parties, which she says were a great way to connect with a wider group and build a community.
To meet people both within and beyond her own residency program, Dr. Owens joined a group chat for physical medicine and rehab residents in the New York City area. She suggests looking into GroupMe or WhatsApp groups specific to your specialty.
3. Play the ‘Doctor Card’
Finding a place to live in an unfamiliar and competitive housing market can be one of the biggest challenges of any move. Dr. Owens’ options were limited by owning a dog, which wouldn’t be allowed in her hospital’s subsidized housing. Instead, she opted to find her own apartment in New York City. Her strategy: Playing the “doctor card.”
“I explained my situation: ‘I’m a doctor moving from out of state,’ ” Owens said. “Own that! These companies and brokers will look at you as a student and think, ‘Oh, she has no money, she has no savings, she’s got all of these loans, how is she going to pay for this apartment?’ But you have to say, ‘I’m a doctor. I’m an incoming resident who has X amount of years of job security. I’m not going to lose my job while living here.’ ”
4. Move Early
Dr. Revere found it important to move into her new home 2 weeks before the start of her residency program. Moving in early allowed her to settle in, get to know her area, neighbors, and co-residents, and generally prepare for her first day. It also gave her time to put furniture together — her new vanity alone took 12 hours.
Having a larger window of time before residency can also benefit those who hire movers or have their furniture shipped. When it comes to a cross-country move, it can take a few days to a few weeks for the truck to arrive — which could translate to a few nights or a few weeks without a bed.
“When residency comes, it comes fast,” Dr. Revere said. “It’s very confusing, and the last thing you need is to have half of your stuff unpacked or have no idea where you are or know nobody around you.”
5. Make Your New Home Your Sanctuary
During the stress of residency, your home can be a source of peace, and finding that might require trade-offs.
Dr. Sekandari’s parents urged her to live with roommates to save money on rent, but she insisted that spending more for solitude would be worth it. For her first year of residency, she barely saw her apartment. But when she did, she felt grateful to be in such a tranquil place to ease some of the stress of studying. “If you feel uncomfortable while you’re dealing with something stressful, the stress just exponentially increases,” she said. Creating an environment where you can really relax “makes a difference in how you respond to everything else around you.”
Dr. Revere agrees, urging medical professionals — and particularly residents — to invest in the most comfortable mattresses and bedding they can. Whether you are working nights, she also recommends blackout curtains to help facilitate daytime naps or better sleep in general, especially among the bright lights of bigger cities.
“You’re going to need somewhere to decompress,” she said. “That will look different for everyone. But I would definitely invest in your apartment to make it a sanctuary away from work.”
6. Consider a ‘Live’ Stress Reliever
When it comes to crucial stress relief during residency, “I like mine live,” Dr. Revere said in a YouTube vlog while petting her cat, Calyx.
Taking on the added responsibility of a pet during residency or any medical role may seem counterintuitive. But Revere has zero regrets about bringing Calyx along on her journey. “Cats are very easy,” she said. “I have nothing but wonderful things to say about having a cat during my difficult surgical residency.”
Dr. Owens admits that moving to New York City with her dog was difficult during her first years of residency. She worked an average of 80 hours each week and had little time for walks. She made room in her budget for dog walkers. Thankfully, her hours have eased up as she has progressed through her program, and she can now take her dog on longer walks every day. “He definitely has a better life now that I work fewer hours,” she said.
Once you’ve prepared, made the move, and found your village, it’s time for the real work to begin. “The first couple of months are certainly a challenge of adjusting to a new hospital, a new electronic medical record, a new culture, and a new geographic location,” said Dr. Leitman, who has relocated several times. “But at the end of the day ... it’s you and the patient.” By minimizing stress and getting the support you need, it can even be “a fun process,” Dr. Mursi added, “so make it an exciting chapter in your life.”
A version of this article first appeared on Medscape.com.
Confronting Healthcare Disinformation on Social Media
More than 90% of internet users are active on social media, which had 4.76 billion users worldwide in January 2023. The digital revolution has reshaped the news landscape and changed how users interact with information. Social media has fostered an active relationship with the media, including the ability to interact directly with the content presented. It also has augmented media’s ability to reach a large audience with tight deadlines.
These developments suggest that social media can be a useful tool in everyday medical practice for professionals and patients. But social media also can spread misinformation, as happened during the COVID-19 pandemic.
This characteristic is the focus of the latest research by Fabiana Zollo, a computer science professor at Ca’ Foscari University of Venice, Italy, and coordinator of the Data Science for Society laboratory. The research was published in The BMJ. Ms. Zollo’s research group aims to assess the effect of social media on misinformation and consequent behaviors related to health. “The study results focus primarily on two topics, the COVID-19 pandemic and vaccinations, but can also be applied to other health-related behaviors such as smoking and diet,” Ms. Zollo told Univadis Italy.
Social media has become an important tool for public health organizations to inform and educate citizens. Institutions can use it to monitor choices and understand which topics are being discussed most at a given time, thus comprehending how the topics evolve and take shape in public discourse. “This could lead to the emergence of people’s perceptions, allowing us to understand, among other things, what the population’s needs might be, including informational needs,” said Ms. Zollo.
Tenuous Causal Link
While social media offers public health organizations the opportunity to inform and engage the public, it also raises concerns about misinformation and the difficulty of measuring its effect on health behavior. Although some studies have observed correlations between exposure to misinformation on social media and levels of adherence to vaccination campaigns, establishing a causal link is complex. As the authors emphasize, “despite the importance of the effect of social media and misinformation on people’s behavior and the broad hypotheses within public and political debates, the current state of the art cannot provide definitive conclusions on a clear causal association between social media and health behaviors.” Establishing a clear causal link between information obtained from social media and offline behavior is challenging due to methodologic limitations and the complexity of connections between online and offline behaviors. Studies often rely on self-reported data, which may not accurately reflect real behaviors, and struggle to isolate the effect of social media from other external influences. Moreover, many studies primarily focus on Western countries, limiting the generalizability of the results to other cultural and geographical conditions.
Another issue highlighted by Ms. Zollo and colleagues is the lack of complete and representative data. Studies often lack detailed information about participants, such as demographic or geolocation data, and rely on limited samples. This lack makes it difficult to assess the effect of misinformation on different segments of the population and in different geographic areas.
“The main methodologic difficulty concerns behavior, which is difficult to measure because it would require tracking a person’s actions over time and having a shared methodology to do so. We need to understand whether online stated intentions do or do not translate into actual behaviors,” said Ms. Zollo. Therefore, despite the recognized importance of the effect of social media and misinformation on people’s general behavior and the broad hypotheses expressed within public and political debates, the current state of the art cannot provide definitive conclusions on a causal association between social media and health behaviors.
Institutions’ Role
Social media is a fertile ground for the formation of echo chambers (where users find themselves dialoguing with like-minded people, forming a distorted impression of the real prevalence of that opinion) and for reinforcing polarized positions around certain topics. “We know that on certain topics, especially those related to health, there is a lot of misinformation circulating precisely because it is easy to leverage factors such as fear and beliefs, even the difficulties in understanding the technical aspects of a message,” said Ms. Zollo. Moreover, institutions have not always provided timely information during the pandemic. “Often, when there is a gap in response to a specific informational need, people turn elsewhere, where those questions find answers. And even if the response is not of high quality, it sometimes confirms the idea that the user had already created in their mind.”
The article published in The BMJ aims primarily to provide information and evaluation insights to institutions rather than professionals or healthcare workers. “We would like to spark the interest of institutions and ministries that can analyze this type of data and integrate it into their monitoring system. Social monitoring (the observation of what happens on social media) is a practice that the World Health Organization is also evaluating and trying to integrate with more traditional tools, such as questionnaires. The aim is to understand as well as possible what a population thinks about a particular health measure, such as a vaccine: Through data obtained from social monitoring, a more realistic and comprehensive view of the problem could be achieved,” said Ms. Zollo.
A Doctor’s Role
And this is where the doctor comes in: All the information thus obtained allows for identifying the needs that the population expresses and that “could push a patient to turn elsewhere, toward sources that provide answers even if of dubious quality or extremely oversimplified.” The doctor can enter this landscape by trying to understand, even with the data provided by institutions, what needs the patients are trying to fill and what drives them to seek elsewhere and to look for a reference community that offers the relevant confirmations.
From the doctor’s perspective, therefore, it can be useful to understand how these dynamics arise and evolve because they could help improve interactions with patients. At the institutional level, social monitoring would be an excellent tool for providing services to doctors who, in turn, offer a service to patients. If it were possible to identify areas where a disinformation narrative is developing from the outset, both the doctor and the institutions would benefit.
Misinformation vs Disinformation
The rapid spread of false or misleading information on social media can undermine trust in healthcare institutions and negatively influence health-related behaviors. Ms. Zollo and colleagues, in fact, speak of misinformation in their discussion, not disinformation. “In English, a distinction is made between misinformation and disinformation, a distinction that we are also adopting in Italian. When we talk about misinformation, we mean information that is generally false, inaccurate, or misleading but has not been created with the intention to harm, an intention that is present in disinformation,” said Ms. Zollo.
The distinction is often not easy to define even at the operational level, but in her studies, Ms. Zollo is mainly interested in understanding how the end user interacts with content, not the purposes for which that content was created. “This allows us to focus on users and the relationships that are created on various social platforms, thus bypassing the author of that information and focusing on how misinformation arises and evolves so that it can be effectively combated before it translates into action (ie, into incorrect health choices),” said Ms. Zollo.
This story was translated from Univadis Italy, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
More than 90% of internet users are active on social media, which had 4.76 billion users worldwide in January 2023. The digital revolution has reshaped the news landscape and changed how users interact with information. Social media has fostered an active relationship with the media, including the ability to interact directly with the content presented. It also has augmented media’s ability to reach a large audience with tight deadlines.
These developments suggest that social media can be a useful tool in everyday medical practice for professionals and patients. But social media also can spread misinformation, as happened during the COVID-19 pandemic.
This characteristic is the focus of the latest research by Fabiana Zollo, a computer science professor at Ca’ Foscari University of Venice, Italy, and coordinator of the Data Science for Society laboratory. The research was published in The BMJ. Ms. Zollo’s research group aims to assess the effect of social media on misinformation and consequent behaviors related to health. “The study results focus primarily on two topics, the COVID-19 pandemic and vaccinations, but can also be applied to other health-related behaviors such as smoking and diet,” Ms. Zollo told Univadis Italy.
