Cardiology News

Glucagon-like peptide 1 (GLP-1) receptor agonists such as semaglutide (marketed as Ozempic and Rybelsus for type 2 diabetes and as Wegovy for obesity) slow down digestion and curb hunger by working on the brain’s dopamine reward center. They are prescribed to promote weight loss, metabolic health in type 2 diabetes, and heart health in coronary artery disease.

Semaglutide can be prescribed in two forms: the brand-name version, which is approved and confirmed as safe and effective by the US Food and Drug Administration (FDA), and the versions that can be obtained from a compounding pharmacy. Compounding pharmacies are permitted by the FDA to produce what is “ essentially a copy” of approved medications when there’s an official shortage, which is currently the case with semaglutide and other GLP-1 receptor agonists.

Patients are often drawn to compounding pharmacies for pricing-related reasons. If semaglutide is prescribed for a clear indication like diabetes and is covered by insurance, the brand-name version is commonly dispensed. However, if it’s not covered, patients need to pay out of pocket for branded versions, which carry a monthly cost of $1000 or more. Alternatively, their doctors can prescribe compounded semaglutide, which some telehealth companies advertise at costs of approximately $150-$300 per month.
 

Potential Issues With Compounded Semaglutide 

Compounding pharmacies produce drugs from raw materials containing active pharmaceutical ingredients (APIs). Although compounders use many of the same ingredients found in brand-name medications, for drugs like semaglutide, they may opt for specific salts that are not identical to those involved in the production of the standard versions. These salts are typically reserved for research purposes and may not be suitable for general use.

In late 2023, the FDA issued a letter asking the public to exercise caution when using compounded products containing semaglutide or semaglutide salts. This was followed in January 2024 by an FDA communication citing adverse events reported with the use of compounded semaglutide and advising patients to avoid these versions if an approved form of the drug is available.
 

Compound Pharmacies: A Closer Look 

Compounding pharmacies have exploded in popularity in the past several decades. The compounding pharmacy market is expected to grow at 7.8% per year over the next decade. 

Historically, compounding pharmacies have filled a niche for specialty vitamins for intravenous administration as well as chemotherapy medications. They also offer controlled substances, such as ketamine lozenges and nasal sprays, which are unavailable or are in short supply from traditional manufacturers.

Compounding pharmacies fall into two categories. First are compounding pharmacies covered under Section 503A of the Federal Food, Drug and Cosmetic Act; these drugs are neither tested nor monitored. Such facilities do not have to report adverse events to the FDA. The second category is Section 503B outsourcing facilities. These pharmacies choose to be tested by, to be inspected by, and to report adverse events to the FDA. 
 

The FDA’s Latest Update on This Issue

This news organization contacted the FDA for an update on the adverse events reported about compounded semaglutide. From August 8, 2021, to March 31, 2024, they received more than 20,000 adverse events reports for FDA-approved semaglutide. Comparatively, there were 210 adverse events reported on compounded semaglutide products. 

The FDA went on to describe that many of the adverse events reported were consistent with known reactions in the labeling, like nausea, diarrhea, and headache. Yet, they added that, “the FDA is unable to determine how, or if, other factors may have contributed to these adverse events, such as differences in ingredients and formulation between FDA-approved and compounded semaglutide products.” They also noted there was variation in the data quality in the reports they have received, which came only from 503B compounding pharmacies.

In conclusion, given the concerns about compounded semaglutide, it is prudent for the prescribing physicians as well as the patients taking the medication to know that risks are “higher” according to the FDA. We eagerly await more specific information from the FDA to better understand reported adverse events. 
 

How to Help Patients Receive Safe Compounded Semaglutide 

For clinicians considering prescribing semaglutide from compounding pharmacies, there are several questions worth asking, according to the Alliance for Pharmacy Compounding. First, find out whether the pharmacy complies with United States Pharmacopeia compounding standards and whether they source their APIs from FDA-registered facilities, the latter being required by federal law. It’s also important to ensure that these facilities undergo periodic third-party testing to verify medication purity and dosing. 

Ask whether the pharmacy is accredited by the Pharmacy Compounding Accreditation Board (PCAB). Accreditation from the PCAB means that pharmacies have been assessed for processes related to continuous quality improvement. In addition, ask whether the pharmacy is designated as a 503B compounder and if not, why.

Finally, interviewing the pharmacist themselves can provide useful information about staffing, training, and their methods of preparing medications. For example, if they are preparing a sterile eye drop, it is important to ask about sterility testing.

Jesse M. Pines, MD, MBA, MSCE, is a clinical professor of emergency medicine at George Washington University in Washington, and a professor in the department of emergency medicine at Drexel University College of Medicine in Philadelphia, Pennsylvania. Dr. Pines is also the chief of clinical innovation at US Acute Care Solutions in Canton, Ohio. Robert D. Glatter, MD, is an assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. Dr. Pines reported conflicts of interest with CSL Behring and Abbott Point-of-Care. Dr. Glatter reported no relevant conflicts of interest.
 

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

Glucagon-like peptide 1 (GLP-1) receptor agonists such as semaglutide (marketed as Ozempic and Rybelsus for type 2 diabetes and as Wegovy for obesity) slow down digestion and curb hunger by working on the brain’s dopamine reward center. They are prescribed to promote weight loss, metabolic health in type 2 diabetes, and heart health in coronary artery disease.

Semaglutide can be prescribed in two forms: the brand-name version, which is approved and confirmed as safe and effective by the US Food and Drug Administration (FDA), and the versions that can be obtained from a compounding pharmacy. Compounding pharmacies are permitted by the FDA to produce what is “ essentially a copy” of approved medications when there’s an official shortage, which is currently the case with semaglutide and other GLP-1 receptor agonists.

Patients are often drawn to compounding pharmacies for pricing-related reasons. If semaglutide is prescribed for a clear indication like diabetes and is covered by insurance, the brand-name version is commonly dispensed. However, if it’s not covered, patients need to pay out of pocket for branded versions, which carry a monthly cost of $1000 or more. Alternatively, their doctors can prescribe compounded semaglutide, which some telehealth companies advertise at costs of approximately $150-$300 per month.
 

Potential Issues With Compounded Semaglutide 

Compounding pharmacies produce drugs from raw materials containing active pharmaceutical ingredients (APIs). Although compounders use many of the same ingredients found in brand-name medications, for drugs like semaglutide, they may opt for specific salts that are not identical to those involved in the production of the standard versions. These salts are typically reserved for research purposes and may not be suitable for general use.

In late 2023, the FDA issued a letter asking the public to exercise caution when using compounded products containing semaglutide or semaglutide salts. This was followed in January 2024 by an FDA communication citing adverse events reported with the use of compounded semaglutide and advising patients to avoid these versions if an approved form of the drug is available.
 

Compound Pharmacies: A Closer Look 

Compounding pharmacies have exploded in popularity in the past several decades. The compounding pharmacy market is expected to grow at 7.8% per year over the next decade. 

Historically, compounding pharmacies have filled a niche for specialty vitamins for intravenous administration as well as chemotherapy medications. They also offer controlled substances, such as ketamine lozenges and nasal sprays, which are unavailable or are in short supply from traditional manufacturers.

Compounding pharmacies fall into two categories. First are compounding pharmacies covered under Section 503A of the Federal Food, Drug and Cosmetic Act; these drugs are neither tested nor monitored. Such facilities do not have to report adverse events to the FDA. The second category is Section 503B outsourcing facilities. These pharmacies choose to be tested by, to be inspected by, and to report adverse events to the FDA. 
 

The FDA’s Latest Update on This Issue

This news organization contacted the FDA for an update on the adverse events reported about compounded semaglutide. From August 8, 2021, to March 31, 2024, they received more than 20,000 adverse events reports for FDA-approved semaglutide. Comparatively, there were 210 adverse events reported on compounded semaglutide products. 

The FDA went on to describe that many of the adverse events reported were consistent with known reactions in the labeling, like nausea, diarrhea, and headache. Yet, they added that, “the FDA is unable to determine how, or if, other factors may have contributed to these adverse events, such as differences in ingredients and formulation between FDA-approved and compounded semaglutide products.” They also noted there was variation in the data quality in the reports they have received, which came only from 503B compounding pharmacies.

In conclusion, given the concerns about compounded semaglutide, it is prudent for the prescribing physicians as well as the patients taking the medication to know that risks are “higher” according to the FDA. We eagerly await more specific information from the FDA to better understand reported adverse events. 
 

How to Help Patients Receive Safe Compounded Semaglutide 

For clinicians considering prescribing semaglutide from compounding pharmacies, there are several questions worth asking, according to the Alliance for Pharmacy Compounding. First, find out whether the pharmacy complies with United States Pharmacopeia compounding standards and whether they source their APIs from FDA-registered facilities, the latter being required by federal law. It’s also important to ensure that these facilities undergo periodic third-party testing to verify medication purity and dosing. 

Ask whether the pharmacy is accredited by the Pharmacy Compounding Accreditation Board (PCAB). Accreditation from the PCAB means that pharmacies have been assessed for processes related to continuous quality improvement. In addition, ask whether the pharmacy is designated as a 503B compounder and if not, why.

Finally, interviewing the pharmacist themselves can provide useful information about staffing, training, and their methods of preparing medications. For example, if they are preparing a sterile eye drop, it is important to ask about sterility testing.

Jesse M. Pines, MD, MBA, MSCE, is a clinical professor of emergency medicine at George Washington University in Washington, and a professor in the department of emergency medicine at Drexel University College of Medicine in Philadelphia, Pennsylvania. Dr. Pines is also the chief of clinical innovation at US Acute Care Solutions in Canton, Ohio. Robert D. Glatter, MD, is an assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. Dr. Pines reported conflicts of interest with CSL Behring and Abbott Point-of-Care. Dr. Glatter reported no relevant conflicts of interest.
 

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

Glucagon-like peptide 1 (GLP-1) receptor agonists such as semaglutide (marketed as Ozempic and Rybelsus for type 2 diabetes and as Wegovy for obesity) slow down digestion and curb hunger by working on the brain’s dopamine reward center. They are prescribed to promote weight loss, metabolic health in type 2 diabetes, and heart health in coronary artery disease.

Semaglutide can be prescribed in two forms: the brand-name version, which is approved and confirmed as safe and effective by the US Food and Drug Administration (FDA), and the versions that can be obtained from a compounding pharmacy. Compounding pharmacies are permitted by the FDA to produce what is “ essentially a copy” of approved medications when there’s an official shortage, which is currently the case with semaglutide and other GLP-1 receptor agonists.

Patients are often drawn to compounding pharmacies for pricing-related reasons. If semaglutide is prescribed for a clear indication like diabetes and is covered by insurance, the brand-name version is commonly dispensed. However, if it’s not covered, patients need to pay out of pocket for branded versions, which carry a monthly cost of $1000 or more. Alternatively, their doctors can prescribe compounded semaglutide, which some telehealth companies advertise at costs of approximately $150-$300 per month.
 

Potential Issues With Compounded Semaglutide 

Compounding pharmacies produce drugs from raw materials containing active pharmaceutical ingredients (APIs). Although compounders use many of the same ingredients found in brand-name medications, for drugs like semaglutide, they may opt for specific salts that are not identical to those involved in the production of the standard versions. These salts are typically reserved for research purposes and may not be suitable for general use.

In late 2023, the FDA issued a letter asking the public to exercise caution when using compounded products containing semaglutide or semaglutide salts. This was followed in January 2024 by an FDA communication citing adverse events reported with the use of compounded semaglutide and advising patients to avoid these versions if an approved form of the drug is available.
 

Compound Pharmacies: A Closer Look 

Compounding pharmacies have exploded in popularity in the past several decades. The compounding pharmacy market is expected to grow at 7.8% per year over the next decade. 

Historically, compounding pharmacies have filled a niche for specialty vitamins for intravenous administration as well as chemotherapy medications. They also offer controlled substances, such as ketamine lozenges and nasal sprays, which are unavailable or are in short supply from traditional manufacturers.

Compounding pharmacies fall into two categories. First are compounding pharmacies covered under Section 503A of the Federal Food, Drug and Cosmetic Act; these drugs are neither tested nor monitored. Such facilities do not have to report adverse events to the FDA. The second category is Section 503B outsourcing facilities. These pharmacies choose to be tested by, to be inspected by, and to report adverse events to the FDA. 
 

The FDA’s Latest Update on This Issue

This news organization contacted the FDA for an update on the adverse events reported about compounded semaglutide. From August 8, 2021, to March 31, 2024, they received more than 20,000 adverse events reports for FDA-approved semaglutide. Comparatively, there were 210 adverse events reported on compounded semaglutide products. 

The FDA went on to describe that many of the adverse events reported were consistent with known reactions in the labeling, like nausea, diarrhea, and headache. Yet, they added that, “the FDA is unable to determine how, or if, other factors may have contributed to these adverse events, such as differences in ingredients and formulation between FDA-approved and compounded semaglutide products.” They also noted there was variation in the data quality in the reports they have received, which came only from 503B compounding pharmacies.

In conclusion, given the concerns about compounded semaglutide, it is prudent for the prescribing physicians as well as the patients taking the medication to know that risks are “higher” according to the FDA. We eagerly await more specific information from the FDA to better understand reported adverse events. 
 

How to Help Patients Receive Safe Compounded Semaglutide 

For clinicians considering prescribing semaglutide from compounding pharmacies, there are several questions worth asking, according to the Alliance for Pharmacy Compounding. First, find out whether the pharmacy complies with United States Pharmacopeia compounding standards and whether they source their APIs from FDA-registered facilities, the latter being required by federal law. It’s also important to ensure that these facilities undergo periodic third-party testing to verify medication purity and dosing. 

Ask whether the pharmacy is accredited by the Pharmacy Compounding Accreditation Board (PCAB). Accreditation from the PCAB means that pharmacies have been assessed for processes related to continuous quality improvement. In addition, ask whether the pharmacy is designated as a 503B compounder and if not, why.

Finally, interviewing the pharmacist themselves can provide useful information about staffing, training, and their methods of preparing medications. For example, if they are preparing a sterile eye drop, it is important to ask about sterility testing.

Jesse M. Pines, MD, MBA, MSCE, is a clinical professor of emergency medicine at George Washington University in Washington, and a professor in the department of emergency medicine at Drexel University College of Medicine in Philadelphia, Pennsylvania. Dr. Pines is also the chief of clinical innovation at US Acute Care Solutions in Canton, Ohio. Robert D. Glatter, MD, is an assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. Dr. Pines reported conflicts of interest with CSL Behring and Abbott Point-of-Care. Dr. Glatter reported no relevant conflicts of interest.
 

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

This transcript has been edited for clarity. 

Andrew N. Wilner, MD: My guest today is Dr. Jose Merino, editor in chief of the Neurology family of journals and professor of neurology and co-vice chair of education at Georgetown University in Washington, DC.

Our program today is a follow-up of Dr. Merino’s presentation at the recent American Academy of Neurology meeting in Denver, Colorado. Along with two other panelists, Dr. Merino discussed the role of open-access publication and the dangers of predatory journals. 

Jose G. Merino, MD, MPhil: Thank you for having me here. It’s a pleasure.
 

Open Access Defined

Dr. Wilner: I remember when publication in neurology was pretty straightforward. It was either the green journal or the blue journal, but things have certainly changed. I think one topic that is not clear to everyone is this concept of open access. Could you define that for us? 

Dr. Merino: Sure. Open access is a mode of publication that fosters more open or accessible science. The idea of open access is that it combines two main elements. One is that the papers that are published become immediately available to anybody with an internet connection anywhere in the world without any restrictions. 

The second important element from open access, which makes it different from other models we can talk about, is the fact that the authors retain the copyright of their work, but they give the journal and readers a license to use, reproduce, and modify the content.

This is different, for example, from instances where we have funder mandates. For example, NIH papers have to become available 6 months after publication, so they’re available to everybody but not immediately. 

Then copyright is retained, in the case of NIH employees, for example, by the government or by the journals themselves. The two elements of open access, I think, are immediate access to the material and the fact that it’s published with a Creative Commons license. 

Dr. Wilner: I remember that when a journal article was published, say, in Neurology, if you didn’t have a subscription to Neurology, you went to the library that hopefully had a subscription.

If they didn’t have it, you would write to the author and say, “Hey, I heard you have this great paper because the abstract was out there. Could you send me a reprint?” Has that whole universe evaporated? 

Dr. Merino: It depends on how the paper is published. For example, in Neurology, some of the research we publish is open access. Basically, if you have an internet connection, you can access the paper.

That’s the case for papers published in our wholly open-access journals in the Neurology family like Neurology Neuroimmunology & Neuroinflammation, Neurology Genetics, or Neurology Education. 

For other papers that are published in Neurology, not under open access, there is a paywall. For some of them, the paywall comes down after a few months based on funder mandates and so on. As I was mentioning, the NIH-funded papers are available 6 months later. 

In the first 6 months, you may have to go to your library, and if your library has a subscription, you can download it directly. [This is also true for] those that always stay behind the paywall, where you have to have a subscription or your library has to have a subscription.
 

Is Pay to Publish a Red Flag?

Dr. Wilner: I’m a professional writer. With any luck, when I write something, I get paid to write it. There’s been a long tradition in academic medicine that when you submit an article to, say, Neurology, you don’t get paid as an author for the publication. Your reward is the honor of it being published. 

Neurology supports itself in various ways, including advertising and so on. That’s been the contract: free publication for work that merits it, and the journal survives on its own. 

With open access, one of the things that’s happened is that — and I’ve published open access myself — is that I get a notification that I need to pay to have my article that I’ve slaved over published. Explain that, please. 

Dr. Merino: This is the issue with open access. As I mentioned, the paper gets published. You’re giving the journal a license to publish it. You’re retaining the copyright of your work. That means that the journal cannot make money or support itself by just publishing open access because they belong to you. 

Typically, open-access journals are not in print and don’t have much in terms of advertising. The contract is you’re giving me a license to publish it, but it’s your journal, so you’re paying a fee for the journal expenses to basically produce your paper. That’s what’s happening with open access. 

That’s been recognized with many funders, for example, with NIH funding or many of the European funders, they’re including open-access fees as part of their funding for research. Now, of course, this doesn’t help if you’re not a funded researcher or if you’re a fellow who’s doing work and so on. 

Typically, most journals will have waived fees or lower fees for these situations. The reason for the open-access fee is the fact that you’re retaining the copyright. You’re not giving it to the journal who can then use it to generate its revenue for supporting itself, the editorial staff, and so on. 

Dr. Wilner: This idea of charging for publication has created a satellite business of what are called predatory journals. How does one know if the open-access journal that I’m submitting to is really just in the business of wanting my $300 or my $900 to get published? How do I know if that’s a reasonable place to publish? 
 

Predatory Journals

Dr. Merino: That’s a big challenge that has come with this whole idea of open access and the fact that now, many journals are online only, so you’re no longer seeing a physical copy. That has given rise to the predatory journals. 

The predatory journal, by definition, is a journal that claims to be open access. They’ll take your paper and publish it, but they don’t provide all the other services that you would typically expect from the fact that you’re paying an open-access fee. This includes getting appropriate peer review, production of the manuscript, and long-term curation and storage of the manuscript. 

Many predatory journals will take your open-access fee, accept any paper that you submit, regardless of the quality, because they’re charging the fees for that. They don’t send it to real peer review, and then in a few months, the journal disappears so there’s no way for anybody to actually find your paper anymore. 

There are certain checklists. Dr. David Moher at the University of Toronto has produced some work trying to help us identify predatory journals. 

One thing I typically suggest to people who ask me this question is: Have you ever heard of this journal before? Does the journal have a track record? How far back does the story of the journal go? Is it supported by a publisher that you know? Do you know anybody who has published there? Is it something you can easily access?

If in doubt, always ask your friendly medical librarian. There used to be lists that were kept in terms of predatory journals that were being constantly updated, but those had to be shut down. As far as I understand, there were legal issues in terms of how things got on that list. 

I think that overall, if you’ve heard of it, if it’s relevant, if it’s known in your field, and if your librarian knows it, it’s probably a good legitimate open-access journal. There are many very good legitimate open-access journals. 

I mentioned the two that we have in our family, but all the other major journals have their own open-access journal within their family. There are some, like BMC or PLOS, that are completely open-access and legitimate journals. 
 

Impact Factor

Dr. Wilner: What about impact factor? Many journals boast about their impact factor. I’m not sure how to interpret that number. 

Dr. Merino: Impact factor is very interesting. The impact factor was developed by medical librarians to try to identify the journals they should be subscribing to. It’s a measure of the average citations to an average paper in the journal. 

It doesn’t tell you about specific papers. It tells you, on average, how many of the papers in this journal get cited so many times. It’s calculated by the number of articles that were cited divided by the number of articles that were published. Journals that publish many papers, like Neurology, have a hard time bringing up their impact factor beyond a certain level. 

Similarly, very small journals with one or two very highly cited papers have a very high impact factor. It’s being used as a measure, perhaps inappropriately, of how good or how reputable a journal is. We all say we don’t care about journal impact factors, but we all know our journal impact factor and we used to know it to three decimals. Now, they changed the system, and there’s only one decimal point, which makes more sense. 

This is more important, for example, for authors when deciding where to submit papers. I know that in some countries, particularly in Europe, the impact factor of the journal where you publish has an impact on your promotion decisions. 

I would say what’s even more important than the impact factor, is to say, “Well, is this the journal that fits the scope of my paper? Is this the journal that reaches the audience that I want to reach when I write my paper?” 

There are some papers, for example, that are very influential. The impact factor just captures citations. There are some papers that are very influential that may not get cited very often. There may be papers that change clinical practice. 

If you read a paper that tells you that you should be changing how you treat your patients with myasthenia based on this paper, that may not get cited. It’s a very clinically focused paper, but it’s probably more impactful than one that gets cited very much in some respect, or they make it to public policy decisions, and so on. 

I think it’s important to look more at the audience and the journal scope when you submit your papers. 

Dr. Wilner: One other technical question. The journals also say they’re indexed in PubMed or Google Scholar. If I want to publish my paper and I want it indexed where the right people are going to find it, where does it need to be indexed? 

Dr. Merino: I grew up using Index Medicus, MedlinePlus, and the Library of Science. I still do. If I need to find something, I go to PubMed. Ideally, papers are listed in MedlinePlus or can be found in PubMed. They’re not the same thing, but you can find them through them. 

That would be an important thing. Nowadays, a lot more people are using Google Scholar or Google just to identify papers. It may be a little bit less relevant, but it’s still a measure of the quality of the journal before they get indexed in some of these. For example, if you get listed in MedlinePlus, it has gone through certain quality checks by the index itself to see whether they would accept the journal or not. That’s something you want to check.

Typically, most of the large journals or the journals you and I know about are listed in more than one place, right? They’re listed in Scopus and Web of Science. They’re listed in MedlinePlus and so on. Again, if you’re submitting your paper, go somewhere where you know the journal and you’ve heard about it. 

Dr. Wilner: I’m not going to ask you about artificial intelligence. We can do that another time. I want to ask something closer to me, which is this question of publish or perish. 

There seems to be, in academics, more emphasis on the number of papers that one has published rather than their quality. How does a younger academician or one who really needs to publish cope with that? 

Dr. Merino: Many people are writing up research that may not be relevant or that may not be high quality just because you need to have a long list of papers to get promoted, for example, if you’re an academician. 

Doug Altman, who was a very influential person in the field quality of not only medical statistics but also medical publishing, had the idea that we need less research, but we need better research. 

We often receive papers where you say, well, what’s the rationale behind the question in this paper? It’s like they had a large amount of data and were trying to squeeze as much as they could out of that. I think, as a young academician, the important thing to think about is whether it is an important question that matters to you and to the field, from whatever perspective, whether it’s going to advance research, advance clinical care, or have public policy implications. 

Is this one where the answer will be important no matter what the answer is? If you’re thinking of that, your work will be well recognized, people will know you, and you’ll get invited to collaborate. I think that’s the most important thing rather than just churning out a large number of papers. 

The productivity will come from the fact that you start by saying, let me ask something that’s really meaningful to me and to the field, with a good question and using strong research methodology. 

Dr. Wilner: Thanks for that, Dr. Merino. I think that’s very valuable for all of us. This has been a great discussion. Do you have any final comments before we wrap up? 

Dr. Merino: I want to encourage people to continue reading medical journals all the time and submitting to us, again, good research and important questions with robust methodology. That’s what we’re looking for in Neurology and most serious medical journals.
 

Dr. Wilner is an associate professor of neurology at the University of Tennessee Health Science Center, Memphis. Dr. Merino is a professor in the department of neurology at Georgetown University Medical Center, Washington, DC. Dr. Wilner reported conflicts of interest with Accordant Health Services and Lulu Publishing. Dr. Merino reported no relevant conflicts of interest.

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

This transcript has been edited for clarity. 

Andrew N. Wilner, MD: My guest today is Dr. Jose Merino, editor in chief of the Neurology family of journals and professor of neurology and co-vice chair of education at Georgetown University in Washington, DC.

Our program today is a follow-up of Dr. Merino’s presentation at the recent American Academy of Neurology meeting in Denver, Colorado. Along with two other panelists, Dr. Merino discussed the role of open-access publication and the dangers of predatory journals. 

Jose G. Merino, MD, MPhil: Thank you for having me here. It’s a pleasure.
 

Open Access Defined

Dr. Wilner: I remember when publication in neurology was pretty straightforward. It was either the green journal or the blue journal, but things have certainly changed. I think one topic that is not clear to everyone is this concept of open access. Could you define that for us? 

Dr. Merino: Sure. Open access is a mode of publication that fosters more open or accessible science. The idea of open access is that it combines two main elements. One is that the papers that are published become immediately available to anybody with an internet connection anywhere in the world without any restrictions. 

The second important element from open access, which makes it different from other models we can talk about, is the fact that the authors retain the copyright of their work, but they give the journal and readers a license to use, reproduce, and modify the content.

This is different, for example, from instances where we have funder mandates. For example, NIH papers have to become available 6 months after publication, so they’re available to everybody but not immediately. 

Then copyright is retained, in the case of NIH employees, for example, by the government or by the journals themselves. The two elements of open access, I think, are immediate access to the material and the fact that it’s published with a Creative Commons license. 

Dr. Wilner: I remember that when a journal article was published, say, in Neurology, if you didn’t have a subscription to Neurology, you went to the library that hopefully had a subscription.

If they didn’t have it, you would write to the author and say, “Hey, I heard you have this great paper because the abstract was out there. Could you send me a reprint?” Has that whole universe evaporated? 

Dr. Merino: It depends on how the paper is published. For example, in Neurology, some of the research we publish is open access. Basically, if you have an internet connection, you can access the paper.

That’s the case for papers published in our wholly open-access journals in the Neurology family like Neurology Neuroimmunology & Neuroinflammation, Neurology Genetics, or Neurology Education. 

For other papers that are published in Neurology, not under open access, there is a paywall. For some of them, the paywall comes down after a few months based on funder mandates and so on. As I was mentioning, the NIH-funded papers are available 6 months later. 

In the first 6 months, you may have to go to your library, and if your library has a subscription, you can download it directly. [This is also true for] those that always stay behind the paywall, where you have to have a subscription or your library has to have a subscription.
 

Is Pay to Publish a Red Flag?

Dr. Wilner: I’m a professional writer. With any luck, when I write something, I get paid to write it. There’s been a long tradition in academic medicine that when you submit an article to, say, Neurology, you don’t get paid as an author for the publication. Your reward is the honor of it being published. 

Neurology supports itself in various ways, including advertising and so on. That’s been the contract: free publication for work that merits it, and the journal survives on its own. 

With open access, one of the things that’s happened is that — and I’ve published open access myself — is that I get a notification that I need to pay to have my article that I’ve slaved over published. Explain that, please. 

Dr. Merino: This is the issue with open access. As I mentioned, the paper gets published. You’re giving the journal a license to publish it. You’re retaining the copyright of your work. That means that the journal cannot make money or support itself by just publishing open access because they belong to you. 

Typically, open-access journals are not in print and don’t have much in terms of advertising. The contract is you’re giving me a license to publish it, but it’s your journal, so you’re paying a fee for the journal expenses to basically produce your paper. That’s what’s happening with open access. 

That’s been recognized with many funders, for example, with NIH funding or many of the European funders, they’re including open-access fees as part of their funding for research. Now, of course, this doesn’t help if you’re not a funded researcher or if you’re a fellow who’s doing work and so on. 

Typically, most journals will have waived fees or lower fees for these situations. The reason for the open-access fee is the fact that you’re retaining the copyright. You’re not giving it to the journal who can then use it to generate its revenue for supporting itself, the editorial staff, and so on. 

Dr. Wilner: This idea of charging for publication has created a satellite business of what are called predatory journals. How does one know if the open-access journal that I’m submitting to is really just in the business of wanting my $300 or my $900 to get published? How do I know if that’s a reasonable place to publish? 
 

Predatory Journals

Dr. Merino: That’s a big challenge that has come with this whole idea of open access and the fact that now, many journals are online only, so you’re no longer seeing a physical copy. That has given rise to the predatory journals. 

The predatory journal, by definition, is a journal that claims to be open access. They’ll take your paper and publish it, but they don’t provide all the other services that you would typically expect from the fact that you’re paying an open-access fee. This includes getting appropriate peer review, production of the manuscript, and long-term curation and storage of the manuscript. 

Many predatory journals will take your open-access fee, accept any paper that you submit, regardless of the quality, because they’re charging the fees for that. They don’t send it to real peer review, and then in a few months, the journal disappears so there’s no way for anybody to actually find your paper anymore. 

There are certain checklists. Dr. David Moher at the University of Toronto has produced some work trying to help us identify predatory journals. 

One thing I typically suggest to people who ask me this question is: Have you ever heard of this journal before? Does the journal have a track record? How far back does the story of the journal go? Is it supported by a publisher that you know? Do you know anybody who has published there? Is it something you can easily access?

If in doubt, always ask your friendly medical librarian. There used to be lists that were kept in terms of predatory journals that were being constantly updated, but those had to be shut down. As far as I understand, there were legal issues in terms of how things got on that list. 

I think that overall, if you’ve heard of it, if it’s relevant, if it’s known in your field, and if your librarian knows it, it’s probably a good legitimate open-access journal. There are many very good legitimate open-access journals. 

I mentioned the two that we have in our family, but all the other major journals have their own open-access journal within their family. There are some, like BMC or PLOS, that are completely open-access and legitimate journals. 
 

Impact Factor

Dr. Wilner: What about impact factor? Many journals boast about their impact factor. I’m not sure how to interpret that number. 

Dr. Merino: Impact factor is very interesting. The impact factor was developed by medical librarians to try to identify the journals they should be subscribing to. It’s a measure of the average citations to an average paper in the journal. 

It doesn’t tell you about specific papers. It tells you, on average, how many of the papers in this journal get cited so many times. It’s calculated by the number of articles that were cited divided by the number of articles that were published. Journals that publish many papers, like Neurology, have a hard time bringing up their impact factor beyond a certain level. 

Similarly, very small journals with one or two very highly cited papers have a very high impact factor. It’s being used as a measure, perhaps inappropriately, of how good or how reputable a journal is. We all say we don’t care about journal impact factors, but we all know our journal impact factor and we used to know it to three decimals. Now, they changed the system, and there’s only one decimal point, which makes more sense. 

This is more important, for example, for authors when deciding where to submit papers. I know that in some countries, particularly in Europe, the impact factor of the journal where you publish has an impact on your promotion decisions. 

I would say what’s even more important than the impact factor, is to say, “Well, is this the journal that fits the scope of my paper? Is this the journal that reaches the audience that I want to reach when I write my paper?” 

There are some papers, for example, that are very influential. The impact factor just captures citations. There are some papers that are very influential that may not get cited very often. There may be papers that change clinical practice. 

If you read a paper that tells you that you should be changing how you treat your patients with myasthenia based on this paper, that may not get cited. It’s a very clinically focused paper, but it’s probably more impactful than one that gets cited very much in some respect, or they make it to public policy decisions, and so on. 

I think it’s important to look more at the audience and the journal scope when you submit your papers. 

Dr. Wilner: One other technical question. The journals also say they’re indexed in PubMed or Google Scholar. If I want to publish my paper and I want it indexed where the right people are going to find it, where does it need to be indexed? 

Dr. Merino: I grew up using Index Medicus, MedlinePlus, and the Library of Science. I still do. If I need to find something, I go to PubMed. Ideally, papers are listed in MedlinePlus or can be found in PubMed. They’re not the same thing, but you can find them through them. 

That would be an important thing. Nowadays, a lot more people are using Google Scholar or Google just to identify papers. It may be a little bit less relevant, but it’s still a measure of the quality of the journal before they get indexed in some of these. For example, if you get listed in MedlinePlus, it has gone through certain quality checks by the index itself to see whether they would accept the journal or not. That’s something you want to check.

Typically, most of the large journals or the journals you and I know about are listed in more than one place, right? They’re listed in Scopus and Web of Science. They’re listed in MedlinePlus and so on. Again, if you’re submitting your paper, go somewhere where you know the journal and you’ve heard about it. 

Dr. Wilner: I’m not going to ask you about artificial intelligence. We can do that another time. I want to ask something closer to me, which is this question of publish or perish. 

There seems to be, in academics, more emphasis on the number of papers that one has published rather than their quality. How does a younger academician or one who really needs to publish cope with that? 

Dr. Merino: Many people are writing up research that may not be relevant or that may not be high quality just because you need to have a long list of papers to get promoted, for example, if you’re an academician. 

Doug Altman, who was a very influential person in the field quality of not only medical statistics but also medical publishing, had the idea that we need less research, but we need better research. 

We often receive papers where you say, well, what’s the rationale behind the question in this paper? It’s like they had a large amount of data and were trying to squeeze as much as they could out of that. I think, as a young academician, the important thing to think about is whether it is an important question that matters to you and to the field, from whatever perspective, whether it’s going to advance research, advance clinical care, or have public policy implications. 

Is this one where the answer will be important no matter what the answer is? If you’re thinking of that, your work will be well recognized, people will know you, and you’ll get invited to collaborate. I think that’s the most important thing rather than just churning out a large number of papers. 

The productivity will come from the fact that you start by saying, let me ask something that’s really meaningful to me and to the field, with a good question and using strong research methodology. 

Dr. Wilner: Thanks for that, Dr. Merino. I think that’s very valuable for all of us. This has been a great discussion. Do you have any final comments before we wrap up? 

Dr. Merino: I want to encourage people to continue reading medical journals all the time and submitting to us, again, good research and important questions with robust methodology. That’s what we’re looking for in Neurology and most serious medical journals.
 