Social media has become an important tool for public health organizations to inform and educate citizens. Institutions can use it to monitor choices and understand which topics are being discussed most at a given time, thus comprehending how the topics evolve and take shape in public discourse. “This could lead to the emergence of people’s perceptions, allowing us to understand, among other things, what the population’s needs might be, including informational needs,” said Ms. Zollo.
Tenuous Causal Link
While social media offers public health organizations the opportunity to inform and engage the public, it also raises concerns about misinformation and the difficulty of measuring its effect on health behavior. Although some studies have observed correlations between exposure to misinformation on social media and levels of adherence to vaccination campaigns, establishing a causal link is complex. As the authors emphasize, “despite the importance of the effect of social media and misinformation on people’s behavior and the broad hypotheses within public and political debates, the current state of the art cannot provide definitive conclusions on a clear causal association between social media and health behaviors.” Establishing a clear causal link between information obtained from social media and offline behavior is challenging due to methodologic limitations and the complexity of connections between online and offline behaviors. Studies often rely on self-reported data, which may not accurately reflect real behaviors, and struggle to isolate the effect of social media from other external influences. Moreover, many studies primarily focus on Western countries, limiting the generalizability of the results to other cultural and geographical conditions.
Another issue highlighted by Ms. Zollo and colleagues is the lack of complete and representative data. Studies often lack detailed information about participants, such as demographic or geolocation data, and rely on limited samples. This lack makes it difficult to assess the effect of misinformation on different segments of the population and in different geographic areas.
“The main methodologic difficulty concerns behavior, which is difficult to measure because it would require tracking a person’s actions over time and having a shared methodology to do so. We need to understand whether online stated intentions do or do not translate into actual behaviors,” said Ms. Zollo. Therefore, despite the recognized importance of the effect of social media and misinformation on people’s general behavior and the broad hypotheses expressed within public and political debates, the current state of the art cannot provide definitive conclusions on a causal association between social media and health behaviors.
Institutions’ Role
Social media is a fertile ground for the formation of echo chambers (where users find themselves dialoguing with like-minded people, forming a distorted impression of the real prevalence of that opinion) and for reinforcing polarized positions around certain topics. “We know that on certain topics, especially those related to health, there is a lot of misinformation circulating precisely because it is easy to leverage factors such as fear and beliefs, even the difficulties in understanding the technical aspects of a message,” said Ms. Zollo. Moreover, institutions have not always provided timely information during the pandemic. “Often, when there is a gap in response to a specific informational need, people turn elsewhere, where those questions find answers. And even if the response is not of high quality, it sometimes confirms the idea that the user had already created in their mind.”
The article published in The BMJ aims primarily to provide information and evaluation insights to institutions rather than professionals or healthcare workers. “We would like to spark the interest of institutions and ministries that can analyze this type of data and integrate it into their monitoring system. Social monitoring (the observation of what happens on social media) is a practice that the World Health Organization is also evaluating and trying to integrate with more traditional tools, such as questionnaires. The aim is to understand as well as possible what a population thinks about a particular health measure, such as a vaccine: Through data obtained from social monitoring, a more realistic and comprehensive view of the problem could be achieved,” said Ms. Zollo.
A Doctor’s Role
And this is where the doctor comes in: All the information thus obtained allows for identifying the needs that the population expresses and that “could push a patient to turn elsewhere, toward sources that provide answers even if of dubious quality or extremely oversimplified.” The doctor can enter this landscape by trying to understand, even with the data provided by institutions, what needs the patients are trying to fill and what drives them to seek elsewhere and to look for a reference community that offers the relevant confirmations.
From the doctor’s perspective, therefore, it can be useful to understand how these dynamics arise and evolve because they could help improve interactions with patients. At the institutional level, social monitoring would be an excellent tool for providing services to doctors who, in turn, offer a service to patients. If it were possible to identify areas where a disinformation narrative is developing from the outset, both the doctor and the institutions would benefit.
Misinformation vs Disinformation
The rapid spread of false or misleading information on social media can undermine trust in healthcare institutions and negatively influence health-related behaviors. Ms. Zollo and colleagues, in fact, speak of misinformation in their discussion, not disinformation. “In English, a distinction is made between misinformation and disinformation, a distinction that we are also adopting in Italian. When we talk about misinformation, we mean information that is generally false, inaccurate, or misleading but has not been created with the intention to harm, an intention that is present in disinformation,” said Ms. Zollo.
The distinction is often not easy to define even at the operational level, but in her studies, Ms. Zollo is mainly interested in understanding how the end user interacts with content, not the purposes for which that content was created. “This allows us to focus on users and the relationships that are created on various social platforms, thus bypassing the author of that information and focusing on how misinformation arises and evolves so that it can be effectively combated before it translates into action (ie, into incorrect health choices),” said Ms. Zollo.
This story was translated from Univadis Italy, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
More than 90% of internet users are active on social media, which had 4.76 billion users worldwide in January 2023. The digital revolution has reshaped the news landscape and changed how users interact with information. Social media has fostered an active relationship with the media, including the ability to interact directly with the content presented. It also has augmented media’s ability to reach a large audience with tight deadlines.
These developments suggest that social media can be a useful tool in everyday medical practice for professionals and patients. But social media also can spread misinformation, as happened during the COVID-19 pandemic.
This characteristic is the focus of the latest research by Fabiana Zollo, a computer science professor at Ca’ Foscari University of Venice, Italy, and coordinator of the Data Science for Society laboratory. The research was published in The BMJ. Ms. Zollo’s research group aims to assess the effect of social media on misinformation and consequent behaviors related to health. “The study results focus primarily on two topics, the COVID-19 pandemic and vaccinations, but can also be applied to other health-related behaviors such as smoking and diet,” Ms. Zollo told Univadis Italy.
Social media has become an important tool for public health organizations to inform and educate citizens. Institutions can use it to monitor choices and understand which topics are being discussed most at a given time, thus comprehending how the topics evolve and take shape in public discourse. “This could lead to the emergence of people’s perceptions, allowing us to understand, among other things, what the population’s needs might be, including informational needs,” said Ms. Zollo.
Tenuous Causal Link
While social media offers public health organizations the opportunity to inform and engage the public, it also raises concerns about misinformation and the difficulty of measuring its effect on health behavior. Although some studies have observed correlations between exposure to misinformation on social media and levels of adherence to vaccination campaigns, establishing a causal link is complex. As the authors emphasize, “despite the importance of the effect of social media and misinformation on people’s behavior and the broad hypotheses within public and political debates, the current state of the art cannot provide definitive conclusions on a clear causal association between social media and health behaviors.” Establishing a clear causal link between information obtained from social media and offline behavior is challenging due to methodologic limitations and the complexity of connections between online and offline behaviors. Studies often rely on self-reported data, which may not accurately reflect real behaviors, and struggle to isolate the effect of social media from other external influences. Moreover, many studies primarily focus on Western countries, limiting the generalizability of the results to other cultural and geographical conditions.
Another issue highlighted by Ms. Zollo and colleagues is the lack of complete and representative data. Studies often lack detailed information about participants, such as demographic or geolocation data, and rely on limited samples. This lack makes it difficult to assess the effect of misinformation on different segments of the population and in different geographic areas.
“The main methodologic difficulty concerns behavior, which is difficult to measure because it would require tracking a person’s actions over time and having a shared methodology to do so. We need to understand whether online stated intentions do or do not translate into actual behaviors,” said Ms. Zollo. Therefore, despite the recognized importance of the effect of social media and misinformation on people’s general behavior and the broad hypotheses expressed within public and political debates, the current state of the art cannot provide definitive conclusions on a causal association between social media and health behaviors.
Institutions’ Role
Social media is a fertile ground for the formation of echo chambers (where users find themselves dialoguing with like-minded people, forming a distorted impression of the real prevalence of that opinion) and for reinforcing polarized positions around certain topics. “We know that on certain topics, especially those related to health, there is a lot of misinformation circulating precisely because it is easy to leverage factors such as fear and beliefs, even the difficulties in understanding the technical aspects of a message,” said Ms. Zollo. Moreover, institutions have not always provided timely information during the pandemic. “Often, when there is a gap in response to a specific informational need, people turn elsewhere, where those questions find answers. And even if the response is not of high quality, it sometimes confirms the idea that the user had already created in their mind.”
The article published in The BMJ aims primarily to provide information and evaluation insights to institutions rather than professionals or healthcare workers. “We would like to spark the interest of institutions and ministries that can analyze this type of data and integrate it into their monitoring system. Social monitoring (the observation of what happens on social media) is a practice that the World Health Organization is also evaluating and trying to integrate with more traditional tools, such as questionnaires. The aim is to understand as well as possible what a population thinks about a particular health measure, such as a vaccine: Through data obtained from social monitoring, a more realistic and comprehensive view of the problem could be achieved,” said Ms. Zollo.
A Doctor’s Role
And this is where the doctor comes in: All the information thus obtained allows for identifying the needs that the population expresses and that “could push a patient to turn elsewhere, toward sources that provide answers even if of dubious quality or extremely oversimplified.” The doctor can enter this landscape by trying to understand, even with the data provided by institutions, what needs the patients are trying to fill and what drives them to seek elsewhere and to look for a reference community that offers the relevant confirmations.
From the doctor’s perspective, therefore, it can be useful to understand how these dynamics arise and evolve because they could help improve interactions with patients. At the institutional level, social monitoring would be an excellent tool for providing services to doctors who, in turn, offer a service to patients. If it were possible to identify areas where a disinformation narrative is developing from the outset, both the doctor and the institutions would benefit.
Misinformation vs Disinformation
The rapid spread of false or misleading information on social media can undermine trust in healthcare institutions and negatively influence health-related behaviors. Ms. Zollo and colleagues, in fact, speak of misinformation in their discussion, not disinformation. “In English, a distinction is made between misinformation and disinformation, a distinction that we are also adopting in Italian. When we talk about misinformation, we mean information that is generally false, inaccurate, or misleading but has not been created with the intention to harm, an intention that is present in disinformation,” said Ms. Zollo.
The distinction is often not easy to define even at the operational level, but in her studies, Ms. Zollo is mainly interested in understanding how the end user interacts with content, not the purposes for which that content was created. “This allows us to focus on users and the relationships that are created on various social platforms, thus bypassing the author of that information and focusing on how misinformation arises and evolves so that it can be effectively combated before it translates into action (ie, into incorrect health choices),” said Ms. Zollo.
This story was translated from Univadis Italy, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
Should Cancer Trial Eligibility Become More Inclusive?
The study, published online in Clinical Cancer Research, highlighted the potential benefits of broadening eligibility criteria for clinical trials.
“It is well known that results in an ‘ideal’ population do not always translate to the real-world population,” senior author Hans Gelderblom, MD, chair of the Department of Medical Oncology at the Leiden University Medical Center, Leiden, the Netherlands, said in a press release. “Eligibility criteria are often too strict, and educated exemptions by experienced investigators can help individual patients, especially in a last-resort trial.”
Although experts have expressed interest in improving trial inclusivity, it’s unclear how doing so might impact treatment safety and efficacy.
In the Drug Rediscovery Protocol (DRUP), Dr. Gelderblom and colleagues examined the impact of broadening trial eligibility on patient outcomes. DRUP is an ongoing Dutch national, multicenter, pan-cancer, nonrandomized clinical trial in which patients are treated off-label with approved molecularly targeted or immunotherapies.
In the trial, 1019 patients with treatment-refractory disease were matched to one of the available study drugs based on their tumor molecular profile and enrolled in parallel cohorts. Cohorts were defined by tumor type, molecular profile, and study drug.
Among these patients, 82 patients — 8% of the cohort — were granted waivers to participate. Most waivers (45%) were granted as exceptions to general- or drug-related eligibility criteria, often because of out-of-range lab results. Other categories included treatment and testing exceptions, as well as out-of-window testing.
The researchers then compared safety and efficacy outcomes between the 82 participants granted waivers and the 937 who did not receive waivers.
Overall, Dr. Gelderblom’s team found that the rate of serious adverse events was similar between patients who received a waiver and those who did not: 39% vs 41%, respectively.
A relationship between waivers and serious adverse events was deemed “unlikely” for 86% of patients and “possible” for 14%. In two cases concerning a direct relationship, for instance, patients who received waivers for decreased hemoglobin levels developed anemia.
The rate of clinical benefit — defined as an objective response or stable disease for at least 16 weeks — was similar between the groups. Overall, 40% of patients who received a waiver (33 of 82) had a clinical benefit vs 33% of patients without a waiver (P = .43). Median overall survival for patients that received a waiver was also similar — 11 months in the waiver group and 8 months in the nonwaiver group (hazard ratio, 0.87; P = .33).
“Safety and clinical benefit were preserved in patients for whom a waiver was granted,” the authors concluded.
The study had several limitations. The diversity of cancer types, treatments, and reasons for protocol exemptions precluded subgroup analyses. In addition, because the decision to grant waivers depended in large part on the likelihood of clinical benefit, “it is possible that patients who received waivers were positively selected for clinical benefit compared with the general study population,” the authors wrote.
So, “although the clinical benefit rate of the patient group for whom a waiver was granted appears to be slightly higher, this difference might be explained by the selection process of the central study team, in which each waiver request was carefully considered, weighing the risks and potential benefits for the patient in question,” the authors explained.
Overall, “these findings advocate for a broader and more inclusive design when establishing novel trials, paving the way for a more effective and tailored application of cancer therapies in patients with advanced or refractory disease,” Dr. Gelderblom said.
Commenting on the study, Bishal Gyawali, MD, PhD, said that “relaxing eligibility criteria is important, and I support this. Trials should include patients that are more representative of the real-world, so that results are generalizable.”
However, “the paper overemphasized efficacy,” said Dr. Gyawali, from Queen’s University, Kingston, Ontario, Canada. The sample size of waiver-granted patients was small, plus “the clinical benefit rate is not a marker of efficacy.
“The response rate is somewhat better, but for a heterogeneous study with multiple targets and drugs, it is difficult to say much about treatment effects here,” Dr. Gyawali added. Overall, “we shouldn’t read too much into treatment benefits based on these numbers.”
Funding for the study was provided by the Stelvio for Life Foundation, the Dutch Cancer Society, Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Bristol Myers Squibb, pharma&, Eisai Co., Ipsen, Merck Sharp & Dohme, Novartis, Pfizer, and Roche. Dr. Gelderblom declared no conflicts of interest, and Dr. Gyawali declared no conflicts of interest related to his comment.
A version of this article appeared on Medscape.com.
The study, published online in Clinical Cancer Research, highlighted the potential benefits of broadening eligibility criteria for clinical trials.
“It is well known that results in an ‘ideal’ population do not always translate to the real-world population,” senior author Hans Gelderblom, MD, chair of the Department of Medical Oncology at the Leiden University Medical Center, Leiden, the Netherlands, said in a press release. “Eligibility criteria are often too strict, and educated exemptions by experienced investigators can help individual patients, especially in a last-resort trial.”
Although experts have expressed interest in improving trial inclusivity, it’s unclear how doing so might impact treatment safety and efficacy.
In the Drug Rediscovery Protocol (DRUP), Dr. Gelderblom and colleagues examined the impact of broadening trial eligibility on patient outcomes. DRUP is an ongoing Dutch national, multicenter, pan-cancer, nonrandomized clinical trial in which patients are treated off-label with approved molecularly targeted or immunotherapies.
In the trial, 1019 patients with treatment-refractory disease were matched to one of the available study drugs based on their tumor molecular profile and enrolled in parallel cohorts. Cohorts were defined by tumor type, molecular profile, and study drug.
Among these patients, 82 patients — 8% of the cohort — were granted waivers to participate. Most waivers (45%) were granted as exceptions to general- or drug-related eligibility criteria, often because of out-of-range lab results. Other categories included treatment and testing exceptions, as well as out-of-window testing.
The researchers then compared safety and efficacy outcomes between the 82 participants granted waivers and the 937 who did not receive waivers.
Overall, Dr. Gelderblom’s team found that the rate of serious adverse events was similar between patients who received a waiver and those who did not: 39% vs 41%, respectively.
A relationship between waivers and serious adverse events was deemed “unlikely” for 86% of patients and “possible” for 14%. In two cases concerning a direct relationship, for instance, patients who received waivers for decreased hemoglobin levels developed anemia.
The rate of clinical benefit — defined as an objective response or stable disease for at least 16 weeks — was similar between the groups. Overall, 40% of patients who received a waiver (33 of 82) had a clinical benefit vs 33% of patients without a waiver (P = .43). Median overall survival for patients that received a waiver was also similar — 11 months in the waiver group and 8 months in the nonwaiver group (hazard ratio, 0.87; P = .33).
“Safety and clinical benefit were preserved in patients for whom a waiver was granted,” the authors concluded.
The study had several limitations. The diversity of cancer types, treatments, and reasons for protocol exemptions precluded subgroup analyses. In addition, because the decision to grant waivers depended in large part on the likelihood of clinical benefit, “it is possible that patients who received waivers were positively selected for clinical benefit compared with the general study population,” the authors wrote.
So, “although the clinical benefit rate of the patient group for whom a waiver was granted appears to be slightly higher, this difference might be explained by the selection process of the central study team, in which each waiver request was carefully considered, weighing the risks and potential benefits for the patient in question,” the authors explained.
Overall, “these findings advocate for a broader and more inclusive design when establishing novel trials, paving the way for a more effective and tailored application of cancer therapies in patients with advanced or refractory disease,” Dr. Gelderblom said.
Commenting on the study, Bishal Gyawali, MD, PhD, said that “relaxing eligibility criteria is important, and I support this. Trials should include patients that are more representative of the real-world, so that results are generalizable.”
However, “the paper overemphasized efficacy,” said Dr. Gyawali, from Queen’s University, Kingston, Ontario, Canada. The sample size of waiver-granted patients was small, plus “the clinical benefit rate is not a marker of efficacy.
“The response rate is somewhat better, but for a heterogeneous study with multiple targets and drugs, it is difficult to say much about treatment effects here,” Dr. Gyawali added. Overall, “we shouldn’t read too much into treatment benefits based on these numbers.”
Funding for the study was provided by the Stelvio for Life Foundation, the Dutch Cancer Society, Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Bristol Myers Squibb, pharma&, Eisai Co., Ipsen, Merck Sharp & Dohme, Novartis, Pfizer, and Roche. Dr. Gelderblom declared no conflicts of interest, and Dr. Gyawali declared no conflicts of interest related to his comment.
A version of this article appeared on Medscape.com.
The study, published online in Clinical Cancer Research, highlighted the potential benefits of broadening eligibility criteria for clinical trials.
“It is well known that results in an ‘ideal’ population do not always translate to the real-world population,” senior author Hans Gelderblom, MD, chair of the Department of Medical Oncology at the Leiden University Medical Center, Leiden, the Netherlands, said in a press release. “Eligibility criteria are often too strict, and educated exemptions by experienced investigators can help individual patients, especially in a last-resort trial.”
Although experts have expressed interest in improving trial inclusivity, it’s unclear how doing so might impact treatment safety and efficacy.
In the Drug Rediscovery Protocol (DRUP), Dr. Gelderblom and colleagues examined the impact of broadening trial eligibility on patient outcomes. DRUP is an ongoing Dutch national, multicenter, pan-cancer, nonrandomized clinical trial in which patients are treated off-label with approved molecularly targeted or immunotherapies.
In the trial, 1019 patients with treatment-refractory disease were matched to one of the available study drugs based on their tumor molecular profile and enrolled in parallel cohorts. Cohorts were defined by tumor type, molecular profile, and study drug.
Among these patients, 82 patients — 8% of the cohort — were granted waivers to participate. Most waivers (45%) were granted as exceptions to general- or drug-related eligibility criteria, often because of out-of-range lab results. Other categories included treatment and testing exceptions, as well as out-of-window testing.
The researchers then compared safety and efficacy outcomes between the 82 participants granted waivers and the 937 who did not receive waivers.
Overall, Dr. Gelderblom’s team found that the rate of serious adverse events was similar between patients who received a waiver and those who did not: 39% vs 41%, respectively.
A relationship between waivers and serious adverse events was deemed “unlikely” for 86% of patients and “possible” for 14%. In two cases concerning a direct relationship, for instance, patients who received waivers for decreased hemoglobin levels developed anemia.