Dr. Wilner is an associate professor of neurology at the University of Tennessee Health Science Center, Memphis. Dr. Merino is a professor in the department of neurology at Georgetown University Medical Center, Washington, DC. Dr. Wilner reported conflicts of interest with Accordant Health Services and Lulu Publishing. Dr. Merino reported no relevant conflicts of interest.

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

This transcript has been edited for clarity. 

Andrew N. Wilner, MD: My guest today is Dr. Jose Merino, editor in chief of the Neurology family of journals and professor of neurology and co-vice chair of education at Georgetown University in Washington, DC.

Our program today is a follow-up of Dr. Merino’s presentation at the recent American Academy of Neurology meeting in Denver, Colorado. Along with two other panelists, Dr. Merino discussed the role of open-access publication and the dangers of predatory journals. 

Jose G. Merino, MD, MPhil: Thank you for having me here. It’s a pleasure.
 

Open Access Defined

Dr. Wilner: I remember when publication in neurology was pretty straightforward. It was either the green journal or the blue journal, but things have certainly changed. I think one topic that is not clear to everyone is this concept of open access. Could you define that for us? 

Dr. Merino: Sure. Open access is a mode of publication that fosters more open or accessible science. The idea of open access is that it combines two main elements. One is that the papers that are published become immediately available to anybody with an internet connection anywhere in the world without any restrictions. 

The second important element from open access, which makes it different from other models we can talk about, is the fact that the authors retain the copyright of their work, but they give the journal and readers a license to use, reproduce, and modify the content.

This is different, for example, from instances where we have funder mandates. For example, NIH papers have to become available 6 months after publication, so they’re available to everybody but not immediately. 

Then copyright is retained, in the case of NIH employees, for example, by the government or by the journals themselves. The two elements of open access, I think, are immediate access to the material and the fact that it’s published with a Creative Commons license. 

Dr. Wilner: I remember that when a journal article was published, say, in Neurology, if you didn’t have a subscription to Neurology, you went to the library that hopefully had a subscription.

If they didn’t have it, you would write to the author and say, “Hey, I heard you have this great paper because the abstract was out there. Could you send me a reprint?” Has that whole universe evaporated? 

Dr. Merino: It depends on how the paper is published. For example, in Neurology, some of the research we publish is open access. Basically, if you have an internet connection, you can access the paper.

That’s the case for papers published in our wholly open-access journals in the Neurology family like Neurology Neuroimmunology & Neuroinflammation, Neurology Genetics, or Neurology Education. 

For other papers that are published in Neurology, not under open access, there is a paywall. For some of them, the paywall comes down after a few months based on funder mandates and so on. As I was mentioning, the NIH-funded papers are available 6 months later. 

In the first 6 months, you may have to go to your library, and if your library has a subscription, you can download it directly. [This is also true for] those that always stay behind the paywall, where you have to have a subscription or your library has to have a subscription.
 

Is Pay to Publish a Red Flag?

Dr. Wilner: I’m a professional writer. With any luck, when I write something, I get paid to write it. There’s been a long tradition in academic medicine that when you submit an article to, say, Neurology, you don’t get paid as an author for the publication. Your reward is the honor of it being published. 

Neurology supports itself in various ways, including advertising and so on. That’s been the contract: free publication for work that merits it, and the journal survives on its own. 

With open access, one of the things that’s happened is that — and I’ve published open access myself — is that I get a notification that I need to pay to have my article that I’ve slaved over published. Explain that, please. 

Dr. Merino: This is the issue with open access. As I mentioned, the paper gets published. You’re giving the journal a license to publish it. You’re retaining the copyright of your work. That means that the journal cannot make money or support itself by just publishing open access because they belong to you. 

Typically, open-access journals are not in print and don’t have much in terms of advertising. The contract is you’re giving me a license to publish it, but it’s your journal, so you’re paying a fee for the journal expenses to basically produce your paper. That’s what’s happening with open access. 

That’s been recognized with many funders, for example, with NIH funding or many of the European funders, they’re including open-access fees as part of their funding for research. Now, of course, this doesn’t help if you’re not a funded researcher or if you’re a fellow who’s doing work and so on. 

Typically, most journals will have waived fees or lower fees for these situations. The reason for the open-access fee is the fact that you’re retaining the copyright. You’re not giving it to the journal who can then use it to generate its revenue for supporting itself, the editorial staff, and so on. 

Dr. Wilner: This idea of charging for publication has created a satellite business of what are called predatory journals. How does one know if the open-access journal that I’m submitting to is really just in the business of wanting my $300 or my $900 to get published? How do I know if that’s a reasonable place to publish? 
 

Predatory Journals

Dr. Merino: That’s a big challenge that has come with this whole idea of open access and the fact that now, many journals are online only, so you’re no longer seeing a physical copy. That has given rise to the predatory journals. 

The predatory journal, by definition, is a journal that claims to be open access. They’ll take your paper and publish it, but they don’t provide all the other services that you would typically expect from the fact that you’re paying an open-access fee. This includes getting appropriate peer review, production of the manuscript, and long-term curation and storage of the manuscript. 

Many predatory journals will take your open-access fee, accept any paper that you submit, regardless of the quality, because they’re charging the fees for that. They don’t send it to real peer review, and then in a few months, the journal disappears so there’s no way for anybody to actually find your paper anymore. 

There are certain checklists. Dr. David Moher at the University of Toronto has produced some work trying to help us identify predatory journals. 

One thing I typically suggest to people who ask me this question is: Have you ever heard of this journal before? Does the journal have a track record? How far back does the story of the journal go? Is it supported by a publisher that you know? Do you know anybody who has published there? Is it something you can easily access?

If in doubt, always ask your friendly medical librarian. There used to be lists that were kept in terms of predatory journals that were being constantly updated, but those had to be shut down. As far as I understand, there were legal issues in terms of how things got on that list. 

I think that overall, if you’ve heard of it, if it’s relevant, if it’s known in your field, and if your librarian knows it, it’s probably a good legitimate open-access journal. There are many very good legitimate open-access journals. 

I mentioned the two that we have in our family, but all the other major journals have their own open-access journal within their family. There are some, like BMC or PLOS, that are completely open-access and legitimate journals. 
 

Impact Factor

Dr. Wilner: What about impact factor? Many journals boast about their impact factor. I’m not sure how to interpret that number. 

Dr. Merino: Impact factor is very interesting. The impact factor was developed by medical librarians to try to identify the journals they should be subscribing to. It’s a measure of the average citations to an average paper in the journal. 

It doesn’t tell you about specific papers. It tells you, on average, how many of the papers in this journal get cited so many times. It’s calculated by the number of articles that were cited divided by the number of articles that were published. Journals that publish many papers, like Neurology, have a hard time bringing up their impact factor beyond a certain level. 

Similarly, very small journals with one or two very highly cited papers have a very high impact factor. It’s being used as a measure, perhaps inappropriately, of how good or how reputable a journal is. We all say we don’t care about journal impact factors, but we all know our journal impact factor and we used to know it to three decimals. Now, they changed the system, and there’s only one decimal point, which makes more sense. 

This is more important, for example, for authors when deciding where to submit papers. I know that in some countries, particularly in Europe, the impact factor of the journal where you publish has an impact on your promotion decisions. 

I would say what’s even more important than the impact factor, is to say, “Well, is this the journal that fits the scope of my paper? Is this the journal that reaches the audience that I want to reach when I write my paper?” 

There are some papers, for example, that are very influential. The impact factor just captures citations. There are some papers that are very influential that may not get cited very often. There may be papers that change clinical practice. 

If you read a paper that tells you that you should be changing how you treat your patients with myasthenia based on this paper, that may not get cited. It’s a very clinically focused paper, but it’s probably more impactful than one that gets cited very much in some respect, or they make it to public policy decisions, and so on. 

I think it’s important to look more at the audience and the journal scope when you submit your papers. 

Dr. Wilner: One other technical question. The journals also say they’re indexed in PubMed or Google Scholar. If I want to publish my paper and I want it indexed where the right people are going to find it, where does it need to be indexed? 

Dr. Merino: I grew up using Index Medicus, MedlinePlus, and the Library of Science. I still do. If I need to find something, I go to PubMed. Ideally, papers are listed in MedlinePlus or can be found in PubMed. They’re not the same thing, but you can find them through them. 

That would be an important thing. Nowadays, a lot more people are using Google Scholar or Google just to identify papers. It may be a little bit less relevant, but it’s still a measure of the quality of the journal before they get indexed in some of these. For example, if you get listed in MedlinePlus, it has gone through certain quality checks by the index itself to see whether they would accept the journal or not. That’s something you want to check.

Typically, most of the large journals or the journals you and I know about are listed in more than one place, right? They’re listed in Scopus and Web of Science. They’re listed in MedlinePlus and so on. Again, if you’re submitting your paper, go somewhere where you know the journal and you’ve heard about it. 

Dr. Wilner: I’m not going to ask you about artificial intelligence. We can do that another time. I want to ask something closer to me, which is this question of publish or perish. 

There seems to be, in academics, more emphasis on the number of papers that one has published rather than their quality. How does a younger academician or one who really needs to publish cope with that? 

Dr. Merino: Many people are writing up research that may not be relevant or that may not be high quality just because you need to have a long list of papers to get promoted, for example, if you’re an academician. 

Doug Altman, who was a very influential person in the field quality of not only medical statistics but also medical publishing, had the idea that we need less research, but we need better research. 

We often receive papers where you say, well, what’s the rationale behind the question in this paper? It’s like they had a large amount of data and were trying to squeeze as much as they could out of that. I think, as a young academician, the important thing to think about is whether it is an important question that matters to you and to the field, from whatever perspective, whether it’s going to advance research, advance clinical care, or have public policy implications. 

Is this one where the answer will be important no matter what the answer is? If you’re thinking of that, your work will be well recognized, people will know you, and you’ll get invited to collaborate. I think that’s the most important thing rather than just churning out a large number of papers. 

The productivity will come from the fact that you start by saying, let me ask something that’s really meaningful to me and to the field, with a good question and using strong research methodology. 

Dr. Wilner: Thanks for that, Dr. Merino. I think that’s very valuable for all of us. This has been a great discussion. Do you have any final comments before we wrap up? 

Dr. Merino: I want to encourage people to continue reading medical journals all the time and submitting to us, again, good research and important questions with robust methodology. That’s what we’re looking for in Neurology and most serious medical journals.
 

Dr. Wilner is an associate professor of neurology at the University of Tennessee Health Science Center, Memphis. Dr. Merino is a professor in the department of neurology at Georgetown University Medical Center, Washington, DC. Dr. Wilner reported conflicts of interest with Accordant Health Services and Lulu Publishing. Dr. Merino reported no relevant conflicts of interest.

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

Akira Endo, PhD, the Japanese microbiologist and biochemist known as the father of statins, died at the age of 90 on June 5. His research led to the discovery and rise of a class of drugs that revolutionized the prevention and treatment of cardiovascular diseases. This scientific journey began over half a century ago.

Inspired by Alexander Fleming

Born into a family of farmers in northern Japan, Dr. Endo was fascinated by natural sciences from a young age and showed a particular interest in fungi and molds. At the age of 10, he already knew he wanted to become a scientist.

He studied in Japan and the United States, conducting research at the Albert Einstein College of Medicine in New York City. He was struck by the high number of elderly and overweight individuals in the United States and realized the importance of developing a drug to combat cholesterol. It was upon his return to Japan, when he joined the Sankyo laboratory, that the development of statins began.

Inspired by Alexander Fleming, who discovered penicillin in the mold Penicillium, he hypothesized that fungi could produce antibiotics inhibiting 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, the enzyme that produces cholesterol precursors.

After a year of research on nearly 3800 strains, his team found a known substance, citrinin, that strongly inhibited HMG-CoA reductase and lowered serum cholesterol levels in rats. The research was halted because of its toxicity to the rodents’ kidneys. “Nevertheless, the experience with citrinin gave us hope and courage to quickly discover much more effective active substances,” said Dr. Endo in an article dedicated to the discovery of statins.
 

First Statin Discovered

In the summer of 1972, researchers discovered a second active culture broth, Penicillium citrinum Pen-51, which was isolated from a sample of rice collected in a grain store in Kyoto.

In July 1973, they isolated three active metabolites from this mold, one of which was compactin, which had structural similarities to HMG-CoA, the substrate of the HMG-CoA reductase reaction.

In 1976, they published two articles reporting the discovery and characterization of compactin (mevastatin), the first statin.
 

Several Setbacks

Unfortunately, when Sankyo biologists assessed the effectiveness of compactin by giving rats a diet supplemented with compactin for 7 days, no reduction in serum cholesterol was observed.

Only later did an unpublished study show that the statin significantly decreased plasma cholesterol after a month of treatment in laying hens. The hypocholesterolemic effects of compactin were then demonstrated in dogs and monkeys.

However, researchers faced a second challenge in April 1977. Microcrystalline structures were detected in the liver cells of rats that had been fed extremely high amounts of compactin (over 500 mg/kg per day for 5 weeks). Initially deemed toxic, the structures were ultimately found to be nontoxic.

A phase 2 trial began in the summer of 1979 with very encouraging preliminary results, but in August 1980, clinical development of compactin was halted, as the drug was suspected of causing lymphomas in dogs given very high doses: 100 or 200 mg/kg per day for 2 years.

This suspicion also led to the termination of trials on another statin, the closely related lovastatin, which was discovered simultaneously from different fungi by the Merck laboratory and Dr. Endo in February 1979.
 

First Statin Marketed

Subsequently, dramatic reductions in cholesterol levels observed in patients prompted Merck to conduct large-scale clinical trials of lovastatin in high-risk patients and long-term toxicity studies in dogs in 1984.

It was confirmed that the drug significantly reduced cholesterol levels and was well tolerated. No tumors were detected.

Lovastatin received approval from the Food and Drug Administration to become the first marketed statin in September 1987.

Dr. Endo received numerous awards for his work, including the Albert Lasker Award for Clinical Medical Research in 2008 and the Outstanding Achievement Award from the International Atherosclerosis Society in 2009.

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

A version of this article appeared on Medscape.com.

Akira Endo, PhD, the Japanese microbiologist and biochemist known as the father of statins, died at the age of 90 on June 5. His research led to the discovery and rise of a class of drugs that revolutionized the prevention and treatment of cardiovascular diseases. This scientific journey began over half a century ago.

Inspired by Alexander Fleming

Born into a family of farmers in northern Japan, Dr. Endo was fascinated by natural sciences from a young age and showed a particular interest in fungi and molds. At the age of 10, he already knew he wanted to become a scientist.

He studied in Japan and the United States, conducting research at the Albert Einstein College of Medicine in New York City. He was struck by the high number of elderly and overweight individuals in the United States and realized the importance of developing a drug to combat cholesterol. It was upon his return to Japan, when he joined the Sankyo laboratory, that the development of statins began.

Inspired by Alexander Fleming, who discovered penicillin in the mold Penicillium, he hypothesized that fungi could produce antibiotics inhibiting 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, the enzyme that produces cholesterol precursors.

After a year of research on nearly 3800 strains, his team found a known substance, citrinin, that strongly inhibited HMG-CoA reductase and lowered serum cholesterol levels in rats. The research was halted because of its toxicity to the rodents’ kidneys. “Nevertheless, the experience with citrinin gave us hope and courage to quickly discover much more effective active substances,” said Dr. Endo in an article dedicated to the discovery of statins.
 

First Statin Discovered

In the summer of 1972, researchers discovered a second active culture broth, Penicillium citrinum Pen-51, which was isolated from a sample of rice collected in a grain store in Kyoto.

In July 1973, they isolated three active metabolites from this mold, one of which was compactin, which had structural similarities to HMG-CoA, the substrate of the HMG-CoA reductase reaction.

In 1976, they published two articles reporting the discovery and characterization of compactin (mevastatin), the first statin.
 

Several Setbacks

Unfortunately, when Sankyo biologists assessed the effectiveness of compactin by giving rats a diet supplemented with compactin for 7 days, no reduction in serum cholesterol was observed.

Only later did an unpublished study show that the statin significantly decreased plasma cholesterol after a month of treatment in laying hens. The hypocholesterolemic effects of compactin were then demonstrated in dogs and monkeys.

However, researchers faced a second challenge in April 1977. Microcrystalline structures were detected in the liver cells of rats that had been fed extremely high amounts of compactin (over 500 mg/kg per day for 5 weeks). Initially deemed toxic, the structures were ultimately found to be nontoxic.

A phase 2 trial began in the summer of 1979 with very encouraging preliminary results, but in August 1980, clinical development of compactin was halted, as the drug was suspected of causing lymphomas in dogs given very high doses: 100 or 200 mg/kg per day for 2 years.

This suspicion also led to the termination of trials on another statin, the closely related lovastatin, which was discovered simultaneously from different fungi by the Merck laboratory and Dr. Endo in February 1979.
 

First Statin Marketed

Subsequently, dramatic reductions in cholesterol levels observed in patients prompted Merck to conduct large-scale clinical trials of lovastatin in high-risk patients and long-term toxicity studies in dogs in 1984.

It was confirmed that the drug significantly reduced cholesterol levels and was well tolerated. No tumors were detected.

Lovastatin received approval from the Food and Drug Administration to become the first marketed statin in September 1987.

Dr. Endo received numerous awards for his work, including the Albert Lasker Award for Clinical Medical Research in 2008 and the Outstanding Achievement Award from the International Atherosclerosis Society in 2009.

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

A version of this article appeared on Medscape.com.