The rate of clinical benefit — defined as an objective response or stable disease for at least 16 weeks — was similar between the groups. Overall, 40% of patients who received a waiver (33 of 82) had a clinical benefit vs 33% of patients without a waiver (P = .43). Median overall survival for patients that received a waiver was also similar — 11 months in the waiver group and 8 months in the nonwaiver group (hazard ratio, 0.87; P = .33).
“Safety and clinical benefit were preserved in patients for whom a waiver was granted,” the authors concluded.
The study had several limitations. The diversity of cancer types, treatments, and reasons for protocol exemptions precluded subgroup analyses. In addition, because the decision to grant waivers depended in large part on the likelihood of clinical benefit, “it is possible that patients who received waivers were positively selected for clinical benefit compared with the general study population,” the authors wrote.
So, “although the clinical benefit rate of the patient group for whom a waiver was granted appears to be slightly higher, this difference might be explained by the selection process of the central study team, in which each waiver request was carefully considered, weighing the risks and potential benefits for the patient in question,” the authors explained.
Overall, “these findings advocate for a broader and more inclusive design when establishing novel trials, paving the way for a more effective and tailored application of cancer therapies in patients with advanced or refractory disease,” Dr. Gelderblom said.
Commenting on the study, Bishal Gyawali, MD, PhD, said that “relaxing eligibility criteria is important, and I support this. Trials should include patients that are more representative of the real-world, so that results are generalizable.”
However, “the paper overemphasized efficacy,” said Dr. Gyawali, from Queen’s University, Kingston, Ontario, Canada. The sample size of waiver-granted patients was small, plus “the clinical benefit rate is not a marker of efficacy.
“The response rate is somewhat better, but for a heterogeneous study with multiple targets and drugs, it is difficult to say much about treatment effects here,” Dr. Gyawali added. Overall, “we shouldn’t read too much into treatment benefits based on these numbers.”
Funding for the study was provided by the Stelvio for Life Foundation, the Dutch Cancer Society, Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Bristol Myers Squibb, pharma&, Eisai Co., Ipsen, Merck Sharp & Dohme, Novartis, Pfizer, and Roche. Dr. Gelderblom declared no conflicts of interest, and Dr. Gyawali declared no conflicts of interest related to his comment.
A version of this article appeared on Medscape.com.
Semaglutide May Increase Risk of Disease Causing Vision Loss
TOPLINE:
Patients with type 2 diabetes, overweight, or obesity taking the glucagon-like peptide receptor agonist (GLP-1 RA) semaglutide appear to have an increased risk for an uncommon condition that can cause vision loss.
METHODOLOGY:
- Researchers conducted a retrospective study of 16,827 patients at Massachusetts Eye and Ear in Boston.
- Their analysis focused on 710 patients with type 2 diabetes (194 of whom had been prescribed semaglutide) and 979 patients with overweight or obesity (361 prescribed semaglutide).
- The researchers compared patients prescribed semaglutide with those prescribed a medication other than a GLP-1 agent. They matched patients by factors such as age and sex and whether they had hypertension, obstructive sleep apnea, or coronary artery disease.
- They assessed the cumulative incidence of nonarteritic anterior ischemic optic neuropathy (NAION) during 36 months of follow-up.
TAKEAWAY:
- Semaglutide use was associated with a higher risk for NAION in patients with type 2 diabetes (hazard ratio [HR], 4.28; 95% CI, 1.62-11.29).
- In patients with overweight or obesity, semaglutide again was linked to a higher risk for NAION (HR, 7.64; 95% CI, 2.21-26.36).
- Among patients with type 2 diabetes, the cumulative incidence of NAION over 36 months was 8.9% for those prescribed semaglutide vs 1.8% among those taking non–GLP-1 medications.
IN PRACTICE:
Semaglutide has “provided very significant benefits in many ways, but future discussions between a patient and their physician should include NAION as a potential risk,” study leader Joseph Rizzo, MD, with Mass Eye and Ear and Harvard Medical School, said in a news release about the findings. “It is important to appreciate, however, that the increased risk relates to a disorder that is relatively uncommon.”
“Given the numbers of participants who have been recruited to clinical trials and the large number of people globally who use GLP-1 RAs, we should be confident that if corroborated, the absolute risk of developing NAION in direct relation to taking semaglutide must indeed be rare,” Susan P. Mollan, MBcHB, of University Hospitals Birmingham NHS Foundation Trust, in England, wrote in a commentary published with the study.
SOURCE:
The study was published online on July 3 in JAMA Ophthalmology.
LIMITATIONS:
The patients were seen at a hospital that specializes in ophthalmology and has a specialized neuro-ophthalmology service, so the results may not fully apply to other settings. The results were driven by a relatively small number of NAION cases in the patients exposed to semaglutide. The study does not establish that semaglutide directly causes NAION, the researchers noted. “The best approaches to confirm, refute, or refine our findings would be to conduct a much larger, retrospective, multicenter population-based cohort study; a prospective, randomized clinical study; or a postmarket analysis of all GLP-1 RA drugs,” they wrote.
DISCLOSURES:
The study was supported by a grant from Research to Prevent Blindness.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
TOPLINE:
Patients with type 2 diabetes, overweight, or obesity taking the glucagon-like peptide receptor agonist (GLP-1 RA) semaglutide appear to have an increased risk for an uncommon condition that can cause vision loss.
METHODOLOGY:
- Researchers conducted a retrospective study of 16,827 patients at Massachusetts Eye and Ear in Boston.
- Their analysis focused on 710 patients with type 2 diabetes (194 of whom had been prescribed semaglutide) and 979 patients with overweight or obesity (361 prescribed semaglutide).
- The researchers compared patients prescribed semaglutide with those prescribed a medication other than a GLP-1 agent. They matched patients by factors such as age and sex and whether they had hypertension, obstructive sleep apnea, or coronary artery disease.
- They assessed the cumulative incidence of nonarteritic anterior ischemic optic neuropathy (NAION) during 36 months of follow-up.
TAKEAWAY:
- Semaglutide use was associated with a higher risk for NAION in patients with type 2 diabetes (hazard ratio [HR], 4.28; 95% CI, 1.62-11.29).
- In patients with overweight or obesity, semaglutide again was linked to a higher risk for NAION (HR, 7.64; 95% CI, 2.21-26.36).
- Among patients with type 2 diabetes, the cumulative incidence of NAION over 36 months was 8.9% for those prescribed semaglutide vs 1.8% among those taking non–GLP-1 medications.
IN PRACTICE:
Semaglutide has “provided very significant benefits in many ways, but future discussions between a patient and their physician should include NAION as a potential risk,” study leader Joseph Rizzo, MD, with Mass Eye and Ear and Harvard Medical School, said in a news release about the findings. “It is important to appreciate, however, that the increased risk relates to a disorder that is relatively uncommon.”
“Given the numbers of participants who have been recruited to clinical trials and the large number of people globally who use GLP-1 RAs, we should be confident that if corroborated, the absolute risk of developing NAION in direct relation to taking semaglutide must indeed be rare,” Susan P. Mollan, MBcHB, of University Hospitals Birmingham NHS Foundation Trust, in England, wrote in a commentary published with the study.
SOURCE:
The study was published online on July 3 in JAMA Ophthalmology.
LIMITATIONS:
The patients were seen at a hospital that specializes in ophthalmology and has a specialized neuro-ophthalmology service, so the results may not fully apply to other settings. The results were driven by a relatively small number of NAION cases in the patients exposed to semaglutide. The study does not establish that semaglutide directly causes NAION, the researchers noted. “The best approaches to confirm, refute, or refine our findings would be to conduct a much larger, retrospective, multicenter population-based cohort study; a prospective, randomized clinical study; or a postmarket analysis of all GLP-1 RA drugs,” they wrote.
DISCLOSURES:
The study was supported by a grant from Research to Prevent Blindness.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
TOPLINE:
Patients with type 2 diabetes, overweight, or obesity taking the glucagon-like peptide receptor agonist (GLP-1 RA) semaglutide appear to have an increased risk for an uncommon condition that can cause vision loss.
METHODOLOGY:
- Researchers conducted a retrospective study of 16,827 patients at Massachusetts Eye and Ear in Boston.
- Their analysis focused on 710 patients with type 2 diabetes (194 of whom had been prescribed semaglutide) and 979 patients with overweight or obesity (361 prescribed semaglutide).
- The researchers compared patients prescribed semaglutide with those prescribed a medication other than a GLP-1 agent. They matched patients by factors such as age and sex and whether they had hypertension, obstructive sleep apnea, or coronary artery disease.
- They assessed the cumulative incidence of nonarteritic anterior ischemic optic neuropathy (NAION) during 36 months of follow-up.
TAKEAWAY:
- Semaglutide use was associated with a higher risk for NAION in patients with type 2 diabetes (hazard ratio [HR], 4.28; 95% CI, 1.62-11.29).
- In patients with overweight or obesity, semaglutide again was linked to a higher risk for NAION (HR, 7.64; 95% CI, 2.21-26.36).
- Among patients with type 2 diabetes, the cumulative incidence of NAION over 36 months was 8.9% for those prescribed semaglutide vs 1.8% among those taking non–GLP-1 medications.
IN PRACTICE:
Semaglutide has “provided very significant benefits in many ways, but future discussions between a patient and their physician should include NAION as a potential risk,” study leader Joseph Rizzo, MD, with Mass Eye and Ear and Harvard Medical School, said in a news release about the findings. “It is important to appreciate, however, that the increased risk relates to a disorder that is relatively uncommon.”
“Given the numbers of participants who have been recruited to clinical trials and the large number of people globally who use GLP-1 RAs, we should be confident that if corroborated, the absolute risk of developing NAION in direct relation to taking semaglutide must indeed be rare,” Susan P. Mollan, MBcHB, of University Hospitals Birmingham NHS Foundation Trust, in England, wrote in a commentary published with the study.
SOURCE:
The study was published online on July 3 in JAMA Ophthalmology.
LIMITATIONS:
The patients were seen at a hospital that specializes in ophthalmology and has a specialized neuro-ophthalmology service, so the results may not fully apply to other settings. The results were driven by a relatively small number of NAION cases in the patients exposed to semaglutide. The study does not establish that semaglutide directly causes NAION, the researchers noted. “The best approaches to confirm, refute, or refine our findings would be to conduct a much larger, retrospective, multicenter population-based cohort study; a prospective, randomized clinical study; or a postmarket analysis of all GLP-1 RA drugs,” they wrote.
DISCLOSURES:
The study was supported by a grant from Research to Prevent Blindness.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
Weight Loss Drugs Cut Cancer Risk in Diabetes Patients
Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage:
That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.
For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.
The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.
Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.
But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.
While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.
A version of this article appeared on WebMD.com.
Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage:
That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.
For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.
The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.
Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.
But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.
While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.
A version of this article appeared on WebMD.com.
Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage:
That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.
For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.
The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.
Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.
But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.
While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.
A version of this article appeared on WebMD.com.
Feds May End Hospital System’s Noncompete Contract for Part-Time Docs
Mount Sinai Health System in New York City is forcing part-time physicians to sign employment contracts that violate their labor rights, according to a June 2024 complaint by the National Labor Relations Board (NLRB).
The complaint stems from no-poaching and confidentiality clauses in the agreements required as a condition of employment, NLRB officials alleged.
according to a copy of the terms included in NLRB’s June 18 complaint.
By requiring the agreements, NLRB officials claimed, Mount Sinai is “interfering with, restraining, and coercing employees” in violation of the National Labor Relations Act. The health system’s “unfair labor practices” affects commerce as outlined under the law, according to the NLRB. The Act bans employers from burdening or obstructing commerce or the free flow of commerce.
Mount Sinai did not respond to requests for comment.
The NLRB’s complaint follows a landmark decision by the Federal Trade Commission (FTC) to ban noncompete agreements nationwide. In April 2024, the FTC voted to prohibit noncompetes indefinitely in an effort to protect workers.
“Noncompete clauses keep wages low, suppress new ideas, and rob the American economy of dynamism, including from the more than 8500 new startups that would be created a year once noncompetes are banned,” FTC Chair Lina M. Khan said in a statement. “The FTC’s final rule to ban noncompetes will ensure Americans have the freedom to pursue a new job, start a new business, or bring a new idea to market.”
Business groups and agencies have since sued to challenge against the ban, including the Chamber of Commerce. The Chamber and other business groups argue that noncompete agreements are important for companies to protect trade secrets, shield recruiting investments, and hide confidential information. The lawsuits are ongoing.
A Physician Blows the Whistle
An anonymous physician first alerted the NLRB to the contract language in November 2023. The doctor was required the sign the hospital system’s agreement for part-time physicians. The complaint does not say if the employee is still employed by the hospital system.
To remedy the unfair labor practices alleged, the NLRB seeks an order requiring the health system to rescind the contract language, stop any actions against current or former employees to enforce the provisions, and make whole any employees who suffered financial losses related to the contract terms.
The allegation against Mount Sinai is among a rising number of grievances filed with the NLRB that claim unfair labor practices. During the first 6 months of fiscal year 2024, unfair labor practice charges filed across the NLRB’s field offices increased 7% — from 9612 in 2023 to 10,278 in 2024, according to a news release.
NLRB, meanwhile has been cracking down on anticompetitive labor practices and confidentiality provisions that prevent employees from speaking out.
In a February 2023 decision for instance, NLRB ruled that an employer violates the National Labor Relations Act by offering severance agreements to workers that include restrictive confidentiality and nondisparagement terms. In 2022, the NLRB and the Federal Trade Commission forged a partnership to more widely combat unfair, anticompetitive, and deceptive business practices.
“Noncompete provisions reasonably tend to chill employees in the exercise of Section 7 rights when the provisions could reasonably be construed by employees to deny them the ability to quit or change jobs by cutting off their access to other employment opportunities that they are qualified for,” NLRB General Counsel Jennifer Abruzzo said in a 2023 release.
Ms. Abruzzo stressed in a memo that NLR Act is committed to an interagency approach to restrictions on the exercise of employee rights, “including limits to workers’ job mobility, information sharing, and referrals to other agencies.”
Mount Sinai Health System must respond to the NLRB’s complaint by July 16, and an administrative law judge is scheduled to hear the case on September 24.
A version of this article first appeared on Medscape.com.
Mount Sinai Health System in New York City is forcing part-time physicians to sign employment contracts that violate their labor rights, according to a June 2024 complaint by the National Labor Relations Board (NLRB).
The complaint stems from no-poaching and confidentiality clauses in the agreements required as a condition of employment, NLRB officials alleged.
according to a copy of the terms included in NLRB’s June 18 complaint.
By requiring the agreements, NLRB officials claimed, Mount Sinai is “interfering with, restraining, and coercing employees” in violation of the National Labor Relations Act. The health system’s “unfair labor practices” affects commerce as outlined under the law, according to the NLRB. The Act bans employers from burdening or obstructing commerce or the free flow of commerce.
Mount Sinai did not respond to requests for comment.
The NLRB’s complaint follows a landmark decision by the Federal Trade Commission (FTC) to ban noncompete agreements nationwide. In April 2024, the FTC voted to prohibit noncompetes indefinitely in an effort to protect workers.
“Noncompete clauses keep wages low, suppress new ideas, and rob the American economy of dynamism, including from the more than 8500 new startups that would be created a year once noncompetes are banned,” FTC Chair Lina M. Khan said in a statement. “The FTC’s final rule to ban noncompetes will ensure Americans have the freedom to pursue a new job, start a new business, or bring a new idea to market.”
Business groups and agencies have since sued to challenge against the ban, including the Chamber of Commerce. The Chamber and other business groups argue that noncompete agreements are important for companies to protect trade secrets, shield recruiting investments, and hide confidential information. The lawsuits are ongoing.
A Physician Blows the Whistle
An anonymous physician first alerted the NLRB to the contract language in November 2023. The doctor was required the sign the hospital system’s agreement for part-time physicians. The complaint does not say if the employee is still employed by the hospital system.
To remedy the unfair labor practices alleged, the NLRB seeks an order requiring the health system to rescind the contract language, stop any actions against current or former employees to enforce the provisions, and make whole any employees who suffered financial losses related to the contract terms.
The allegation against Mount Sinai is among a rising number of grievances filed with the NLRB that claim unfair labor practices. During the first 6 months of fiscal year 2024, unfair labor practice charges filed across the NLRB’s field offices increased 7% — from 9612 in 2023 to 10,278 in 2024, according to a news release.
NLRB, meanwhile has been cracking down on anticompetitive labor practices and confidentiality provisions that prevent employees from speaking out.
In a February 2023 decision for instance, NLRB ruled that an employer violates the National Labor Relations Act by offering severance agreements to workers that include restrictive confidentiality and nondisparagement terms. In 2022, the NLRB and the Federal Trade Commission forged a partnership to more widely combat unfair, anticompetitive, and deceptive business practices.
“Noncompete provisions reasonably tend to chill employees in the exercise of Section 7 rights when the provisions could reasonably be construed by employees to deny them the ability to quit or change jobs by cutting off their access to other employment opportunities that they are qualified for,” NLRB General Counsel Jennifer Abruzzo said in a 2023 release.
Ms. Abruzzo stressed in a memo that NLR Act is committed to an interagency approach to restrictions on the exercise of employee rights, “including limits to workers’ job mobility, information sharing, and referrals to other agencies.”
Mount Sinai Health System must respond to the NLRB’s complaint by July 16, and an administrative law judge is scheduled to hear the case on September 24.
A version of this article first appeared on Medscape.com.
Mount Sinai Health System in New York City is forcing part-time physicians to sign employment contracts that violate their labor rights, according to a June 2024 complaint by the National Labor Relations Board (NLRB).
The complaint stems from no-poaching and confidentiality clauses in the agreements required as a condition of employment, NLRB officials alleged.
according to a copy of the terms included in NLRB’s June 18 complaint.
By requiring the agreements, NLRB officials claimed, Mount Sinai is “interfering with, restraining, and coercing employees” in violation of the National Labor Relations Act. The health system’s “unfair labor practices” affects commerce as outlined under the law, according to the NLRB. The Act bans employers from burdening or obstructing commerce or the free flow of commerce.
Mount Sinai did not respond to requests for comment.
The NLRB’s complaint follows a landmark decision by the Federal Trade Commission (FTC) to ban noncompete agreements nationwide. In April 2024, the FTC voted to prohibit noncompetes indefinitely in an effort to protect workers.
“Noncompete clauses keep wages low, suppress new ideas, and rob the American economy of dynamism, including from the more than 8500 new startups that would be created a year once noncompetes are banned,” FTC Chair Lina M. Khan said in a statement. “The FTC’s final rule to ban noncompetes will ensure Americans have the freedom to pursue a new job, start a new business, or bring a new idea to market.”
Business groups and agencies have since sued to challenge against the ban, including the Chamber of Commerce. The Chamber and other business groups argue that noncompete agreements are important for companies to protect trade secrets, shield recruiting investments, and hide confidential information. The lawsuits are ongoing.
A Physician Blows the Whistle
An anonymous physician first alerted the NLRB to the contract language in November 2023. The doctor was required the sign the hospital system’s agreement for part-time physicians. The complaint does not say if the employee is still employed by the hospital system.
To remedy the unfair labor practices alleged, the NLRB seeks an order requiring the health system to rescind the contract language, stop any actions against current or former employees to enforce the provisions, and make whole any employees who suffered financial losses related to the contract terms.
The allegation against Mount Sinai is among a rising number of grievances filed with the NLRB that claim unfair labor practices. During the first 6 months of fiscal year 2024, unfair labor practice charges filed across the NLRB’s field offices increased 7% — from 9612 in 2023 to 10,278 in 2024, according to a news release.
NLRB, meanwhile has been cracking down on anticompetitive labor practices and confidentiality provisions that prevent employees from speaking out.
In a February 2023 decision for instance, NLRB ruled that an employer violates the National Labor Relations Act by offering severance agreements to workers that include restrictive confidentiality and nondisparagement terms. In 2022, the NLRB and the Federal Trade Commission forged a partnership to more widely combat unfair, anticompetitive, and deceptive business practices.
“Noncompete provisions reasonably tend to chill employees in the exercise of Section 7 rights when the provisions could reasonably be construed by employees to deny them the ability to quit or change jobs by cutting off their access to other employment opportunities that they are qualified for,” NLRB General Counsel Jennifer Abruzzo said in a 2023 release.