Akira Endo, PhD, the Japanese microbiologist and biochemist known as the father of statins, died at the age of 90 on June 5. His research led to the discovery and rise of a class of drugs that revolutionized the prevention and treatment of cardiovascular diseases. This scientific journey began over half a century ago.

Inspired by Alexander Fleming

Born into a family of farmers in northern Japan, Dr. Endo was fascinated by natural sciences from a young age and showed a particular interest in fungi and molds. At the age of 10, he already knew he wanted to become a scientist.

He studied in Japan and the United States, conducting research at the Albert Einstein College of Medicine in New York City. He was struck by the high number of elderly and overweight individuals in the United States and realized the importance of developing a drug to combat cholesterol. It was upon his return to Japan, when he joined the Sankyo laboratory, that the development of statins began.

Inspired by Alexander Fleming, who discovered penicillin in the mold Penicillium, he hypothesized that fungi could produce antibiotics inhibiting 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, the enzyme that produces cholesterol precursors.

After a year of research on nearly 3800 strains, his team found a known substance, citrinin, that strongly inhibited HMG-CoA reductase and lowered serum cholesterol levels in rats. The research was halted because of its toxicity to the rodents’ kidneys. “Nevertheless, the experience with citrinin gave us hope and courage to quickly discover much more effective active substances,” said Dr. Endo in an article dedicated to the discovery of statins.
 

First Statin Discovered

In the summer of 1972, researchers discovered a second active culture broth, Penicillium citrinum Pen-51, which was isolated from a sample of rice collected in a grain store in Kyoto.

In July 1973, they isolated three active metabolites from this mold, one of which was compactin, which had structural similarities to HMG-CoA, the substrate of the HMG-CoA reductase reaction.

In 1976, they published two articles reporting the discovery and characterization of compactin (mevastatin), the first statin.
 

Several Setbacks

Unfortunately, when Sankyo biologists assessed the effectiveness of compactin by giving rats a diet supplemented with compactin for 7 days, no reduction in serum cholesterol was observed.

Only later did an unpublished study show that the statin significantly decreased plasma cholesterol after a month of treatment in laying hens. The hypocholesterolemic effects of compactin were then demonstrated in dogs and monkeys.

However, researchers faced a second challenge in April 1977. Microcrystalline structures were detected in the liver cells of rats that had been fed extremely high amounts of compactin (over 500 mg/kg per day for 5 weeks). Initially deemed toxic, the structures were ultimately found to be nontoxic.

A phase 2 trial began in the summer of 1979 with very encouraging preliminary results, but in August 1980, clinical development of compactin was halted, as the drug was suspected of causing lymphomas in dogs given very high doses: 100 or 200 mg/kg per day for 2 years.

This suspicion also led to the termination of trials on another statin, the closely related lovastatin, which was discovered simultaneously from different fungi by the Merck laboratory and Dr. Endo in February 1979.
 

First Statin Marketed

Subsequently, dramatic reductions in cholesterol levels observed in patients prompted Merck to conduct large-scale clinical trials of lovastatin in high-risk patients and long-term toxicity studies in dogs in 1984.

It was confirmed that the drug significantly reduced cholesterol levels and was well tolerated. No tumors were detected.

Lovastatin received approval from the Food and Drug Administration to become the first marketed statin in September 1987.

Dr. Endo received numerous awards for his work, including the Albert Lasker Award for Clinical Medical Research in 2008 and the Outstanding Achievement Award from the International Atherosclerosis Society in 2009.

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

A version of this article appeared on Medscape.com.

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

While Medicare Advantage (MA) plans are marketed as providing more generous benefits than traditional Medicare (TM), differences in the financial burden between beneficiaries switching to MA and staying with TM, are minimal, a longitudinal cohort analysis found.

In fact, according to a study by Sungchul Park, PhD, a health economist at Korea University in Seoul, and colleagues, the estimated annual out-of-pocket spending when switching to MA was $168 higher than staying in TM. That amounted to a 10.5% relative increase based on baseline out-of-pocket spending of $1597 annually among switchers, ranging widely, however, from a $133 decrease to a $469 increase. And for some, MA enrollment was associated with a higher likelihood of catastrophic financial burden.

“Our findings contrast with the notion that MA’s apparently more generous health insurance benefits lead to financial savings for enrollees,” Dr. Park and associates wrote in Annals of Internal Medicine.
 

The study

The analysis looked at costs for 7054 TM stayers and 1544 TM-to-MA switchers from the 2014-2020 Medical Expenditure Panel Survey, focusing on a cohort in which 18% of TM-covered individuals in year 1 switched to MA in year 2.

Comparative financial outcome measures included individual healthcare costs (out-of-pocket spending/cost sharing), financial burden (high/catastrophic), and subjective financial hardship (difficulty paying medical bills).

Although the overall out-of-pocket differences for MA were minimal and amounted to less than 1% of total healthcare expenses, MA was associated with a greater financial burden in vulnerable, especially in low-income populations. For every 100 beneficiaries with family incomes below 200% of the federal poverty level, one to six more switchers faced a catastrophic financial burden, with their out-of-pocket costs consuming more than 40% of household income in the year after switching.

The gap between the perception of lower costs and reality may be caused by a substantially heavier cost-sharing burden for certain services in MA plans, Dr. Park and associates pointed out. While MA enrollees generally paid less in some studies than the Part A hospital deductible for TM for inpatient stays of 3 days, they were more likely to face higher cost sharing for stays exceeding 7 days

Furthermore, whereas TM covers home health services without cost sharing, some MA plans have copayments. In addition, out-of-network health services can cost more. MA enrollees paid an average of $9 more for mental health services than for other in-network services and often encountered limited access to in-network providers. According to a 2021 study, only 18.2% of mental health professionals, 34.4% of cardiologists, 50.0% of psychiatrists, and 57.9% of primary care providers were included in MA networks,

An accompanying editorial noted that private MA plans will reap $83 billion in overpayments from U.S. taxpayers this year, according to Congress’s Medicare Payment Advisory Commission.

And as the data from Dr. Park and colleagues reveal, switchers don’t get much financial protection, according to primary care physician and healthcare researcher Steffi J. Woolhandler, MD, MPH, and internist David U. Himmelstein, MD, both of City University of New York at Hunter College in New York City.

“Medicare Advantage looks good when you’re healthy and don’t need much care. But when you need coverage, it often fails, leaving you with big bills and narrow choices for care,” Dr. Woolhandler said in an interview.

So how do these findings square with insurers’ hard-sell claims and enrollees’ perceptions that MA cuts out-of-pocket costs? “The likeliest explanation is that MA insurers have structured their benefits to advantage low-cost (that is, profitable) enrollees and disadvantage those requiring expensive care,” the editorial commentators wrote. For beneficiaries on inexpensive medications, MA plans would be a financial win. “But for patients requiring expensive chemotherapies, the 20% coinsurance that most MA plans charge could be financially ruinous.”

Commenting on the study but not involved in it, David A. Lipschutz, JD, LLB, associate director of the Center for Medicare Advocacy in Washington, DC, called the study an important one that provides more evidence that significant overpayments to MA plans don’t translate to better financial protections for plan enrollees, particularly lower-income individuals. “While there has been some recent movement to hold plans more accountable for providing necessary care, much more impactful action by policymakers is required to mitigate the harms of the growing privatization of the Medicare program,” he said. “MA overpayments could be redistributed to traditional Medicare in order to enrich all Medicare beneficiaries instead of just insurance companies.”

This study was supported by the National Research Foundation of Korea. Dr. Park disclosed no competing interests. One study coauthor reported support from government and not-for-profit research-funding bodies. Editorialists Dr. Woolhandler and Dr. Himmelstein had no competing interests to declare. Dr. Lipschutz disclosed Medicare advocacy work.

While Medicare Advantage (MA) plans are marketed as providing more generous benefits than traditional Medicare (TM), differences in the financial burden between beneficiaries switching to MA and staying with TM, are minimal, a longitudinal cohort analysis found.

In fact, according to a study by Sungchul Park, PhD, a health economist at Korea University in Seoul, and colleagues, the estimated annual out-of-pocket spending when switching to MA was $168 higher than staying in TM. That amounted to a 10.5% relative increase based on baseline out-of-pocket spending of $1597 annually among switchers, ranging widely, however, from a $133 decrease to a $469 increase. And for some, MA enrollment was associated with a higher likelihood of catastrophic financial burden.

“Our findings contrast with the notion that MA’s apparently more generous health insurance benefits lead to financial savings for enrollees,” Dr. Park and associates wrote in Annals of Internal Medicine.
 

The study

The analysis looked at costs for 7054 TM stayers and 1544 TM-to-MA switchers from the 2014-2020 Medical Expenditure Panel Survey, focusing on a cohort in which 18% of TM-covered individuals in year 1 switched to MA in year 2.

Comparative financial outcome measures included individual healthcare costs (out-of-pocket spending/cost sharing), financial burden (high/catastrophic), and subjective financial hardship (difficulty paying medical bills).

Although the overall out-of-pocket differences for MA were minimal and amounted to less than 1% of total healthcare expenses, MA was associated with a greater financial burden in vulnerable, especially in low-income populations. For every 100 beneficiaries with family incomes below 200% of the federal poverty level, one to six more switchers faced a catastrophic financial burden, with their out-of-pocket costs consuming more than 40% of household income in the year after switching.

The gap between the perception of lower costs and reality may be caused by a substantially heavier cost-sharing burden for certain services in MA plans, Dr. Park and associates pointed out. While MA enrollees generally paid less in some studies than the Part A hospital deductible for TM for inpatient stays of 3 days, they were more likely to face higher cost sharing for stays exceeding 7 days

Furthermore, whereas TM covers home health services without cost sharing, some MA plans have copayments. In addition, out-of-network health services can cost more. MA enrollees paid an average of $9 more for mental health services than for other in-network services and often encountered limited access to in-network providers. According to a 2021 study, only 18.2% of mental health professionals, 34.4% of cardiologists, 50.0% of psychiatrists, and 57.9% of primary care providers were included in MA networks,

An accompanying editorial noted that private MA plans will reap $83 billion in overpayments from U.S. taxpayers this year, according to Congress’s Medicare Payment Advisory Commission.

And as the data from Dr. Park and colleagues reveal, switchers don’t get much financial protection, according to primary care physician and healthcare researcher Steffi J. Woolhandler, MD, MPH, and internist David U. Himmelstein, MD, both of City University of New York at Hunter College in New York City.

“Medicare Advantage looks good when you’re healthy and don’t need much care. But when you need coverage, it often fails, leaving you with big bills and narrow choices for care,” Dr. Woolhandler said in an interview.

So how do these findings square with insurers’ hard-sell claims and enrollees’ perceptions that MA cuts out-of-pocket costs? “The likeliest explanation is that MA insurers have structured their benefits to advantage low-cost (that is, profitable) enrollees and disadvantage those requiring expensive care,” the editorial commentators wrote. For beneficiaries on inexpensive medications, MA plans would be a financial win. “But for patients requiring expensive chemotherapies, the 20% coinsurance that most MA plans charge could be financially ruinous.”

Commenting on the study but not involved in it, David A. Lipschutz, JD, LLB, associate director of the Center for Medicare Advocacy in Washington, DC, called the study an important one that provides more evidence that significant overpayments to MA plans don’t translate to better financial protections for plan enrollees, particularly lower-income individuals. “While there has been some recent movement to hold plans more accountable for providing necessary care, much more impactful action by policymakers is required to mitigate the harms of the growing privatization of the Medicare program,” he said. “MA overpayments could be redistributed to traditional Medicare in order to enrich all Medicare beneficiaries instead of just insurance companies.”

This study was supported by the National Research Foundation of Korea. Dr. Park disclosed no competing interests. One study coauthor reported support from government and not-for-profit research-funding bodies. Editorialists Dr. Woolhandler and Dr. Himmelstein had no competing interests to declare. Dr. Lipschutz disclosed Medicare advocacy work.

While Medicare Advantage (MA) plans are marketed as providing more generous benefits than traditional Medicare (TM), differences in the financial burden between beneficiaries switching to MA and staying with TM, are minimal, a longitudinal cohort analysis found.

In fact, according to a study by Sungchul Park, PhD, a health economist at Korea University in Seoul, and colleagues, the estimated annual out-of-pocket spending when switching to MA was $168 higher than staying in TM. That amounted to a 10.5% relative increase based on baseline out-of-pocket spending of $1597 annually among switchers, ranging widely, however, from a $133 decrease to a $469 increase. And for some, MA enrollment was associated with a higher likelihood of catastrophic financial burden.

“Our findings contrast with the notion that MA’s apparently more generous health insurance benefits lead to financial savings for enrollees,” Dr. Park and associates wrote in Annals of Internal Medicine.
 

The study

The analysis looked at costs for 7054 TM stayers and 1544 TM-to-MA switchers from the 2014-2020 Medical Expenditure Panel Survey, focusing on a cohort in which 18% of TM-covered individuals in year 1 switched to MA in year 2.

Comparative financial outcome measures included individual healthcare costs (out-of-pocket spending/cost sharing), financial burden (high/catastrophic), and subjective financial hardship (difficulty paying medical bills).

Although the overall out-of-pocket differences for MA were minimal and amounted to less than 1% of total healthcare expenses, MA was associated with a greater financial burden in vulnerable, especially in low-income populations. For every 100 beneficiaries with family incomes below 200% of the federal poverty level, one to six more switchers faced a catastrophic financial burden, with their out-of-pocket costs consuming more than 40% of household income in the year after switching.

The gap between the perception of lower costs and reality may be caused by a substantially heavier cost-sharing burden for certain services in MA plans, Dr. Park and associates pointed out. While MA enrollees generally paid less in some studies than the Part A hospital deductible for TM for inpatient stays of 3 days, they were more likely to face higher cost sharing for stays exceeding 7 days

Furthermore, whereas TM covers home health services without cost sharing, some MA plans have copayments. In addition, out-of-network health services can cost more. MA enrollees paid an average of $9 more for mental health services than for other in-network services and often encountered limited access to in-network providers. According to a 2021 study, only 18.2% of mental health professionals, 34.4% of cardiologists, 50.0% of psychiatrists, and 57.9% of primary care providers were included in MA networks,

An accompanying editorial noted that private MA plans will reap $83 billion in overpayments from U.S. taxpayers this year, according to Congress’s Medicare Payment Advisory Commission.

And as the data from Dr. Park and colleagues reveal, switchers don’t get much financial protection, according to primary care physician and healthcare researcher Steffi J. Woolhandler, MD, MPH, and internist David U. Himmelstein, MD, both of City University of New York at Hunter College in New York City.

“Medicare Advantage looks good when you’re healthy and don’t need much care. But when you need coverage, it often fails, leaving you with big bills and narrow choices for care,” Dr. Woolhandler said in an interview.

So how do these findings square with insurers’ hard-sell claims and enrollees’ perceptions that MA cuts out-of-pocket costs? “The likeliest explanation is that MA insurers have structured their benefits to advantage low-cost (that is, profitable) enrollees and disadvantage those requiring expensive care,” the editorial commentators wrote. For beneficiaries on inexpensive medications, MA plans would be a financial win. “But for patients requiring expensive chemotherapies, the 20% coinsurance that most MA plans charge could be financially ruinous.”

Commenting on the study but not involved in it, David A. Lipschutz, JD, LLB, associate director of the Center for Medicare Advocacy in Washington, DC, called the study an important one that provides more evidence that significant overpayments to MA plans don’t translate to better financial protections for plan enrollees, particularly lower-income individuals. “While there has been some recent movement to hold plans more accountable for providing necessary care, much more impactful action by policymakers is required to mitigate the harms of the growing privatization of the Medicare program,” he said. “MA overpayments could be redistributed to traditional Medicare in order to enrich all Medicare beneficiaries instead of just insurance companies.”

This study was supported by the National Research Foundation of Korea. Dr. Park disclosed no competing interests. One study coauthor reported support from government and not-for-profit research-funding bodies. Editorialists Dr. Woolhandler and Dr. Himmelstein had no competing interests to declare. Dr. Lipschutz disclosed Medicare advocacy work.

Some 15%-20% of the world’s population are neurodivergent, with conditions such as autism, dyslexia, Tourette syndrome, attention-deficit/hyperactivity disorder (ADHD), and others. With different strengths and challenges around learning, engaging socially, or completing certain tasks, neurodivergent people can face barriers in the workforce.

Meanwhile, studies suggest that neurodivergent people may be overrepresented in STEM fields such as medicine. The medical field may self-select for traits associated with neurodivergent conditions, researchers say, including a hyperfocus on intense interests, pattern recognition, increased curiosity and empathy, and thinking quickly under pressure.

But neurodivergent physicians report difficult, even damaging, experiences in the healthcare field. They struggle with stigma, a culture of nondisclosure, and lack of accommodations, which can lead to burnout and poor mental health.

“The medical system and the mental health system are some of the spaces that are holding on tightly to some of the outdated understandings of things like autism and ADHD,” says Megan Anna Neff, PsyD, a psychologist with autism and ADHD based in Portland, Oregon.

Situations can get dire: A 2023 survey of more than 200 autistic doctors from several countries found that 77% had considered suicide and 24% had attempted it.

But here’s the crux of it: Many neurodivergent doctors believe their unique ways of thinking and outside-the-box creativity are skills and strengths that can benefit the field. And they say making medicine more inclusive — and better understanding how a neurodivergent physician’s brain works — would allow them to thrive.
 

Blending In and Breaking Down

The exact number of neurodivergent physicians in the workforce remains unknown. Existing studies are small and focus mainly on autism. But researchers believe the percentage could be higher than we think, because neurodiversity can be underidentified.