Ms. Abruzzo stressed in a memo that NLR Act is committed to an interagency approach to restrictions on the exercise of employee rights, “including limits to workers’ job mobility, information sharing, and referrals to other agencies.”
Mount Sinai Health System must respond to the NLRB’s complaint by July 16, and an administrative law judge is scheduled to hear the case on September 24.
A version of this article first appeared on Medscape.com.
Can Cannabis Help to Reduce Diabetes Risk?
ORLANDO, FLORIDA — , ongoing research suggests.
In the findings from the SONIC trial, Angela Bryan, PhD, professor and codirector of CUChange at the University of Colorado, Boulder, and colleagues hypothesized that “those inflammatory profiles would improve over the course of 4 weeks, particularly for those using a CBD [cannabidiol] as opposed to a THC [tetrahydrocannabinol] product.”
She presented the findings at the American Diabetes Association (ADA) 84th Scientific Sessions.
Other recent work by Dr. Bryan and her colleagues focused on the public health implications of cannabis legalization. One study examined the acute effects of legal-market cannabis on regular users’ subjective responses while running and found that cannabis use prior to exercise may lead to more enjoyment and runner’s high symptoms, although it also led to feelings of greater exertion. The positive effects could make exercise more appealing to individuals — including those with or at risk for diabetes — who might not otherwise engage in it, Bryan suggested.
Another study found that CBD-dominant forms of cannabis were associated with acute tension reduction, which might lead to longer-term reductions in anxiety. Bryan said the findings could be relevant in the context of diabetes distress.
‘Complicated’ Connection to Diabetes
In the SONIC study, participants who were regular cannabis users had an average age of 30 years and had body mass index (BMI) in the healthy range; 86% were White individuals, and 59% were men. They were matched with a similar group of individuals who had not used cannabis for at least a year. At baseline, participants’ NSDR Healthy Eating Index score overall was 51.24, showing a “need for improvement/poor diet.”
“Folks were maybe not killing it in the dietary domain,” Dr. Bryan acknowledged. “However, they were absolutely killing it in the physical activity domain.”
The researchers did oral glucose tolerance tests to calculate participants’ Matsuda index of insulin sensitivity and measured inflammatory markers, including tumor necrosis factor alpha, interleukin 6 (IL6), IL1 beta, IL12, interferon gamma, IL4, and monocyte chemoattractant protein 1 (MCP-1). In a “randomized encouragement” design, users were assigned to purchase and use a flower product for 4 weeks, however much they wanted. They completed daily assessments of their cannabis use, alcohol use, diet, and physical activity.
Between-group eating patterns were similar over the 4 weeks, with cannabis users reporting “marginally” more servings of salty snacks and food relative to nonusers. None of the daily associations were moderated by which cannabis product was used.
At 4 weeks, the team repeated the tests and, surprisingly, found no change in participants’ inflammatory markers. But what “popped out,” she said, was the “stark difference” between users and nonusers, with users having significantly lower levels of inflammatory biomarkers, circulating cytokines than the nonusers.
An exception were levels of MCP-1, which increased over time in the users but didn’t change in nonusers. Bryan said the finding is “perplexing” and asked the audience for thoughts, especially given that MCP-1 levels are positively associated with diabetes.
After controlling for BMI and inflammation, “we saw absolutely no effects of group or group by time interaction on the Matsuda index of insulin sensitivity,” she said. “Seemingly, there are no chronic effects of cannabis use on insulin sensitivity.”
Regarding limitations, Dr. Bryan acknowledged that the study is being conducted with “a very healthy sample of individuals who exercise a lot, and that might be factoring into our results, especially on insulin sensitivity.” The team could not use “gold standard” randomization because of the schedule-1 status of CannaVan cannabis, and the MCP-1 findings are difficult to interpret.
Furthermore, she noted, “our day-to-day level data show only slight differences in behavior between those who use cannabis and those who don’t and also very slight differences between users’ behavior on days that they use vs days that they don’t.
“I think all of this put together shows us that the relationship between cannabis use and potential implications for diabetes is a lot more complicated than just couch to couchlock [very deep relaxation/sedation] or runner’s high,” she said.
Bring On the CannaVan
The team’s next step, currently underway, is to get an acute response to cannabis with an oral glucose tolerance test that’s done immediately after the participant uses a product. Since cannabis is a schedule-1 drug, it can’t be taken into the laboratory. Therefore, the researchers are using a CannaVan — a mobile lab. “We drive it to their homes, they come out, we draw blood, and we send them back into their homes to use as much of their product as they want,” Bryan explained. “They come back out to the van. They do all the follow-up assessments. We take blood again to verify their exposure. And that’s how we collect those data.”
“Invite me back next year, and I will tell you what we found,” she quipped.
Dr. Bryan had no disclosures to report.
A version of this article first appeared on Medscape.com.
ORLANDO, FLORIDA — , ongoing research suggests.
In the findings from the SONIC trial, Angela Bryan, PhD, professor and codirector of CUChange at the University of Colorado, Boulder, and colleagues hypothesized that “those inflammatory profiles would improve over the course of 4 weeks, particularly for those using a CBD [cannabidiol] as opposed to a THC [tetrahydrocannabinol] product.”
She presented the findings at the American Diabetes Association (ADA) 84th Scientific Sessions.
Other recent work by Dr. Bryan and her colleagues focused on the public health implications of cannabis legalization. One study examined the acute effects of legal-market cannabis on regular users’ subjective responses while running and found that cannabis use prior to exercise may lead to more enjoyment and runner’s high symptoms, although it also led to feelings of greater exertion. The positive effects could make exercise more appealing to individuals — including those with or at risk for diabetes — who might not otherwise engage in it, Bryan suggested.
Another study found that CBD-dominant forms of cannabis were associated with acute tension reduction, which might lead to longer-term reductions in anxiety. Bryan said the findings could be relevant in the context of diabetes distress.
‘Complicated’ Connection to Diabetes
In the SONIC study, participants who were regular cannabis users had an average age of 30 years and had body mass index (BMI) in the healthy range; 86% were White individuals, and 59% were men. They were matched with a similar group of individuals who had not used cannabis for at least a year. At baseline, participants’ NSDR Healthy Eating Index score overall was 51.24, showing a “need for improvement/poor diet.”
“Folks were maybe not killing it in the dietary domain,” Dr. Bryan acknowledged. “However, they were absolutely killing it in the physical activity domain.”
The researchers did oral glucose tolerance tests to calculate participants’ Matsuda index of insulin sensitivity and measured inflammatory markers, including tumor necrosis factor alpha, interleukin 6 (IL6), IL1 beta, IL12, interferon gamma, IL4, and monocyte chemoattractant protein 1 (MCP-1). In a “randomized encouragement” design, users were assigned to purchase and use a flower product for 4 weeks, however much they wanted. They completed daily assessments of their cannabis use, alcohol use, diet, and physical activity.
Between-group eating patterns were similar over the 4 weeks, with cannabis users reporting “marginally” more servings of salty snacks and food relative to nonusers. None of the daily associations were moderated by which cannabis product was used.
At 4 weeks, the team repeated the tests and, surprisingly, found no change in participants’ inflammatory markers. But what “popped out,” she said, was the “stark difference” between users and nonusers, with users having significantly lower levels of inflammatory biomarkers, circulating cytokines than the nonusers.
An exception were levels of MCP-1, which increased over time in the users but didn’t change in nonusers. Bryan said the finding is “perplexing” and asked the audience for thoughts, especially given that MCP-1 levels are positively associated with diabetes.
After controlling for BMI and inflammation, “we saw absolutely no effects of group or group by time interaction on the Matsuda index of insulin sensitivity,” she said. “Seemingly, there are no chronic effects of cannabis use on insulin sensitivity.”
Regarding limitations, Dr. Bryan acknowledged that the study is being conducted with “a very healthy sample of individuals who exercise a lot, and that might be factoring into our results, especially on insulin sensitivity.” The team could not use “gold standard” randomization because of the schedule-1 status of CannaVan cannabis, and the MCP-1 findings are difficult to interpret.
Furthermore, she noted, “our day-to-day level data show only slight differences in behavior between those who use cannabis and those who don’t and also very slight differences between users’ behavior on days that they use vs days that they don’t.
“I think all of this put together shows us that the relationship between cannabis use and potential implications for diabetes is a lot more complicated than just couch to couchlock [very deep relaxation/sedation] or runner’s high,” she said.
Bring On the CannaVan
The team’s next step, currently underway, is to get an acute response to cannabis with an oral glucose tolerance test that’s done immediately after the participant uses a product. Since cannabis is a schedule-1 drug, it can’t be taken into the laboratory. Therefore, the researchers are using a CannaVan — a mobile lab. “We drive it to their homes, they come out, we draw blood, and we send them back into their homes to use as much of their product as they want,” Bryan explained. “They come back out to the van. They do all the follow-up assessments. We take blood again to verify their exposure. And that’s how we collect those data.”
“Invite me back next year, and I will tell you what we found,” she quipped.
Dr. Bryan had no disclosures to report.
A version of this article first appeared on Medscape.com.
ORLANDO, FLORIDA — , ongoing research suggests.
In the findings from the SONIC trial, Angela Bryan, PhD, professor and codirector of CUChange at the University of Colorado, Boulder, and colleagues hypothesized that “those inflammatory profiles would improve over the course of 4 weeks, particularly for those using a CBD [cannabidiol] as opposed to a THC [tetrahydrocannabinol] product.”
She presented the findings at the American Diabetes Association (ADA) 84th Scientific Sessions.
Other recent work by Dr. Bryan and her colleagues focused on the public health implications of cannabis legalization. One study examined the acute effects of legal-market cannabis on regular users’ subjective responses while running and found that cannabis use prior to exercise may lead to more enjoyment and runner’s high symptoms, although it also led to feelings of greater exertion. The positive effects could make exercise more appealing to individuals — including those with or at risk for diabetes — who might not otherwise engage in it, Bryan suggested.
Another study found that CBD-dominant forms of cannabis were associated with acute tension reduction, which might lead to longer-term reductions in anxiety. Bryan said the findings could be relevant in the context of diabetes distress.
‘Complicated’ Connection to Diabetes
In the SONIC study, participants who were regular cannabis users had an average age of 30 years and had body mass index (BMI) in the healthy range; 86% were White individuals, and 59% were men. They were matched with a similar group of individuals who had not used cannabis for at least a year. At baseline, participants’ NSDR Healthy Eating Index score overall was 51.24, showing a “need for improvement/poor diet.”
“Folks were maybe not killing it in the dietary domain,” Dr. Bryan acknowledged. “However, they were absolutely killing it in the physical activity domain.”
The researchers did oral glucose tolerance tests to calculate participants’ Matsuda index of insulin sensitivity and measured inflammatory markers, including tumor necrosis factor alpha, interleukin 6 (IL6), IL1 beta, IL12, interferon gamma, IL4, and monocyte chemoattractant protein 1 (MCP-1). In a “randomized encouragement” design, users were assigned to purchase and use a flower product for 4 weeks, however much they wanted. They completed daily assessments of their cannabis use, alcohol use, diet, and physical activity.
Between-group eating patterns were similar over the 4 weeks, with cannabis users reporting “marginally” more servings of salty snacks and food relative to nonusers. None of the daily associations were moderated by which cannabis product was used.
At 4 weeks, the team repeated the tests and, surprisingly, found no change in participants’ inflammatory markers. But what “popped out,” she said, was the “stark difference” between users and nonusers, with users having significantly lower levels of inflammatory biomarkers, circulating cytokines than the nonusers.
An exception were levels of MCP-1, which increased over time in the users but didn’t change in nonusers. Bryan said the finding is “perplexing” and asked the audience for thoughts, especially given that MCP-1 levels are positively associated with diabetes.
After controlling for BMI and inflammation, “we saw absolutely no effects of group or group by time interaction on the Matsuda index of insulin sensitivity,” she said. “Seemingly, there are no chronic effects of cannabis use on insulin sensitivity.”
Regarding limitations, Dr. Bryan acknowledged that the study is being conducted with “a very healthy sample of individuals who exercise a lot, and that might be factoring into our results, especially on insulin sensitivity.” The team could not use “gold standard” randomization because of the schedule-1 status of CannaVan cannabis, and the MCP-1 findings are difficult to interpret.
Furthermore, she noted, “our day-to-day level data show only slight differences in behavior between those who use cannabis and those who don’t and also very slight differences between users’ behavior on days that they use vs days that they don’t.
“I think all of this put together shows us that the relationship between cannabis use and potential implications for diabetes is a lot more complicated than just couch to couchlock [very deep relaxation/sedation] or runner’s high,” she said.
Bring On the CannaVan
The team’s next step, currently underway, is to get an acute response to cannabis with an oral glucose tolerance test that’s done immediately after the participant uses a product. Since cannabis is a schedule-1 drug, it can’t be taken into the laboratory. Therefore, the researchers are using a CannaVan — a mobile lab. “We drive it to their homes, they come out, we draw blood, and we send them back into their homes to use as much of their product as they want,” Bryan explained. “They come back out to the van. They do all the follow-up assessments. We take blood again to verify their exposure. And that’s how we collect those data.”
“Invite me back next year, and I will tell you what we found,” she quipped.
Dr. Bryan had no disclosures to report.
A version of this article first appeared on Medscape.com.
FROM ADA 2024
Can Response to Semaglutide Be Predicted With a Genetic Test?
ORLANDO, FLORIDA — An analysis of data from 137 patients suggested testing whether people have a trait known as abnormal postprandial satiety (APS), or hungry gut, can predict how well they may respond to the obesity drug semaglutide, although it failed to establish this link for the somewhat similar tirzepatide.
At the American Diabetes Association (ADA) Scientific Sessions, Maria Daniela Hurtado Andrade, MD, PhD, of the Mayo Clinic, Jacksonville, Florida, presented results of a study using the MyPhenome Hungry Gut test, which was developed through machine learning, a form of artificial intelligence.
The test is part of the MyPhenome obesity phenotyping portfolio from Phenomix Sciences, a company founded by Mayo Clinic physicians, scientists, and researchers Andres Acosta, MD, PhD, and Michael Camilleri, MD, DSc.
At the ADA meeting, Dr. Hurtado Andrade discussed a test of 137 adults: 91 were considered to have a positive biomarker for abnormal postprandial satiety (APS+), and 46 who did not have it were classified as APS−. These were patients of the Mayo Clinic who were already taking obesity drugs and agreed to phenotyping. Of this group, 113 were on semaglutide and 24 on tirzepatide.
, with a mean 19.4% body weight loss in the APS+ group and a mean loss of 22.1% in the APS− group.
Further studies are warranted to assess the clinical utility of these biomarkers, Dr. Hurtado Andrade said. But these findings do support “the use of precision medicine for obesity based on an individual’s genetic background,” she said.
Dr. Hurtado Andrade’s presentation impressed fellow researchers who noted it as an early step toward the long-sought goal of more personalized medicine.
Daniel S. Hsia, MD, of Emory University, Atlanta, who led the ADA session at which Dr. Hurtado Andrade presented, said it was good to see new information being presented about using genetic risk scoring in obesity.
“The numbers were very small for the tirzepatide group as compared to the semaglutide group, so it’s a little hard to really come to any significant conclusions,” Dr. Hsia said in an interview.
At the ADA meeting, Ajay D. Rao, MD, MMSc, of Temple University, Philadelphia, said clinicians are excited about the idea of having biomarkers to aid in decisions about approaches to obesity.
In a follow-up interview with this news organization, Dr. Rao said he too is looking to see more testing of this approach to care, while describing Hurtado Andrade’s work as a “very well-done study.”
“We still need to see more large-scale studies of responsiveness to certain interventions,” he said.
Dr. Hurtado Andrade noted that researchers at academic centers such as Mayo can try to hone in the combination of genetic and other factors that led to obesity, such as emotional eating patterns and abnormal postprandial satiety.
But this approach is not widely scalable, as it demands resources of time and staffing that not all clinicians and patients enjoy.
“To overcome this challenge, our team has been working on developing biomarkers” such as the machine-learning gene risk score used to predict abnormal postprandial satiety, she said.
Findings for a related project were presented in May at Digestive Disease Week, as this news organization reported earlier. In that study, researchers calculated the genetic risk score for 84 adults undergoing weight loss interventions at Mayo Clinic who were prescribed the glucagon-like peptide 1 receptor agonist semaglutide.
This news organization separately asked Phenomix about the sales of MyPhenome Test kits. These cost $499, and about 500 tests have been sold since commercialization started last year, a spokesperson said.
The study was funded by Phenomix Sciences. Separately, Dr. Hurtado Andrade has worked as a consultant for Novo Nordisk and received research support from the National Institutes of Health.
A version of this article first appeared on Medscape.com.
ORLANDO, FLORIDA — An analysis of data from 137 patients suggested testing whether people have a trait known as abnormal postprandial satiety (APS), or hungry gut, can predict how well they may respond to the obesity drug semaglutide, although it failed to establish this link for the somewhat similar tirzepatide.
At the American Diabetes Association (ADA) Scientific Sessions, Maria Daniela Hurtado Andrade, MD, PhD, of the Mayo Clinic, Jacksonville, Florida, presented results of a study using the MyPhenome Hungry Gut test, which was developed through machine learning, a form of artificial intelligence.
The test is part of the MyPhenome obesity phenotyping portfolio from Phenomix Sciences, a company founded by Mayo Clinic physicians, scientists, and researchers Andres Acosta, MD, PhD, and Michael Camilleri, MD, DSc.
At the ADA meeting, Dr. Hurtado Andrade discussed a test of 137 adults: 91 were considered to have a positive biomarker for abnormal postprandial satiety (APS+), and 46 who did not have it were classified as APS−. These were patients of the Mayo Clinic who were already taking obesity drugs and agreed to phenotyping. Of this group, 113 were on semaglutide and 24 on tirzepatide.
, with a mean 19.4% body weight loss in the APS+ group and a mean loss of 22.1% in the APS− group.
Further studies are warranted to assess the clinical utility of these biomarkers, Dr. Hurtado Andrade said. But these findings do support “the use of precision medicine for obesity based on an individual’s genetic background,” she said.
Dr. Hurtado Andrade’s presentation impressed fellow researchers who noted it as an early step toward the long-sought goal of more personalized medicine.
Daniel S. Hsia, MD, of Emory University, Atlanta, who led the ADA session at which Dr. Hurtado Andrade presented, said it was good to see new information being presented about using genetic risk scoring in obesity.
“The numbers were very small for the tirzepatide group as compared to the semaglutide group, so it’s a little hard to really come to any significant conclusions,” Dr. Hsia said in an interview.
At the ADA meeting, Ajay D. Rao, MD, MMSc, of Temple University, Philadelphia, said clinicians are excited about the idea of having biomarkers to aid in decisions about approaches to obesity.
In a follow-up interview with this news organization, Dr. Rao said he too is looking to see more testing of this approach to care, while describing Hurtado Andrade’s work as a “very well-done study.”
“We still need to see more large-scale studies of responsiveness to certain interventions,” he said.
Dr. Hurtado Andrade noted that researchers at academic centers such as Mayo can try to hone in the combination of genetic and other factors that led to obesity, such as emotional eating patterns and abnormal postprandial satiety.
But this approach is not widely scalable, as it demands resources of time and staffing that not all clinicians and patients enjoy.
“To overcome this challenge, our team has been working on developing biomarkers” such as the machine-learning gene risk score used to predict abnormal postprandial satiety, she said.
Findings for a related project were presented in May at Digestive Disease Week, as this news organization reported earlier. In that study, researchers calculated the genetic risk score for 84 adults undergoing weight loss interventions at Mayo Clinic who were prescribed the glucagon-like peptide 1 receptor agonist semaglutide.
This news organization separately asked Phenomix about the sales of MyPhenome Test kits. These cost $499, and about 500 tests have been sold since commercialization started last year, a spokesperson said.
The study was funded by Phenomix Sciences. Separately, Dr. Hurtado Andrade has worked as a consultant for Novo Nordisk and received research support from the National Institutes of Health.
A version of this article first appeared on Medscape.com.
ORLANDO, FLORIDA — An analysis of data from 137 patients suggested testing whether people have a trait known as abnormal postprandial satiety (APS), or hungry gut, can predict how well they may respond to the obesity drug semaglutide, although it failed to establish this link for the somewhat similar tirzepatide.