Although autism can sometimes be diagnosed as early as 18 months, it’s not uncommon to receive a diagnosis well into adulthood. “Like many late-identified autistic adults, I got my autism diagnosis in the context of autistic burnout,” says Melissa Houser, MD, a primary care physician who received a diagnosis in 2021. Dr. Houser, who uses the pronouns she/they, explains that her experience is common, “a consequence of chronically having your life’s demands exceed your capacity.”

Dr. Houser, who also has ADHD and dyslexia, among other neurodivergent conditions, says that before her diagnosis, she worked in a traditional practice setting. Eventually, she began to notice intense dysregulation and fatigue. “I began to have a lot more difficulties with communication and my motor planning and sequencing,” Dr. Houser says. “I was sleep-deprived, and my needs were not being met. I was in a situation where I had a complete lack of autonomy over my practice.”

Deep in burnout, Dr. Houser says she lost her ability to “mask,” a term used to describe how some neurodivergent people work to “blend in” with societal expectations. This led to further communication breakdowns with her supervisor. Finally, Dr. Houser saw a psychiatrist.

Shortly after her diagnosis, Dr. Houser quit her job and founded All Brains Belong, a nonprofit that provides neurodiversity-affirming medical care, education, and advocacy. Research has found that people with autism are at increased risk for physical health conditions, including immune conditions, gastrointestinal disorders, metabolic conditions, and increased mortality in hospital settings. Understanding these connections can “mean the difference between life and death” for neurodivergent patients, Dr. Houser says.

Yet, in a 2015 study that assessed providers’ ability to recognize autism, a high proportion were not aware that they had patients with autism spectrum disorder, and most reported lacking both the skills and the tools to care for them.
 

Different as a Doctor and a Patient

Bernadette Grosjean, MD, a retired associate professor of psychiatry at David Geffen School of Medicine at UCLA and a distinguished Fellow of the American Psychiatric Association, also found insight into lifelong experiences as both a doctor and a patient with her autism diagnosis, which came when she was 61.

“Looking back, I was a smart kid but kind of clumsy and different in other ways,” Dr. Grosjean says. According to a 2021 survey by Cambridge University, autistic individuals are significantly more likely to identify as LGBTQ+, and Dr. Grosjean, who is gay, says that not being fully accepted by family or friends played a role in her struggles with mental health issues.

Throughout her mental health treatment, Dr. Grosjean felt as though her providers “were expecting from me things that I didn’t know how to do or fix. I didn’t know how to be a ‘good’ patient,” she recalls.

As a psychiatrist, Dr. Grosjean started to notice that many of the women she treated for borderline personality disorder, which is categorized by unstable relationships and emotions, were autistic. “I then started asking lots of questions about myself — the fact that I’ve always been very sensitive or that I’ve been accused of being both hypersensitive and not having emotions, and I understood a lot.”

When Dr. Grosjean came across Autistic Doctors International, a group of over 800 autistic doctors worldwide, she says, “I found my tribe.” She now serves as the US lead for psychiatry for the group, which is focused on support, advocacy, research, and education around neurodiversity.

Psychiatric comorbidities can accompany neurodivergent conditions. But a growing body of research, including a 2022 study published in the European Archives of Psychiatry and Clinical Neuroscience, indicates that autism and ADHD are frequently misdiagnosed as depression or anxiety.

Dr. Neff was unaware of her conditions until one of her children was diagnosed with autism in 2021. She started to research it. “As I was learning about autism and girls, I was like, ‘Oh, my gosh, this is me,’ ” Dr. Neff recalls. Within a few weeks, she had her own diagnosis.

In hindsight, Dr. Neff has more clarity regarding her struggles in the traditional medical space. She had found it difficult to fit patients into short appointment windows and keep their notes concise. Although she loved hospital work, the environment had been overwhelming and led to burnout.
 

‘A Deficit-Based Lens’

Dr. Houser believes that too often, autism is viewed through a “deficit-based lens.” Stressors like sensory overload, changes in routine, or unexpected events can exacerbate behavioral challenges for neurodivergent people in the workplace. The DSM-5 criteria for autism, she points out, are largely based on autistic “stress behaviors.”

The result, Dr. Houser says, is that neurodivergent doctors are judged by their response to stressors that put them at a disadvantage rather than their capabilities under more positive circumstances. “The more dysregulated someone is,” she says, “the more likely they are to manifest those observable behaviors.”

Dr. Neff notes that medicine is a very “sensory overwhelming work environment.” Working in ob.gyn. and primary care clinics, she remembers often coming home with a headache and a low-grade fever. “I had no idea why, but I now realize it’s because I was so sensory sick.”

Fearing for her job, Dr. Neff intentionally waited until she was in private practice to disclose her neurodiversity. “I don’t think it would have been received well if I was in a hospital system,” she says. “There’s a lot of invalidation that can come when someone chooses to self-disclose, and their colleagues don’t have a framework in mind to understand.” In one instance, after revealing her diagnosis, she remembers a well-known researcher telling her she wasn’t autistic.
Dr. Grosjean has also had former colleagues invalidate her diagnosis, something she says “keeps people quiet.”
 

Understanding the Neurodivergent Brain

The general lack of education on how neurodivergent brains work, physicians with these conditions say, means they are not often recognized for how they can function with certain accommodations and how they could contribute in unique ways if their workplace challenges were reduced.

“What we know about autistic brains is that we are systems-thinking pattern matchers,” says Dr. Houser, who formed an interdisciplinary task force to explore medical conditions that are more common in autistic people. Through that comprehensive approach, she has worked to find best practices to treat the constellation of conditions that can arise among these patients. “My autistic brain allowed me to do that,” Dr. Houser says.

Catriona McVey, a medical student in the United Kingdom and creator of the blog Attention Deficit Doctor, points out that “ADHD brains are interest-driven; they can be very focused when you’re doing something enjoyable or new due to increased dopaminergic stimulation.” Ms. McVey speaks from personal experience. “I’ve hyperfocused before on an essay that interested me for over 10 hours,” she recalls, “so I imagine if I was interested in surgery, I could easily hyperfocus on a long operation.” 

Empathy is another key part of medical practice. Contrary to stereotypes of neurodivergent people lacking empathy, current research suggests this isn’t true. A concept known as the “double empathy problem,” a term coined by British researcher Damian Milton in 2012, challenges the misconception that autistic people do not have empathy, explains Dr. Grosjean.

Mr. Milton theorized that there are two types of empathy: emotional, when you feel someone else’s pain, and cognitive, which involves critical thinking to understand someone’s emotions or thoughts. “Autistic people have, in general, a lot of emotional empathy,” Dr. Grosjean says, “but the cognitive empathy they don’t have as well.”

Dr. Neff has experienced this in her practice. “I will often feel what my clients are feeling as they’re feeling it,” she says, adding that she has always had an innate ability to analyze and connect with clients. She’s good at observing the interplay of health conditions, incorporating biology, psychology, and social conceptualizations of issues, with nuance. She feels that recognizing behavioral patterns or psychological triggers in her patients helps her see them holistically and provide better care. “That was a skill even before I realized I was autistic, but I always thought it was just intuitive to everyone,” she says. 
 

Support Can Lead to Success

The Americans with Disabilities Act requires employers to provide reasonable accommodations to neurodivergent employees. However, getting those accommodations involves disclosure, which many physicians have reasons to avoid.

It also means more work. Requesting and putting adjustments in place can take a lot of time and energy to organize. Ms. McVey says they can be “long-winded, multistep tasks” that are not very compatible with ADHD. “Some doctors report that service pressures and funding are used as excuses to refuse adjustments,” she adds. 

Ms. McVey lists several workplace accommodations that could be helpful, including flexible working hours, a quiet space to complete paperwork, dictation software, and extra time for medical students to complete written exams.

Neurodivergent physicians have also called for increased diversity of senior leadership and utilizing “cognitive apprenticeship models,” where employees explain their thought processes and receive timely feedback.

But far too often, there is little intervention until a doctor reaches a crisis point. “I look forward to the day when we don’t have to wait until people are profoundly depleted to discover how their brains work,” says Dr. Houser.

Beyond logistical and structural changes in the medical field, Dr. Grosjean speaks of the simple need to listen to colleagues with an open mind and believe them when they express their feelings and experiences. “Everyone has a role to play in challenging stigma, misconceptions, and stereotypes,” Ms. McVey agrees. Ask yourself the old question, she suggests: “If not me, then who? If not now, then when?”

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

Some 15%-20% of the world’s population are neurodivergent, with conditions such as autism, dyslexia, Tourette syndrome, attention-deficit/hyperactivity disorder (ADHD), and others. With different strengths and challenges around learning, engaging socially, or completing certain tasks, neurodivergent people can face barriers in the workforce.

Meanwhile, studies suggest that neurodivergent people may be overrepresented in STEM fields such as medicine. The medical field may self-select for traits associated with neurodivergent conditions, researchers say, including a hyperfocus on intense interests, pattern recognition, increased curiosity and empathy, and thinking quickly under pressure.

But neurodivergent physicians report difficult, even damaging, experiences in the healthcare field. They struggle with stigma, a culture of nondisclosure, and lack of accommodations, which can lead to burnout and poor mental health.

“The medical system and the mental health system are some of the spaces that are holding on tightly to some of the outdated understandings of things like autism and ADHD,” says Megan Anna Neff, PsyD, a psychologist with autism and ADHD based in Portland, Oregon.

Situations can get dire: A 2023 survey of more than 200 autistic doctors from several countries found that 77% had considered suicide and 24% had attempted it.

But here’s the crux of it: Many neurodivergent doctors believe their unique ways of thinking and outside-the-box creativity are skills and strengths that can benefit the field. And they say making medicine more inclusive — and better understanding how a neurodivergent physician’s brain works — would allow them to thrive.
 

Blending In and Breaking Down

The exact number of neurodivergent physicians in the workforce remains unknown. Existing studies are small and focus mainly on autism. But researchers believe the percentage could be higher than we think, because neurodiversity can be underidentified.

Although autism can sometimes be diagnosed as early as 18 months, it’s not uncommon to receive a diagnosis well into adulthood. “Like many late-identified autistic adults, I got my autism diagnosis in the context of autistic burnout,” says Melissa Houser, MD, a primary care physician who received a diagnosis in 2021. Dr. Houser, who uses the pronouns she/they, explains that her experience is common, “a consequence of chronically having your life’s demands exceed your capacity.”

Dr. Houser, who also has ADHD and dyslexia, among other neurodivergent conditions, says that before her diagnosis, she worked in a traditional practice setting. Eventually, she began to notice intense dysregulation and fatigue. “I began to have a lot more difficulties with communication and my motor planning and sequencing,” Dr. Houser says. “I was sleep-deprived, and my needs were not being met. I was in a situation where I had a complete lack of autonomy over my practice.”

Deep in burnout, Dr. Houser says she lost her ability to “mask,” a term used to describe how some neurodivergent people work to “blend in” with societal expectations. This led to further communication breakdowns with her supervisor. Finally, Dr. Houser saw a psychiatrist.

Shortly after her diagnosis, Dr. Houser quit her job and founded All Brains Belong, a nonprofit that provides neurodiversity-affirming medical care, education, and advocacy. Research has found that people with autism are at increased risk for physical health conditions, including immune conditions, gastrointestinal disorders, metabolic conditions, and increased mortality in hospital settings. Understanding these connections can “mean the difference between life and death” for neurodivergent patients, Dr. Houser says.

Yet, in a 2015 study that assessed providers’ ability to recognize autism, a high proportion were not aware that they had patients with autism spectrum disorder, and most reported lacking both the skills and the tools to care for them.
 

Different as a Doctor and a Patient

Bernadette Grosjean, MD, a retired associate professor of psychiatry at David Geffen School of Medicine at UCLA and a distinguished Fellow of the American Psychiatric Association, also found insight into lifelong experiences as both a doctor and a patient with her autism diagnosis, which came when she was 61.

“Looking back, I was a smart kid but kind of clumsy and different in other ways,” Dr. Grosjean says. According to a 2021 survey by Cambridge University, autistic individuals are significantly more likely to identify as LGBTQ+, and Dr. Grosjean, who is gay, says that not being fully accepted by family or friends played a role in her struggles with mental health issues.

Throughout her mental health treatment, Dr. Grosjean felt as though her providers “were expecting from me things that I didn’t know how to do or fix. I didn’t know how to be a ‘good’ patient,” she recalls.

As a psychiatrist, Dr. Grosjean started to notice that many of the women she treated for borderline personality disorder, which is categorized by unstable relationships and emotions, were autistic. “I then started asking lots of questions about myself — the fact that I’ve always been very sensitive or that I’ve been accused of being both hypersensitive and not having emotions, and I understood a lot.”

When Dr. Grosjean came across Autistic Doctors International, a group of over 800 autistic doctors worldwide, she says, “I found my tribe.” She now serves as the US lead for psychiatry for the group, which is focused on support, advocacy, research, and education around neurodiversity.

Psychiatric comorbidities can accompany neurodivergent conditions. But a growing body of research, including a 2022 study published in the European Archives of Psychiatry and Clinical Neuroscience, indicates that autism and ADHD are frequently misdiagnosed as depression or anxiety.

Dr. Neff was unaware of her conditions until one of her children was diagnosed with autism in 2021. She started to research it. “As I was learning about autism and girls, I was like, ‘Oh, my gosh, this is me,’ ” Dr. Neff recalls. Within a few weeks, she had her own diagnosis.

In hindsight, Dr. Neff has more clarity regarding her struggles in the traditional medical space. She had found it difficult to fit patients into short appointment windows and keep their notes concise. Although she loved hospital work, the environment had been overwhelming and led to burnout.
 

‘A Deficit-Based Lens’

Dr. Houser believes that too often, autism is viewed through a “deficit-based lens.” Stressors like sensory overload, changes in routine, or unexpected events can exacerbate behavioral challenges for neurodivergent people in the workplace. The DSM-5 criteria for autism, she points out, are largely based on autistic “stress behaviors.”

The result, Dr. Houser says, is that neurodivergent doctors are judged by their response to stressors that put them at a disadvantage rather than their capabilities under more positive circumstances. “The more dysregulated someone is,” she says, “the more likely they are to manifest those observable behaviors.”

Dr. Neff notes that medicine is a very “sensory overwhelming work environment.” Working in ob.gyn. and primary care clinics, she remembers often coming home with a headache and a low-grade fever. “I had no idea why, but I now realize it’s because I was so sensory sick.”

Fearing for her job, Dr. Neff intentionally waited until she was in private practice to disclose her neurodiversity. “I don’t think it would have been received well if I was in a hospital system,” she says. “There’s a lot of invalidation that can come when someone chooses to self-disclose, and their colleagues don’t have a framework in mind to understand.” In one instance, after revealing her diagnosis, she remembers a well-known researcher telling her she wasn’t autistic.
Dr. Grosjean has also had former colleagues invalidate her diagnosis, something she says “keeps people quiet.”
 

Understanding the Neurodivergent Brain

The general lack of education on how neurodivergent brains work, physicians with these conditions say, means they are not often recognized for how they can function with certain accommodations and how they could contribute in unique ways if their workplace challenges were reduced.

“What we know about autistic brains is that we are systems-thinking pattern matchers,” says Dr. Houser, who formed an interdisciplinary task force to explore medical conditions that are more common in autistic people. Through that comprehensive approach, she has worked to find best practices to treat the constellation of conditions that can arise among these patients. “My autistic brain allowed me to do that,” Dr. Houser says.

Catriona McVey, a medical student in the United Kingdom and creator of the blog Attention Deficit Doctor, points out that “ADHD brains are interest-driven; they can be very focused when you’re doing something enjoyable or new due to increased dopaminergic stimulation.” Ms. McVey speaks from personal experience. “I’ve hyperfocused before on an essay that interested me for over 10 hours,” she recalls, “so I imagine if I was interested in surgery, I could easily hyperfocus on a long operation.” 

Empathy is another key part of medical practice. Contrary to stereotypes of neurodivergent people lacking empathy, current research suggests this isn’t true. A concept known as the “double empathy problem,” a term coined by British researcher Damian Milton in 2012, challenges the misconception that autistic people do not have empathy, explains Dr. Grosjean.

Mr. Milton theorized that there are two types of empathy: emotional, when you feel someone else’s pain, and cognitive, which involves critical thinking to understand someone’s emotions or thoughts. “Autistic people have, in general, a lot of emotional empathy,” Dr. Grosjean says, “but the cognitive empathy they don’t have as well.”

Dr. Neff has experienced this in her practice. “I will often feel what my clients are feeling as they’re feeling it,” she says, adding that she has always had an innate ability to analyze and connect with clients. She’s good at observing the interplay of health conditions, incorporating biology, psychology, and social conceptualizations of issues, with nuance. She feels that recognizing behavioral patterns or psychological triggers in her patients helps her see them holistically and provide better care. “That was a skill even before I realized I was autistic, but I always thought it was just intuitive to everyone,” she says. 
 

Support Can Lead to Success

The Americans with Disabilities Act requires employers to provide reasonable accommodations to neurodivergent employees. However, getting those accommodations involves disclosure, which many physicians have reasons to avoid.

It also means more work. Requesting and putting adjustments in place can take a lot of time and energy to organize. Ms. McVey says they can be “long-winded, multistep tasks” that are not very compatible with ADHD. “Some doctors report that service pressures and funding are used as excuses to refuse adjustments,” she adds. 

Ms. McVey lists several workplace accommodations that could be helpful, including flexible working hours, a quiet space to complete paperwork, dictation software, and extra time for medical students to complete written exams.

Neurodivergent physicians have also called for increased diversity of senior leadership and utilizing “cognitive apprenticeship models,” where employees explain their thought processes and receive timely feedback.

But far too often, there is little intervention until a doctor reaches a crisis point. “I look forward to the day when we don’t have to wait until people are profoundly depleted to discover how their brains work,” says Dr. Houser.

Beyond logistical and structural changes in the medical field, Dr. Grosjean speaks of the simple need to listen to colleagues with an open mind and believe them when they express their feelings and experiences. “Everyone has a role to play in challenging stigma, misconceptions, and stereotypes,” Ms. McVey agrees. Ask yourself the old question, she suggests: “If not me, then who? If not now, then when?”

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

Some 15%-20% of the world’s population are neurodivergent, with conditions such as autism, dyslexia, Tourette syndrome, attention-deficit/hyperactivity disorder (ADHD), and others. With different strengths and challenges around learning, engaging socially, or completing certain tasks, neurodivergent people can face barriers in the workforce.

Meanwhile, studies suggest that neurodivergent people may be overrepresented in STEM fields such as medicine. The medical field may self-select for traits associated with neurodivergent conditions, researchers say, including a hyperfocus on intense interests, pattern recognition, increased curiosity and empathy, and thinking quickly under pressure.

But neurodivergent physicians report difficult, even damaging, experiences in the healthcare field. They struggle with stigma, a culture of nondisclosure, and lack of accommodations, which can lead to burnout and poor mental health.

“The medical system and the mental health system are some of the spaces that are holding on tightly to some of the outdated understandings of things like autism and ADHD,” says Megan Anna Neff, PsyD, a psychologist with autism and ADHD based in Portland, Oregon.

Situations can get dire: A 2023 survey of more than 200 autistic doctors from several countries found that 77% had considered suicide and 24% had attempted it.

But here’s the crux of it: Many neurodivergent doctors believe their unique ways of thinking and outside-the-box creativity are skills and strengths that can benefit the field. And they say making medicine more inclusive — and better understanding how a neurodivergent physician’s brain works — would allow them to thrive.
 

Blending In and Breaking Down

The exact number of neurodivergent physicians in the workforce remains unknown. Existing studies are small and focus mainly on autism. But researchers believe the percentage could be higher than we think, because neurodiversity can be underidentified.

Although autism can sometimes be diagnosed as early as 18 months, it’s not uncommon to receive a diagnosis well into adulthood. “Like many late-identified autistic adults, I got my autism diagnosis in the context of autistic burnout,” says Melissa Houser, MD, a primary care physician who received a diagnosis in 2021. Dr. Houser, who uses the pronouns she/they, explains that her experience is common, “a consequence of chronically having your life’s demands exceed your capacity.”

Dr. Houser, who also has ADHD and dyslexia, among other neurodivergent conditions, says that before her diagnosis, she worked in a traditional practice setting. Eventually, she began to notice intense dysregulation and fatigue. “I began to have a lot more difficulties with communication and my motor planning and sequencing,” Dr. Houser says. “I was sleep-deprived, and my needs were not being met. I was in a situation where I had a complete lack of autonomy over my practice.”

Deep in burnout, Dr. Houser says she lost her ability to “mask,” a term used to describe how some neurodivergent people work to “blend in” with societal expectations. This led to further communication breakdowns with her supervisor. Finally, Dr. Houser saw a psychiatrist.

Shortly after her diagnosis, Dr. Houser quit her job and founded All Brains Belong, a nonprofit that provides neurodiversity-affirming medical care, education, and advocacy. Research has found that people with autism are at increased risk for physical health conditions, including immune conditions, gastrointestinal disorders, metabolic conditions, and increased mortality in hospital settings. Understanding these connections can “mean the difference between life and death” for neurodivergent patients, Dr. Houser says.

Yet, in a 2015 study that assessed providers’ ability to recognize autism, a high proportion were not aware that they had patients with autism spectrum disorder, and most reported lacking both the skills and the tools to care for them.
 

Different as a Doctor and a Patient

Bernadette Grosjean, MD, a retired associate professor of psychiatry at David Geffen School of Medicine at UCLA and a distinguished Fellow of the American Psychiatric Association, also found insight into lifelong experiences as both a doctor and a patient with her autism diagnosis, which came when she was 61.

“Looking back, I was a smart kid but kind of clumsy and different in other ways,” Dr. Grosjean says. According to a 2021 survey by Cambridge University, autistic individuals are significantly more likely to identify as LGBTQ+, and Dr. Grosjean, who is gay, says that not being fully accepted by family or friends played a role in her struggles with mental health issues.

Throughout her mental health treatment, Dr. Grosjean felt as though her providers “were expecting from me things that I didn’t know how to do or fix. I didn’t know how to be a ‘good’ patient,” she recalls.

As a psychiatrist, Dr. Grosjean started to notice that many of the women she treated for borderline personality disorder, which is categorized by unstable relationships and emotions, were autistic. “I then started asking lots of questions about myself — the fact that I’ve always been very sensitive or that I’ve been accused of being both hypersensitive and not having emotions, and I understood a lot.”

When Dr. Grosjean came across Autistic Doctors International, a group of over 800 autistic doctors worldwide, she says, “I found my tribe.” She now serves as the US lead for psychiatry for the group, which is focused on support, advocacy, research, and education around neurodiversity.

Psychiatric comorbidities can accompany neurodivergent conditions. But a growing body of research, including a 2022 study published in the European Archives of Psychiatry and Clinical Neuroscience, indicates that autism and ADHD are frequently misdiagnosed as depression or anxiety.

Dr. Neff was unaware of her conditions until one of her children was diagnosed with autism in 2021. She started to research it. “As I was learning about autism and girls, I was like, ‘Oh, my gosh, this is me,’ ” Dr. Neff recalls. Within a few weeks, she had her own diagnosis.

In hindsight, Dr. Neff has more clarity regarding her struggles in the traditional medical space. She had found it difficult to fit patients into short appointment windows and keep their notes concise. Although she loved hospital work, the environment had been overwhelming and led to burnout.
 

‘A Deficit-Based Lens’

Dr. Houser believes that too often, autism is viewed through a “deficit-based lens.” Stressors like sensory overload, changes in routine, or unexpected events can exacerbate behavioral challenges for neurodivergent people in the workplace. The DSM-5 criteria for autism, she points out, are largely based on autistic “stress behaviors.”

The result, Dr. Houser says, is that neurodivergent doctors are judged by their response to stressors that put them at a disadvantage rather than their capabilities under more positive circumstances. “The more dysregulated someone is,” she says, “the more likely they are to manifest those observable behaviors.”

Dr. Neff notes that medicine is a very “sensory overwhelming work environment.” Working in ob.gyn. and primary care clinics, she remembers often coming home with a headache and a low-grade fever. “I had no idea why, but I now realize it’s because I was so sensory sick.”

Fearing for her job, Dr. Neff intentionally waited until she was in private practice to disclose her neurodiversity. “I don’t think it would have been received well if I was in a hospital system,” she says. “There’s a lot of invalidation that can come when someone chooses to self-disclose, and their colleagues don’t have a framework in mind to understand.” In one instance, after revealing her diagnosis, she remembers a well-known researcher telling her she wasn’t autistic.
Dr. Grosjean has also had former colleagues invalidate her diagnosis, something she says “keeps people quiet.”
 

Understanding the Neurodivergent Brain

The general lack of education on how neurodivergent brains work, physicians with these conditions say, means they are not often recognized for how they can function with certain accommodations and how they could contribute in unique ways if their workplace challenges were reduced.

“What we know about autistic brains is that we are systems-thinking pattern matchers,” says Dr. Houser, who formed an interdisciplinary task force to explore medical conditions that are more common in autistic people. Through that comprehensive approach, she has worked to find best practices to treat the constellation of conditions that can arise among these patients. “My autistic brain allowed me to do that,” Dr. Houser says.

Catriona McVey, a medical student in the United Kingdom and creator of the blog Attention Deficit Doctor, points out that “ADHD brains are interest-driven; they can be very focused when you’re doing something enjoyable or new due to increased dopaminergic stimulation.” Ms. McVey speaks from personal experience. “I’ve hyperfocused before on an essay that interested me for over 10 hours,” she recalls, “so I imagine if I was interested in surgery, I could easily hyperfocus on a long operation.” 

Empathy is another key part of medical practice. Contrary to stereotypes of neurodivergent people lacking empathy, current research suggests this isn’t true. A concept known as the “double empathy problem,” a term coined by British researcher Damian Milton in 2012, challenges the misconception that autistic people do not have empathy, explains Dr. Grosjean.

Mr. Milton theorized that there are two types of empathy: emotional, when you feel someone else’s pain, and cognitive, which involves critical thinking to understand someone’s emotions or thoughts. “Autistic people have, in general, a lot of emotional empathy,” Dr. Grosjean says, “but the cognitive empathy they don’t have as well.”

Dr. Neff has experienced this in her practice. “I will often feel what my clients are feeling as they’re feeling it,” she says, adding that she has always had an innate ability to analyze and connect with clients. She’s good at observing the interplay of health conditions, incorporating biology, psychology, and social conceptualizations of issues, with nuance. She feels that recognizing behavioral patterns or psychological triggers in her patients helps her see them holistically and provide better care. “That was a skill even before I realized I was autistic, but I always thought it was just intuitive to everyone,” she says. 
 

Support Can Lead to Success

The Americans with Disabilities Act requires employers to provide reasonable accommodations to neurodivergent employees. However, getting those accommodations involves disclosure, which many physicians have reasons to avoid.

It also means more work. Requesting and putting adjustments in place can take a lot of time and energy to organize. Ms. McVey says they can be “long-winded, multistep tasks” that are not very compatible with ADHD. “Some doctors report that service pressures and funding are used as excuses to refuse adjustments,” she adds. 

Ms. McVey lists several workplace accommodations that could be helpful, including flexible working hours, a quiet space to complete paperwork, dictation software, and extra time for medical students to complete written exams.

Neurodivergent physicians have also called for increased diversity of senior leadership and utilizing “cognitive apprenticeship models,” where employees explain their thought processes and receive timely feedback.

But far too often, there is little intervention until a doctor reaches a crisis point. “I look forward to the day when we don’t have to wait until people are profoundly depleted to discover how their brains work,” says Dr. Houser.

Beyond logistical and structural changes in the medical field, Dr. Grosjean speaks of the simple need to listen to colleagues with an open mind and believe them when they express their feelings and experiences. “Everyone has a role to play in challenging stigma, misconceptions, and stereotypes,” Ms. McVey agrees. Ask yourself the old question, she suggests: “If not me, then who? If not now, then when?”

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

Patients with atopic dermatitis (AD) had a lower risk for major adverse cardiovascular events (MACE) than the general population, and this risk was significantly lower than that of patients with rheumatoid arthritis (RA), according to an analysis of national claims data.

The results of the analysis were presented during a poster session at the Revolutionizing Atopic Dermatitis conference in Chicago. “While it is known that atopic dermatitis is associated with some comorbidities, the specific risk of major adverse cardiovascular events in patients with AD, especially those with moderate to severe AD within the US population, is unclear,” the study’s first author Christopher G. Bunick, MD, PhD, said in an interview following the conference.

To characterize the risk for MACE in patients with AD vs matched controls without AD (non-AD) and patients with RA, Dr. Bunick, associate professor of dermatology at Yale University, New Haven, Connecticut, and colleagues retrospectively evaluated US claims data from Optum’s Clinformatics Data Mart. The study population consisted of 381,221 patients aged 18 years and older who were diagnosed with AD from March 2017 to March 2023. Comparator groups included 381,221 non-AD controls matched by age, sex, and cohort entry, and 97,445 patients diagnosed with RA based on at least two claims for RA ≥ 7 days apart.

Patients were classified as having moderate to severe disease if they received dupilumab for AD or advanced systemic therapy for RA at any time during the follow-up period. The matched moderate to severe AD and non-AD cohorts were composed of 7134 patients each. The incidence of MACE was defined as inpatient hospitalization with myocardial infarction or stroke. The researchers used multivariable Cox proportional hazard models adjusted for baseline demographics, comorbidities, and medications to calculate the relative risk for MACE.
 

MACE Incidence, Relative Risk

The mean age of the AD cohort and non-AD matched controls was 58 years, and the mean age of the RA cohort was 67 years. The incidence of MACE per 100 patient-years was 1.78 among patients with AD, 1.83 among non-AD matched controls, and 2.12 among patients with RA. Patients with moderate to severe AD had a MACE incidence of 1.18 per 100 patient-years, which was lower than that of non-AD matched controls (1.52) and patients with moderate to severe RA (1.67).

In other findings, the relative risk for MACE in patients with AD was lower vs non-AD controls (adjusted hazard ratio [aHR], 0.91; 95% CI, 0.89-0.93; P < .001) and patients with RA (aHR, 0.83; 95% CI, 0.80-0.85; P < .001). Among patients with moderate to severe AD, MACE risk was similar to that of non-AD matched controls (aHR, 0.92; 95% CI, 0.73-1.14) and lower vs those with moderate to severe RA (aHR, 0.83; 95% CI, 0.73-0.94; P < .01).

MACE risk associated with AD was greater in patients who were older (per year, aHR, 1.05; 95% CI, 1.05-1.05), male (aHR, 0.81; 95% CI, 0.79-0.84), and Black vs White (aHR, 1.16; 95% CI, 1.11-1.21), and among those who received systemic corticosteroids in the 3 months before diagnosis (aHR, 1.10; 95% CI, 1.06-1.14), were hospitalized in the year before diagnosis (aHR, 1.35; 95% CI, 1.30-1.41), and had a history of smoking (aHR, 1.20; 95% CI, 1.16-1.24) and drug abuse (aHR, 1.34; 95% CI, 1.25-1.43).
 

Unexpected Results

“One surprising finding was that the incidence of MACE in patients with moderate to severe AD was actually lower than that in non-AD matched controls and significantly lower compared to patients with moderate to severe RA,” Dr. Bunick said. “This contrasts with the expectation that increased systemic inflammation in moderate to severe AD would correspond with a higher incidence of MACE.”

Another unexpected result, he said, was that, among patients with moderate to severe AD, the risk for MACE was not significantly different from that of non-AD matched controls, suggesting that the inflammatory burden in AD might not translate to as high a cardiovascular risk as previously assumed.

Dr. Bunick noted that advanced treatments for AD such as Janus kinase (JAK) inhibitors (upadacitinib and abrocitinib) have a class boxed warning for MACE based on a study of another JAK inhibitor (tofacitinib) in patients with RA, but “this may not apply to AD because patients with AD have a lower risk for MACE.”

In his opinion, he said, the study “underscores the importance of understanding the specific risks associated with different inflammatory conditions.” Moreover, “it emphasizes the potential benefits of newer systemic therapies in potentially mitigating cardiovascular risks in patients with moderate to severe AD.”

Dr. Bunick acknowledged certain limitations of the study, including its retrospective design and reliance on administrative claims data, which “may introduce coding errors and misclassification,” and the generalizability of the results, which may be limited to the US population.

AbbVie funded the study, and three of the coauthors are employees of the company. Dr. Bunick disclosed that he has served as an investigator and/or a consultant for AbbVie, Almirall, Apogee, Arcutis Biotherapeutics, Connect Biopharma, Daiichi Sankyo, EPI Health/Novan, LEO, Lilly, Novartis, Ortho Dermatologics, Palvella Therapeutics, Pfizer, Sanofi Regeneron, Sun, Takeda, Timber, and UCB.

A version of this article appeared on Medscape.com.

Patients with atopic dermatitis (AD) had a lower risk for major adverse cardiovascular events (MACE) than the general population, and this risk was significantly lower than that of patients with rheumatoid arthritis (RA), according to an analysis of national claims data.

The results of the analysis were presented during a poster session at the Revolutionizing Atopic Dermatitis conference in Chicago. “While it is known that atopic dermatitis is associated with some comorbidities, the specific risk of major adverse cardiovascular events in patients with AD, especially those with moderate to severe AD within the US population, is unclear,” the study’s first author Christopher G. Bunick, MD, PhD, said in an interview following the conference.

To characterize the risk for MACE in patients with AD vs matched controls without AD (non-AD) and patients with RA, Dr. Bunick, associate professor of dermatology at Yale University, New Haven, Connecticut, and colleagues retrospectively evaluated US claims data from Optum’s Clinformatics Data Mart. The study population consisted of 381,221 patients aged 18 years and older who were diagnosed with AD from March 2017 to March 2023. Comparator groups included 381,221 non-AD controls matched by age, sex, and cohort entry, and 97,445 patients diagnosed with RA based on at least two claims for RA ≥ 7 days apart.

Patients were classified as having moderate to severe disease if they received dupilumab for AD or advanced systemic therapy for RA at any time during the follow-up period. The matched moderate to severe AD and non-AD cohorts were composed of 7134 patients each. The incidence of MACE was defined as inpatient hospitalization with myocardial infarction or stroke. The researchers used multivariable Cox proportional hazard models adjusted for baseline demographics, comorbidities, and medications to calculate the relative risk for MACE.
 

MACE Incidence, Relative Risk

The mean age of the AD cohort and non-AD matched controls was 58 years, and the mean age of the RA cohort was 67 years. The incidence of MACE per 100 patient-years was 1.78 among patients with AD, 1.83 among non-AD matched controls, and 2.12 among patients with RA. Patients with moderate to severe AD had a MACE incidence of 1.18 per 100 patient-years, which was lower than that of non-AD matched controls (1.52) and patients with moderate to severe RA (1.67).