At the American Diabetes Association (ADA) Scientific Sessions, Maria Daniela Hurtado Andrade, MD, PhD, of the Mayo Clinic, Jacksonville, Florida, presented results of a study using the MyPhenome Hungry Gut test, which was developed through machine learning, a form of artificial intelligence.
The test is part of the MyPhenome obesity phenotyping portfolio from Phenomix Sciences, a company founded by Mayo Clinic physicians, scientists, and researchers Andres Acosta, MD, PhD, and Michael Camilleri, MD, DSc.
At the ADA meeting, Dr. Hurtado Andrade discussed a test of 137 adults: 91 were considered to have a positive biomarker for abnormal postprandial satiety (APS+), and 46 who did not have it were classified as APS−. These were patients of the Mayo Clinic who were already taking obesity drugs and agreed to phenotyping. Of this group, 113 were on semaglutide and 24 on tirzepatide.
, with a mean 19.4% body weight loss in the APS+ group and a mean loss of 22.1% in the APS− group.
Further studies are warranted to assess the clinical utility of these biomarkers, Dr. Hurtado Andrade said. But these findings do support “the use of precision medicine for obesity based on an individual’s genetic background,” she said.
Dr. Hurtado Andrade’s presentation impressed fellow researchers who noted it as an early step toward the long-sought goal of more personalized medicine.
Daniel S. Hsia, MD, of Emory University, Atlanta, who led the ADA session at which Dr. Hurtado Andrade presented, said it was good to see new information being presented about using genetic risk scoring in obesity.
“The numbers were very small for the tirzepatide group as compared to the semaglutide group, so it’s a little hard to really come to any significant conclusions,” Dr. Hsia said in an interview.
At the ADA meeting, Ajay D. Rao, MD, MMSc, of Temple University, Philadelphia, said clinicians are excited about the idea of having biomarkers to aid in decisions about approaches to obesity.
In a follow-up interview with this news organization, Dr. Rao said he too is looking to see more testing of this approach to care, while describing Hurtado Andrade’s work as a “very well-done study.”
“We still need to see more large-scale studies of responsiveness to certain interventions,” he said.
Dr. Hurtado Andrade noted that researchers at academic centers such as Mayo can try to hone in the combination of genetic and other factors that led to obesity, such as emotional eating patterns and abnormal postprandial satiety.
But this approach is not widely scalable, as it demands resources of time and staffing that not all clinicians and patients enjoy.
“To overcome this challenge, our team has been working on developing biomarkers” such as the machine-learning gene risk score used to predict abnormal postprandial satiety, she said.
Findings for a related project were presented in May at Digestive Disease Week, as this news organization reported earlier. In that study, researchers calculated the genetic risk score for 84 adults undergoing weight loss interventions at Mayo Clinic who were prescribed the glucagon-like peptide 1 receptor agonist semaglutide.
This news organization separately asked Phenomix about the sales of MyPhenome Test kits. These cost $499, and about 500 tests have been sold since commercialization started last year, a spokesperson said.
The study was funded by Phenomix Sciences. Separately, Dr. Hurtado Andrade has worked as a consultant for Novo Nordisk and received research support from the National Institutes of Health.
A version of this article first appeared on Medscape.com.
FROM ADA 2024
Urticaria Linked to Higher Cancer Risk, Study Finds
TOPLINE:
which decreased to 6% in subsequent years, in a cohort study using Danish healthcare databases.
METHODOLOGY:
- Researchers conducted a retrospective cohort study using data from Danish healthcare registries and compared the incident cancer risk between patients with urticaria and the risk in the general population.
- They identified 87,507 patients (58% women) with a primary or secondary first-time hospital outpatient clinic, emergency room, or inpatient diagnosis of urticaria between 1980 and 2022, who were followed for a median of 10.1 years.
- Incident cancers, including nonmelanoma skin cancer, were identified using the Danish Cancer Registry and classified by the extent of spread at the time of diagnosis.
- This study computed the absolute cancer risk within the first year of an urticaria diagnosis and standardized incidence ratios (SIRs), with 95% CIs standardized to Danish national cancer rates.
TAKEAWAY:
- For the first year of follow-up, the absolute risk for all cancer types was 0.7%, and it was 29.5% for subsequent years. The overall SIR for all types of cancer was 1.09 (95% CI, 1.06-1.11), which was based on 7788 observed cancer cases compared with 7161 cases expected over the entire follow-up period.
- Within the first year of follow-up, 588 patients with urticaria were diagnosed with cancer, for an SIR of 1.49 (95% CI, 1.38-1.62) for all cancer types.
- After the first year, the SIR for all cancer sites decreased and stabilized at 1.06 (95% CI, 1.04-1.09), with 7200 observed cancer cases.
- The risk was highest for hematological cancers in the first year, particularly Hodgkin lymphoma (SIR, 5.35; 95% CI, 2.56-9.85).
IN PRACTICE:
“Our study suggests that urticaria may be a marker of occult cancer and that it is associated with a slightly increased long-term cancer risk,” the authors wrote.
SOURCE:
The study was led by Sissel B.T. Sørensen, departments of dermatology and rheumatology, Aarhus University Hospital, Aarhus, Denmark. It was published online on June 27, 2024, in the British Journal of Dermatology.
LIMITATIONS:
The study is limited by its observational design and reliance on registry data, which may be subject to misclassification or incomplete information. In addition, the study could not assess individual patient factors such as lifestyle or genetic predispositions that may influence cancer risk, and the results may not be generalizable to other populations. Finally, the exact biologic mechanisms linking urticaria and cancer remain unclear, warranting further investigation.
DISCLOSURES:
The study did not receive any funding. The authors reported that they had no relevant conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.
TOPLINE:
which decreased to 6% in subsequent years, in a cohort study using Danish healthcare databases.
METHODOLOGY:
- Researchers conducted a retrospective cohort study using data from Danish healthcare registries and compared the incident cancer risk between patients with urticaria and the risk in the general population.
- They identified 87,507 patients (58% women) with a primary or secondary first-time hospital outpatient clinic, emergency room, or inpatient diagnosis of urticaria between 1980 and 2022, who were followed for a median of 10.1 years.
- Incident cancers, including nonmelanoma skin cancer, were identified using the Danish Cancer Registry and classified by the extent of spread at the time of diagnosis.
- This study computed the absolute cancer risk within the first year of an urticaria diagnosis and standardized incidence ratios (SIRs), with 95% CIs standardized to Danish national cancer rates.
TAKEAWAY:
- For the first year of follow-up, the absolute risk for all cancer types was 0.7%, and it was 29.5% for subsequent years. The overall SIR for all types of cancer was 1.09 (95% CI, 1.06-1.11), which was based on 7788 observed cancer cases compared with 7161 cases expected over the entire follow-up period.
- Within the first year of follow-up, 588 patients with urticaria were diagnosed with cancer, for an SIR of 1.49 (95% CI, 1.38-1.62) for all cancer types.
- After the first year, the SIR for all cancer sites decreased and stabilized at 1.06 (95% CI, 1.04-1.09), with 7200 observed cancer cases.
- The risk was highest for hematological cancers in the first year, particularly Hodgkin lymphoma (SIR, 5.35; 95% CI, 2.56-9.85).
IN PRACTICE:
“Our study suggests that urticaria may be a marker of occult cancer and that it is associated with a slightly increased long-term cancer risk,” the authors wrote.
SOURCE:
The study was led by Sissel B.T. Sørensen, departments of dermatology and rheumatology, Aarhus University Hospital, Aarhus, Denmark. It was published online on June 27, 2024, in the British Journal of Dermatology.
LIMITATIONS:
The study is limited by its observational design and reliance on registry data, which may be subject to misclassification or incomplete information. In addition, the study could not assess individual patient factors such as lifestyle or genetic predispositions that may influence cancer risk, and the results may not be generalizable to other populations. Finally, the exact biologic mechanisms linking urticaria and cancer remain unclear, warranting further investigation.
DISCLOSURES:
The study did not receive any funding. The authors reported that they had no relevant conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.
TOPLINE:
which decreased to 6% in subsequent years, in a cohort study using Danish healthcare databases.
METHODOLOGY:
- Researchers conducted a retrospective cohort study using data from Danish healthcare registries and compared the incident cancer risk between patients with urticaria and the risk in the general population.
- They identified 87,507 patients (58% women) with a primary or secondary first-time hospital outpatient clinic, emergency room, or inpatient diagnosis of urticaria between 1980 and 2022, who were followed for a median of 10.1 years.
- Incident cancers, including nonmelanoma skin cancer, were identified using the Danish Cancer Registry and classified by the extent of spread at the time of diagnosis.
- This study computed the absolute cancer risk within the first year of an urticaria diagnosis and standardized incidence ratios (SIRs), with 95% CIs standardized to Danish national cancer rates.
TAKEAWAY:
- For the first year of follow-up, the absolute risk for all cancer types was 0.7%, and it was 29.5% for subsequent years. The overall SIR for all types of cancer was 1.09 (95% CI, 1.06-1.11), which was based on 7788 observed cancer cases compared with 7161 cases expected over the entire follow-up period.
- Within the first year of follow-up, 588 patients with urticaria were diagnosed with cancer, for an SIR of 1.49 (95% CI, 1.38-1.62) for all cancer types.
- After the first year, the SIR for all cancer sites decreased and stabilized at 1.06 (95% CI, 1.04-1.09), with 7200 observed cancer cases.
- The risk was highest for hematological cancers in the first year, particularly Hodgkin lymphoma (SIR, 5.35; 95% CI, 2.56-9.85).
IN PRACTICE:
“Our study suggests that urticaria may be a marker of occult cancer and that it is associated with a slightly increased long-term cancer risk,” the authors wrote.
SOURCE:
The study was led by Sissel B.T. Sørensen, departments of dermatology and rheumatology, Aarhus University Hospital, Aarhus, Denmark. It was published online on June 27, 2024, in the British Journal of Dermatology.
LIMITATIONS:
The study is limited by its observational design and reliance on registry data, which may be subject to misclassification or incomplete information. In addition, the study could not assess individual patient factors such as lifestyle or genetic predispositions that may influence cancer risk, and the results may not be generalizable to other populations. Finally, the exact biologic mechanisms linking urticaria and cancer remain unclear, warranting further investigation.
DISCLOSURES:
The study did not receive any funding. The authors reported that they had no relevant conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.