In other findings, the relative risk for MACE in patients with AD was lower vs non-AD controls (adjusted hazard ratio [aHR], 0.91; 95% CI, 0.89-0.93; P < .001) and patients with RA (aHR, 0.83; 95% CI, 0.80-0.85; P < .001). Among patients with moderate to severe AD, MACE risk was similar to that of non-AD matched controls (aHR, 0.92; 95% CI, 0.73-1.14) and lower vs those with moderate to severe RA (aHR, 0.83; 95% CI, 0.73-0.94; P < .01).

MACE risk associated with AD was greater in patients who were older (per year, aHR, 1.05; 95% CI, 1.05-1.05), male (aHR, 0.81; 95% CI, 0.79-0.84), and Black vs White (aHR, 1.16; 95% CI, 1.11-1.21), and among those who received systemic corticosteroids in the 3 months before diagnosis (aHR, 1.10; 95% CI, 1.06-1.14), were hospitalized in the year before diagnosis (aHR, 1.35; 95% CI, 1.30-1.41), and had a history of smoking (aHR, 1.20; 95% CI, 1.16-1.24) and drug abuse (aHR, 1.34; 95% CI, 1.25-1.43).
 

Unexpected Results

“One surprising finding was that the incidence of MACE in patients with moderate to severe AD was actually lower than that in non-AD matched controls and significantly lower compared to patients with moderate to severe RA,” Dr. Bunick said. “This contrasts with the expectation that increased systemic inflammation in moderate to severe AD would correspond with a higher incidence of MACE.”

Another unexpected result, he said, was that, among patients with moderate to severe AD, the risk for MACE was not significantly different from that of non-AD matched controls, suggesting that the inflammatory burden in AD might not translate to as high a cardiovascular risk as previously assumed.

Dr. Bunick noted that advanced treatments for AD such as Janus kinase (JAK) inhibitors (upadacitinib and abrocitinib) have a class boxed warning for MACE based on a study of another JAK inhibitor (tofacitinib) in patients with RA, but “this may not apply to AD because patients with AD have a lower risk for MACE.”

In his opinion, he said, the study “underscores the importance of understanding the specific risks associated with different inflammatory conditions.” Moreover, “it emphasizes the potential benefits of newer systemic therapies in potentially mitigating cardiovascular risks in patients with moderate to severe AD.”

Dr. Bunick acknowledged certain limitations of the study, including its retrospective design and reliance on administrative claims data, which “may introduce coding errors and misclassification,” and the generalizability of the results, which may be limited to the US population.

AbbVie funded the study, and three of the coauthors are employees of the company. Dr. Bunick disclosed that he has served as an investigator and/or a consultant for AbbVie, Almirall, Apogee, Arcutis Biotherapeutics, Connect Biopharma, Daiichi Sankyo, EPI Health/Novan, LEO, Lilly, Novartis, Ortho Dermatologics, Palvella Therapeutics, Pfizer, Sanofi Regeneron, Sun, Takeda, Timber, and UCB.

A version of this article appeared on Medscape.com.

Patients with atopic dermatitis (AD) had a lower risk for major adverse cardiovascular events (MACE) than the general population, and this risk was significantly lower than that of patients with rheumatoid arthritis (RA), according to an analysis of national claims data.

The results of the analysis were presented during a poster session at the Revolutionizing Atopic Dermatitis conference in Chicago. “While it is known that atopic dermatitis is associated with some comorbidities, the specific risk of major adverse cardiovascular events in patients with AD, especially those with moderate to severe AD within the US population, is unclear,” the study’s first author Christopher G. Bunick, MD, PhD, said in an interview following the conference.

To characterize the risk for MACE in patients with AD vs matched controls without AD (non-AD) and patients with RA, Dr. Bunick, associate professor of dermatology at Yale University, New Haven, Connecticut, and colleagues retrospectively evaluated US claims data from Optum’s Clinformatics Data Mart. The study population consisted of 381,221 patients aged 18 years and older who were diagnosed with AD from March 2017 to March 2023. Comparator groups included 381,221 non-AD controls matched by age, sex, and cohort entry, and 97,445 patients diagnosed with RA based on at least two claims for RA ≥ 7 days apart.

Patients were classified as having moderate to severe disease if they received dupilumab for AD or advanced systemic therapy for RA at any time during the follow-up period. The matched moderate to severe AD and non-AD cohorts were composed of 7134 patients each. The incidence of MACE was defined as inpatient hospitalization with myocardial infarction or stroke. The researchers used multivariable Cox proportional hazard models adjusted for baseline demographics, comorbidities, and medications to calculate the relative risk for MACE.
 

MACE Incidence, Relative Risk

The mean age of the AD cohort and non-AD matched controls was 58 years, and the mean age of the RA cohort was 67 years. The incidence of MACE per 100 patient-years was 1.78 among patients with AD, 1.83 among non-AD matched controls, and 2.12 among patients with RA. Patients with moderate to severe AD had a MACE incidence of 1.18 per 100 patient-years, which was lower than that of non-AD matched controls (1.52) and patients with moderate to severe RA (1.67).

In other findings, the relative risk for MACE in patients with AD was lower vs non-AD controls (adjusted hazard ratio [aHR], 0.91; 95% CI, 0.89-0.93; P < .001) and patients with RA (aHR, 0.83; 95% CI, 0.80-0.85; P < .001). Among patients with moderate to severe AD, MACE risk was similar to that of non-AD matched controls (aHR, 0.92; 95% CI, 0.73-1.14) and lower vs those with moderate to severe RA (aHR, 0.83; 95% CI, 0.73-0.94; P < .01).

MACE risk associated with AD was greater in patients who were older (per year, aHR, 1.05; 95% CI, 1.05-1.05), male (aHR, 0.81; 95% CI, 0.79-0.84), and Black vs White (aHR, 1.16; 95% CI, 1.11-1.21), and among those who received systemic corticosteroids in the 3 months before diagnosis (aHR, 1.10; 95% CI, 1.06-1.14), were hospitalized in the year before diagnosis (aHR, 1.35; 95% CI, 1.30-1.41), and had a history of smoking (aHR, 1.20; 95% CI, 1.16-1.24) and drug abuse (aHR, 1.34; 95% CI, 1.25-1.43).
 

Unexpected Results

“One surprising finding was that the incidence of MACE in patients with moderate to severe AD was actually lower than that in non-AD matched controls and significantly lower compared to patients with moderate to severe RA,” Dr. Bunick said. “This contrasts with the expectation that increased systemic inflammation in moderate to severe AD would correspond with a higher incidence of MACE.”

Another unexpected result, he said, was that, among patients with moderate to severe AD, the risk for MACE was not significantly different from that of non-AD matched controls, suggesting that the inflammatory burden in AD might not translate to as high a cardiovascular risk as previously assumed.

Dr. Bunick noted that advanced treatments for AD such as Janus kinase (JAK) inhibitors (upadacitinib and abrocitinib) have a class boxed warning for MACE based on a study of another JAK inhibitor (tofacitinib) in patients with RA, but “this may not apply to AD because patients with AD have a lower risk for MACE.”

In his opinion, he said, the study “underscores the importance of understanding the specific risks associated with different inflammatory conditions.” Moreover, “it emphasizes the potential benefits of newer systemic therapies in potentially mitigating cardiovascular risks in patients with moderate to severe AD.”

Dr. Bunick acknowledged certain limitations of the study, including its retrospective design and reliance on administrative claims data, which “may introduce coding errors and misclassification,” and the generalizability of the results, which may be limited to the US population.

AbbVie funded the study, and three of the coauthors are employees of the company. Dr. Bunick disclosed that he has served as an investigator and/or a consultant for AbbVie, Almirall, Apogee, Arcutis Biotherapeutics, Connect Biopharma, Daiichi Sankyo, EPI Health/Novan, LEO, Lilly, Novartis, Ortho Dermatologics, Palvella Therapeutics, Pfizer, Sanofi Regeneron, Sun, Takeda, Timber, and UCB.

A version of this article appeared on Medscape.com.

In the wake of a debilitating cyberattack against one of the nation’s largest health care systems, Marvin Ruckle, a nurse at an Ascension hospital in Wichita, Kansas, said he had a frightening experience: He nearly gave a baby “the wrong dose of narcotic” because of confusing paperwork.

Ruckle, who has worked in the neonatal intensive care unit at Ascension Via Christi St. Joseph for two decades, said it was “hard to decipher which was the correct dose” on the medication record. He’d “never seen that happen,” he said, “when we were on the computer system” before the cyberattack.

A May 8 ransomware attack against Ascension, a Catholic health system with 140 hospitals in at least 10 states, locked providers out of systems that track and coordinate nearly every aspect of patient care. They include its systems for electronic health records, some phones, and ones “utilized to order certain tests, procedures and medications,” the company said in a May 9 statement.

More than a dozen doctors and nurses who work for the sprawling health system told Michigan Public and KFF Health News that patient care at its hospitals across the nation was compromised in the fallout of the cyberattack over the past several weeks. Clinicians working for hospitals in three states described harrowing lapses, including delayed or lost lab results, medication errors, and an absence of routine safety checks via technology to prevent potentially fatal mistakes.

Despite a precipitous rise in cyberattacks against the health sector in recent years, a weeks-long disruption of this magnitude is beyond what most health systems are prepared for, said John S. Clark, an associate chief pharmacy officer at the University of Michigan health system.

“I don’t believe that anyone is fully prepared,” he said. Most emergency management plans “are designed around long-term downtimes that are into one, two, or three days.”

Ascension in a public statement May 9 said its care teams were “trained for these kinds of disruptions,” but did not respond to questions in early June about whether it had prepared for longer periods of downtime. Ascension said June 14 it had restored access to electronic health records across its network, but that patient “medical records and other information collected between May 8” and when the service was restored “may be temporarily inaccessible as we work to update the portal with information collected during the system downtime.”

Ruckle said he “had no training” for the cyberattack.
 

Back to Paper

Lisa Watson, an intensive care unit nurse at Ascension Via Christi St. Francis hospital in Wichita, described her own close call. She said she nearly administered the wrong medication to a critically ill patient because she couldn’t scan it as she normally would. “My patient probably would have passed away had I not caught it,” she said.

Watson is no stranger to using paper for patients’ medical charts, saying she did so “for probably half of my career,” before electronic health records became ubiquitous in hospitals. What happened after the cyberattack was “by no means the same.”

“When we paper-charted, we had systems in place to get those orders to other departments in a timely manner,” she said, “and those have all gone away.”

Melissa LaRue, an ICU nurse at Ascension Saint Agnes Hospital in Baltimore, described a close call with “administering the wrong dosage” of a patient’s blood pressure medication. “Luckily,” she said, it was “triple-checked and remedied before that could happen. But I think the potential for harm is there when you have so much information and paperwork that you have to go through.”

Clinicians say their hospitals have relied on slapdash workarounds, using handwritten notes, faxes, sticky notes, and basic computer spreadsheets — many devised on the fly by doctors and nurses — to care for patients.

More than a dozen other nurses and doctors, some of them without union protections, at Ascension hospitals in Michigan recounted situations in which they say patient care was compromised. Those clinicians spoke on the condition that they not be named for fear of retaliation by their employer.

An Ascension hospital emergency room doctor in Detroit said a man on the city’s east side was given a dangerous narcotic intended for another patient because of a paperwork mix-up. As a result, the patient’s breathing slowed to the point that he had to be put on a ventilator. “We intubated him and we sent him to the ICU because he got the wrong medication.”

A nurse in a Michigan Ascension hospital ER said a woman with low blood sugar and “altered mental status” went into cardiac arrest and died after staff said they waited four hours for lab results they needed to determine how to treat her, but never received. “If I started having crushing chest pain in the middle of work and thought I was having a big one, I would grab someone to drive me down the street to another hospital,” the same ER nurse said.

Similar concerns reportedly led a travel nurse at an Ascension hospital in Indiana to quit. “I just want to warn those patients that are coming to any of the Ascension facilities that there will be delays in care. There is potential for error and for harm,” Justin Neisser told CBS4 in Indianapolis in May.

Several nurses and doctors at Ascension hospitals said they feared the errors they’ve witnessed since the cyberattack began could threaten their professional licenses. “This is how a RaDonda Vaught happens,” one nurse said, referring to the Tennessee nurse who was convicted of criminally negligent homicide in 2022 for a fatal drug error.

Reporters were not able to review records to verify clinicians’ claims because of privacy laws surrounding patients’ medical information that apply to health care professionals.

Ascension declined to answer questions about claims that care has been affected by the ransomware attack. “As we have made clear throughout this cyber attack which has impacted our system and our dedicated clinical providers, caring for our patients is our highest priority,” Sean Fitzpatrick, Ascension’s vice president of external communications, said via email on June 3. “We are confident that our care providers in our hospitals and facilities continue to provide quality medical care.”

The federal government requires hospitals to protect patients’ sensitive health data, according to cybersecurity experts. However, there are no federal requirements for hospitals to prevent or prepare for cyberattacks that could compromise their electronic systems.
 

Hospitals: ‘The No.1 Target of Ransomware’

“We’ve started to think about these as public health issues and disasters on the scale of earthquakes or hurricanes,” said Jeff Tully, a co-director of the Center for Healthcare Cybersecurity at the University of California-San Diego. “These types of cybersecurity incidents should be thought of as a matter of when, and not if.”

Josh Corman, a cybersecurity expert and advocate, said ransom crews regard hospitals as the perfect prey: “They have terrible security and they’ll pay. So almost immediately, hospitals went to the No. 1 target of ransomware.”

In 2023, the health sector experienced the largest share of ransomware attacks of 16 infrastructure sectors considered vital to national security or safety, according to an FBI report on internet crimes. In March, the federal Department of Health and Human Services said reported large breaches involving ransomware had jumped by 264% over the past five years.

A cyberattack this year on Change Healthcare, a unit of UnitedHealth Group’s Optum division that processes billions of health care transactions every year, crippled the business of providers, pharmacies, and hospitals.

In May, UnitedHealth Group CEO Andrew Witty told lawmakers the company paid a $22 million ransom as a result of the Change Healthcare attack — which occurred after hackers accessed a company portal that didn’t have multifactor authentication, a basic cybersecurity tool.

The Biden administration in recent months has pushed to bolster health care cybersecurity standards, but it’s not clear which new measures will be required.

In January, HHS nudged companies to improve email security, add multifactor authentication, and institute cybersecurity training and testing, among other voluntary measures. The Centers for Medicare & Medicaid Services is expected to release new requirements for hospitals, but the scope and timing are unclear. The same is true of an update HHS is expected to make to patient privacy regulations.

HHS said the voluntary measures “will inform the creation of new enforceable cybersecurity standards,” department spokesperson Jeff Nesbit said in a statement.

“The recent cyberattack at Ascension only underscores the need for everyone in the health care ecosystem to do their part to secure their systems and protect patients,” Nesbit said.

Meanwhile, lobbyists for the hospital industry contend cybersecurity mandates or penalties are misplaced and would curtail hospitals’ resources to fend off attacks.

“Hospitals and health systems are not the primary source of cyber risk exposure facing the health care sector,” the American Hospital Association, the largest lobbying group for U.S. hospitals, said in an April statement prepared for U.S. House lawmakers. Most large data breaches that hit hospitals in 2023 originated with third-party “business associates” or other health entities, including CMS itself, the AHA statement said.

Hospitals consolidating into large multistate health systems face increased risk of data breaches and ransomware attacks, according to one study. Ascension in 2022 was the third-largest hospital chain in the U.S. by number of beds, according to the most recent data from the federal Agency for Healthcare Research and Quality.

And while cybersecurity regulations can quickly become outdated, they can at least make it clear that if health systems fail to implement basic protections there “should be consequences for that,” Jim Bagian, a former director of the National Center for Patient Safety at the Veterans Health Administration, told Michigan Public’s Stateside.

Patients can pay the price when lapses occur. Those in hospital care face a greater likelihood of death during a cyberattack, according to researchers at the University of Minnesota School of Public Health.

Workers concerned about patient safety at Ascension hospitals in Michigan have called for the company to make changes.

“We implore Ascension to recognize the internal problems that continue to plague its hospitals, both publicly and transparently,” said Dina Carlisle, a nurse and the president of the OPEIU Local 40 union, which represents nurses at Ascension Providence Rochester. At least 125 staff members at that Ascension hospital have signed a petition asking administrators to temporarily reduce elective surgeries and nonemergency patient admissions, like under the protocols many hospitals adopted early in the covid-19 pandemic.

Watson, the Kansas ICU nurse, said in late May that nurses had urged management to bring in more nurses to help manage the workflow. “Everything that we say has fallen on deaf ears,” she said.

“It is very hard to be a nurse at Ascension right now,” Watson said in late May. “It is very hard to be a patient at Ascension right now.”

If you’re a patient or worker at an Ascension hospital and would like to tell KFF Health News about your experiences, click here to share your story with us.
 

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

In the wake of a debilitating cyberattack against one of the nation’s largest health care systems, Marvin Ruckle, a nurse at an Ascension hospital in Wichita, Kansas, said he had a frightening experience: He nearly gave a baby “the wrong dose of narcotic” because of confusing paperwork.

Ruckle, who has worked in the neonatal intensive care unit at Ascension Via Christi St. Joseph for two decades, said it was “hard to decipher which was the correct dose” on the medication record. He’d “never seen that happen,” he said, “when we were on the computer system” before the cyberattack.

A May 8 ransomware attack against Ascension, a Catholic health system with 140 hospitals in at least 10 states, locked providers out of systems that track and coordinate nearly every aspect of patient care. They include its systems for electronic health records, some phones, and ones “utilized to order certain tests, procedures and medications,” the company said in a May 9 statement.

More than a dozen doctors and nurses who work for the sprawling health system told Michigan Public and KFF Health News that patient care at its hospitals across the nation was compromised in the fallout of the cyberattack over the past several weeks. Clinicians working for hospitals in three states described harrowing lapses, including delayed or lost lab results, medication errors, and an absence of routine safety checks via technology to prevent potentially fatal mistakes.

Despite a precipitous rise in cyberattacks against the health sector in recent years, a weeks-long disruption of this magnitude is beyond what most health systems are prepared for, said John S. Clark, an associate chief pharmacy officer at the University of Michigan health system.

“I don’t believe that anyone is fully prepared,” he said. Most emergency management plans “are designed around long-term downtimes that are into one, two, or three days.”

Ascension in a public statement May 9 said its care teams were “trained for these kinds of disruptions,” but did not respond to questions in early June about whether it had prepared for longer periods of downtime. Ascension said June 14 it had restored access to electronic health records across its network, but that patient “medical records and other information collected between May 8” and when the service was restored “may be temporarily inaccessible as we work to update the portal with information collected during the system downtime.”

Ruckle said he “had no training” for the cyberattack.
 

Back to Paper

Lisa Watson, an intensive care unit nurse at Ascension Via Christi St. Francis hospital in Wichita, described her own close call. She said she nearly administered the wrong medication to a critically ill patient because she couldn’t scan it as she normally would. “My patient probably would have passed away had I not caught it,” she said.

Watson is no stranger to using paper for patients’ medical charts, saying she did so “for probably half of my career,” before electronic health records became ubiquitous in hospitals. What happened after the cyberattack was “by no means the same.”

“When we paper-charted, we had systems in place to get those orders to other departments in a timely manner,” she said, “and those have all gone away.”

Melissa LaRue, an ICU nurse at Ascension Saint Agnes Hospital in Baltimore, described a close call with “administering the wrong dosage” of a patient’s blood pressure medication. “Luckily,” she said, it was “triple-checked and remedied before that could happen. But I think the potential for harm is there when you have so much information and paperwork that you have to go through.”

Clinicians say their hospitals have relied on slapdash workarounds, using handwritten notes, faxes, sticky notes, and basic computer spreadsheets — many devised on the fly by doctors and nurses — to care for patients.

More than a dozen other nurses and doctors, some of them without union protections, at Ascension hospitals in Michigan recounted situations in which they say patient care was compromised. Those clinicians spoke on the condition that they not be named for fear of retaliation by their employer.

An Ascension hospital emergency room doctor in Detroit said a man on the city’s east side was given a dangerous narcotic intended for another patient because of a paperwork mix-up. As a result, the patient’s breathing slowed to the point that he had to be put on a ventilator. “We intubated him and we sent him to the ICU because he got the wrong medication.”

A nurse in a Michigan Ascension hospital ER said a woman with low blood sugar and “altered mental status” went into cardiac arrest and died after staff said they waited four hours for lab results they needed to determine how to treat her, but never received. “If I started having crushing chest pain in the middle of work and thought I was having a big one, I would grab someone to drive me down the street to another hospital,” the same ER nurse said.

Similar concerns reportedly led a travel nurse at an Ascension hospital in Indiana to quit. “I just want to warn those patients that are coming to any of the Ascension facilities that there will be delays in care. There is potential for error and for harm,” Justin Neisser told CBS4 in Indianapolis in May.

Several nurses and doctors at Ascension hospitals said they feared the errors they’ve witnessed since the cyberattack began could threaten their professional licenses. “This is how a RaDonda Vaught happens,” one nurse said, referring to the Tennessee nurse who was convicted of criminally negligent homicide in 2022 for a fatal drug error.

Reporters were not able to review records to verify clinicians’ claims because of privacy laws surrounding patients’ medical information that apply to health care professionals.

Ascension declined to answer questions about claims that care has been affected by the ransomware attack. “As we have made clear throughout this cyber attack which has impacted our system and our dedicated clinical providers, caring for our patients is our highest priority,” Sean Fitzpatrick, Ascension’s vice president of external communications, said via email on June 3. “We are confident that our care providers in our hospitals and facilities continue to provide quality medical care.”

The federal government requires hospitals to protect patients’ sensitive health data, according to cybersecurity experts. However, there are no federal requirements for hospitals to prevent or prepare for cyberattacks that could compromise their electronic systems.
 

Hospitals: ‘The No.1 Target of Ransomware’

“We’ve started to think about these as public health issues and disasters on the scale of earthquakes or hurricanes,” said Jeff Tully, a co-director of the Center for Healthcare Cybersecurity at the University of California-San Diego. “These types of cybersecurity incidents should be thought of as a matter of when, and not if.”

Josh Corman, a cybersecurity expert and advocate, said ransom crews regard hospitals as the perfect prey: “They have terrible security and they’ll pay. So almost immediately, hospitals went to the No. 1 target of ransomware.”

In 2023, the health sector experienced the largest share of ransomware attacks of 16 infrastructure sectors considered vital to national security or safety, according to an FBI report on internet crimes. In March, the federal Department of Health and Human Services said reported large breaches involving ransomware had jumped by 264% over the past five years.

A cyberattack this year on Change Healthcare, a unit of UnitedHealth Group’s Optum division that processes billions of health care transactions every year, crippled the business of providers, pharmacies, and hospitals.

In May, UnitedHealth Group CEO Andrew Witty told lawmakers the company paid a $22 million ransom as a result of the Change Healthcare attack — which occurred after hackers accessed a company portal that didn’t have multifactor authentication, a basic cybersecurity tool.

The Biden administration in recent months has pushed to bolster health care cybersecurity standards, but it’s not clear which new measures will be required.

In January, HHS nudged companies to improve email security, add multifactor authentication, and institute cybersecurity training and testing, among other voluntary measures. The Centers for Medicare & Medicaid Services is expected to release new requirements for hospitals, but the scope and timing are unclear. The same is true of an update HHS is expected to make to patient privacy regulations.

HHS said the voluntary measures “will inform the creation of new enforceable cybersecurity standards,” department spokesperson Jeff Nesbit said in a statement.

“The recent cyberattack at Ascension only underscores the need for everyone in the health care ecosystem to do their part to secure their systems and protect patients,” Nesbit said.

Meanwhile, lobbyists for the hospital industry contend cybersecurity mandates or penalties are misplaced and would curtail hospitals’ resources to fend off attacks.

“Hospitals and health systems are not the primary source of cyber risk exposure facing the health care sector,” the American Hospital Association, the largest lobbying group for U.S. hospitals, said in an April statement prepared for U.S. House lawmakers. Most large data breaches that hit hospitals in 2023 originated with third-party “business associates” or other health entities, including CMS itself, the AHA statement said.

Hospitals consolidating into large multistate health systems face increased risk of data breaches and ransomware attacks, according to one study. Ascension in 2022 was the third-largest hospital chain in the U.S. by number of beds, according to the most recent data from the federal Agency for Healthcare Research and Quality.

And while cybersecurity regulations can quickly become outdated, they can at least make it clear that if health systems fail to implement basic protections there “should be consequences for that,” Jim Bagian, a former director of the National Center for Patient Safety at the Veterans Health Administration, told Michigan Public’s Stateside.

Patients can pay the price when lapses occur. Those in hospital care face a greater likelihood of death during a cyberattack, according to researchers at the University of Minnesota School of Public Health.

Workers concerned about patient safety at Ascension hospitals in Michigan have called for the company to make changes.

“We implore Ascension to recognize the internal problems that continue to plague its hospitals, both publicly and transparently,” said Dina Carlisle, a nurse and the president of the OPEIU Local 40 union, which represents nurses at Ascension Providence Rochester. At least 125 staff members at that Ascension hospital have signed a petition asking administrators to temporarily reduce elective surgeries and nonemergency patient admissions, like under the protocols many hospitals adopted early in the covid-19 pandemic.

Watson, the Kansas ICU nurse, said in late May that nurses had urged management to bring in more nurses to help manage the workflow. “Everything that we say has fallen on deaf ears,” she said.

“It is very hard to be a nurse at Ascension right now,” Watson said in late May. “It is very hard to be a patient at Ascension right now.”

If you’re a patient or worker at an Ascension hospital and would like to tell KFF Health News about your experiences, click here to share your story with us.
 

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

In the wake of a debilitating cyberattack against one of the nation’s largest health care systems, Marvin Ruckle, a nurse at an Ascension hospital in Wichita, Kansas, said he had a frightening experience: He nearly gave a baby “the wrong dose of narcotic” because of confusing paperwork.

Ruckle, who has worked in the neonatal intensive care unit at Ascension Via Christi St. Joseph for two decades, said it was “hard to decipher which was the correct dose” on the medication record. He’d “never seen that happen,” he said, “when we were on the computer system” before the cyberattack.

A May 8 ransomware attack against Ascension, a Catholic health system with 140 hospitals in at least 10 states, locked providers out of systems that track and coordinate nearly every aspect of patient care. They include its systems for electronic health records, some phones, and ones “utilized to order certain tests, procedures and medications,” the company said in a May 9 statement.

More than a dozen doctors and nurses who work for the sprawling health system told Michigan Public and KFF Health News that patient care at its hospitals across the nation was compromised in the fallout of the cyberattack over the past several weeks. Clinicians working for hospitals in three states described harrowing lapses, including delayed or lost lab results, medication errors, and an absence of routine safety checks via technology to prevent potentially fatal mistakes.

Despite a precipitous rise in cyberattacks against the health sector in recent years, a weeks-long disruption of this magnitude is beyond what most health systems are prepared for, said John S. Clark, an associate chief pharmacy officer at the University of Michigan health system.

“I don’t believe that anyone is fully prepared,” he said. Most emergency management plans “are designed around long-term downtimes that are into one, two, or three days.”

Ascension in a public statement May 9 said its care teams were “trained for these kinds of disruptions,” but did not respond to questions in early June about whether it had prepared for longer periods of downtime. Ascension said June 14 it had restored access to electronic health records across its network, but that patient “medical records and other information collected between May 8” and when the service was restored “may be temporarily inaccessible as we work to update the portal with information collected during the system downtime.”

Ruckle said he “had no training” for the cyberattack.
 

Back to Paper

Lisa Watson, an intensive care unit nurse at Ascension Via Christi St. Francis hospital in Wichita, described her own close call. She said she nearly administered the wrong medication to a critically ill patient because she couldn’t scan it as she normally would. “My patient probably would have passed away had I not caught it,” she said.

Watson is no stranger to using paper for patients’ medical charts, saying she did so “for probably half of my career,” before electronic health records became ubiquitous in hospitals. What happened after the cyberattack was “by no means the same.”

“When we paper-charted, we had systems in place to get those orders to other departments in a timely manner,” she said, “and those have all gone away.”

Melissa LaRue, an ICU nurse at Ascension Saint Agnes Hospital in Baltimore, described a close call with “administering the wrong dosage” of a patient’s blood pressure medication. “Luckily,” she said, it was “triple-checked and remedied before that could happen. But I think the potential for harm is there when you have so much information and paperwork that you have to go through.”

Clinicians say their hospitals have relied on slapdash workarounds, using handwritten notes, faxes, sticky notes, and basic computer spreadsheets — many devised on the fly by doctors and nurses — to care for patients.

More than a dozen other nurses and doctors, some of them without union protections, at Ascension hospitals in Michigan recounted situations in which they say patient care was compromised. Those clinicians spoke on the condition that they not be named for fear of retaliation by their employer.

An Ascension hospital emergency room doctor in Detroit said a man on the city’s east side was given a dangerous narcotic intended for another patient because of a paperwork mix-up. As a result, the patient’s breathing slowed to the point that he had to be put on a ventilator. “We intubated him and we sent him to the ICU because he got the wrong medication.”

A nurse in a Michigan Ascension hospital ER said a woman with low blood sugar and “altered mental status” went into cardiac arrest and died after staff said they waited four hours for lab results they needed to determine how to treat her, but never received. “If I started having crushing chest pain in the middle of work and thought I was having a big one, I would grab someone to drive me down the street to another hospital,” the same ER nurse said.

Similar concerns reportedly led a travel nurse at an Ascension hospital in Indiana to quit. “I just want to warn those patients that are coming to any of the Ascension facilities that there will be delays in care. There is potential for error and for harm,” Justin Neisser told CBS4 in Indianapolis in May.

Several nurses and doctors at Ascension hospitals said they feared the errors they’ve witnessed since the cyberattack began could threaten their professional licenses. “This is how a RaDonda Vaught happens,” one nurse said, referring to the Tennessee nurse who was convicted of criminally negligent homicide in 2022 for a fatal drug error.

Reporters were not able to review records to verify clinicians’ claims because of privacy laws surrounding patients’ medical information that apply to health care professionals.

Ascension declined to answer questions about claims that care has been affected by the ransomware attack. “As we have made clear throughout this cyber attack which has impacted our system and our dedicated clinical providers, caring for our patients is our highest priority,” Sean Fitzpatrick, Ascension’s vice president of external communications, said via email on June 3. “We are confident that our care providers in our hospitals and facilities continue to provide quality medical care.”

The federal government requires hospitals to protect patients’ sensitive health data, according to cybersecurity experts. However, there are no federal requirements for hospitals to prevent or prepare for cyberattacks that could compromise their electronic systems.
 

Hospitals: ‘The No.1 Target of Ransomware’

“We’ve started to think about these as public health issues and disasters on the scale of earthquakes or hurricanes,” said Jeff Tully, a co-director of the Center for Healthcare Cybersecurity at the University of California-San Diego. “These types of cybersecurity incidents should be thought of as a matter of when, and not if.”

Josh Corman, a cybersecurity expert and advocate, said ransom crews regard hospitals as the perfect prey: “They have terrible security and they’ll pay. So almost immediately, hospitals went to the No. 1 target of ransomware.”

In 2023, the health sector experienced the largest share of ransomware attacks of 16 infrastructure sectors considered vital to national security or safety, according to an FBI report on internet crimes. In March, the federal Department of Health and Human Services said reported large breaches involving ransomware had jumped by 264% over the past five years.

A cyberattack this year on Change Healthcare, a unit of UnitedHealth Group’s Optum division that processes billions of health care transactions every year, crippled the business of providers, pharmacies, and hospitals.

In May, UnitedHealth Group CEO Andrew Witty told lawmakers the company paid a $22 million ransom as a result of the Change Healthcare attack — which occurred after hackers accessed a company portal that didn’t have multifactor authentication, a basic cybersecurity tool.

The Biden administration in recent months has pushed to bolster health care cybersecurity standards, but it’s not clear which new measures will be required.

In January, HHS nudged companies to improve email security, add multifactor authentication, and institute cybersecurity training and testing, among other voluntary measures. The Centers for Medicare & Medicaid Services is expected to release new requirements for hospitals, but the scope and timing are unclear. The same is true of an update HHS is expected to make to patient privacy regulations.

HHS said the voluntary measures “will inform the creation of new enforceable cybersecurity standards,” department spokesperson Jeff Nesbit said in a statement.

“The recent cyberattack at Ascension only underscores the need for everyone in the health care ecosystem to do their part to secure their systems and protect patients,” Nesbit said.

Meanwhile, lobbyists for the hospital industry contend cybersecurity mandates or penalties are misplaced and would curtail hospitals’ resources to fend off attacks.

“Hospitals and health systems are not the primary source of cyber risk exposure facing the health care sector,” the American Hospital Association, the largest lobbying group for U.S. hospitals, said in an April statement prepared for U.S. House lawmakers. Most large data breaches that hit hospitals in 2023 originated with third-party “business associates” or other health entities, including CMS itself, the AHA statement said.

Hospitals consolidating into large multistate health systems face increased risk of data breaches and ransomware attacks, according to one study. Ascension in 2022 was the third-largest hospital chain in the U.S. by number of beds, according to the most recent data from the federal Agency for Healthcare Research and Quality.

And while cybersecurity regulations can quickly become outdated, they can at least make it clear that if health systems fail to implement basic protections there “should be consequences for that,” Jim Bagian, a former director of the National Center for Patient Safety at the Veterans Health Administration, told Michigan Public’s Stateside.

Patients can pay the price when lapses occur. Those in hospital care face a greater likelihood of death during a cyberattack, according to researchers at the University of Minnesota School of Public Health.

Workers concerned about patient safety at Ascension hospitals in Michigan have called for the company to make changes.

“We implore Ascension to recognize the internal problems that continue to plague its hospitals, both publicly and transparently,” said Dina Carlisle, a nurse and the president of the OPEIU Local 40 union, which represents nurses at Ascension Providence Rochester. At least 125 staff members at that Ascension hospital have signed a petition asking administrators to temporarily reduce elective surgeries and nonemergency patient admissions, like under the protocols many hospitals adopted early in the covid-19 pandemic.

Watson, the Kansas ICU nurse, said in late May that nurses had urged management to bring in more nurses to help manage the workflow. “Everything that we say has fallen on deaf ears,” she said.

“It is very hard to be a nurse at Ascension right now,” Watson said in late May. “It is very hard to be a patient at Ascension right now.”

If you’re a patient or worker at an Ascension hospital and would like to tell KFF Health News about your experiences, click here to share your story with us.
 

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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