CHEST Physician

TOPLINE:

In patients with pulmonary oligometastases from colorectal cancer (CRC), both stereotactic body radiotherapy (SBRT) and surgery led to similar overall survival rates at 5 years. However, those who received surgery had significantly better progression-free and disease-free survival rates, as well as a longer time to intrathoracic progression.
 

METHODOLOGY:

• SBRT has been shown to provide effective local control and improve short-term survival for patients with pulmonary oligometastases from CRC and has become an alternative for these patients who are ineligible or reluctant to undergo surgery. It’s unclear, however, whether SBRT should be prioritized over surgery in patients with CRC pulmonary metastases, largely because of a lack of prospective data.
• In the current analysis, researchers compared outcomes among 335 patients (median age, 61 years) with lung metastases from CRC who underwent surgery or SBRT, using data from the Peking University Cancer Hospital and Institute between March 2011 and September 2022.
• A total of 251 patients were included in the final analysis after propensity score matching, 173 (68.9%) underwent surgery and 78 (31.1%) received SBRT. The median follow-up was 61.6 months in the surgery group and 54.4 months in the SBRT group.
• The study outcomes were freedom from intrathoracic progression, progression-free survival, and overall survival.

TAKEAWAY:

• At 5 years, rates of freedom from intrathoracic progression were more than twofold higher in the surgery group than in the SBRT group (53% vs 23.4%; hazard ratio [HR], 0.46; P < .001). Progression-free survival rates were also more than twofold higher in the surgery group vs the SBRT group (43.8% vs 18.5%; HR, 0.47; P < .001), respectively. In the SBRT group, a higher percentage of patients had a disease-free interval of less than 12 months compared with the surgery group, with rates of 48.7% and 32.9%, respectively (P = 0.025). 
• Overall survival, however, was not significantly different between the two groups at 5 years (72.5% in the surgery group vs 63.7% in the SBRT group; P = .260). The number of pulmonary metastases (HR, 1.87; 95% CI, 1.11-3.14, P = .019 and tumor size (HR, 1.03; 95% CI, 1.00-1.05, P = .023) were significant prognostic factors for overall survival.
• Local recurrence was more prevalent after SBRT (33.3%) than surgery (16.9%), while new intrathoracic tumors occurred more frequently after surgery than SBRT (71.8% vs 43.1%). Repeated local treatments were common among patients with intrathoracic progression, which might have contributed to favorable survival outcomes in both groups.
• Both treatments were well-tolerated with no treatment-related mortality or grade ≥ 3 toxicities. In the surgery group, 14 patients experienced complications, including atrial fibrillation (n = 4) and prolonged air leaks (n = 7). In the SBRT group, radiation pneumonitis was the most common adverse event (n = 21).

IN PRACTICE:

SBRT yielded overall survival benefits similar to surgery despite a “higher likelihood of prior extrapulmonary metastases, a shorter disease-free interval, and a greater number of metastatic lesions,” the authors wrote. Still, SBRT should be regarded as an “effective alternative in cases in which surgical intervention is either unviable or declined by the patient,” the authors concluded.
 

SOURCE:

The study was co-led by Yaqi Wang and Xin Dong, Peking University Cancer Hospital & Institute, Beijing, China, and was published online in the International Journal of Radiation Oncology, Biology, Physics.
 

LIMITATIONS:

This single-center retrospective study had an inherent selection bias. The lack of balanced sample sizes of the surgery and SBRT groups might have affected the robustness of the statistical analyses. Detailed data on adverse events were not available.
 

DISCLOSURES:

The study was supported by grants from the National Natural Science Foundation of China, Beijing Natural Science Foundation, and Beijing Municipal Administration of Hospital’s Ascent Plan. The authors did not declare any conflicts of interest.

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

TOPLINE:

In patients with pulmonary oligometastases from colorectal cancer (CRC), both stereotactic body radiotherapy (SBRT) and surgery led to similar overall survival rates at 5 years. However, those who received surgery had significantly better progression-free and disease-free survival rates, as well as a longer time to intrathoracic progression.
 

METHODOLOGY:

• SBRT has been shown to provide effective local control and improve short-term survival for patients with pulmonary oligometastases from CRC and has become an alternative for these patients who are ineligible or reluctant to undergo surgery. It’s unclear, however, whether SBRT should be prioritized over surgery in patients with CRC pulmonary metastases, largely because of a lack of prospective data.
• In the current analysis, researchers compared outcomes among 335 patients (median age, 61 years) with lung metastases from CRC who underwent surgery or SBRT, using data from the Peking University Cancer Hospital and Institute between March 2011 and September 2022.
• A total of 251 patients were included in the final analysis after propensity score matching, 173 (68.9%) underwent surgery and 78 (31.1%) received SBRT. The median follow-up was 61.6 months in the surgery group and 54.4 months in the SBRT group.
• The study outcomes were freedom from intrathoracic progression, progression-free survival, and overall survival.

TAKEAWAY:

• At 5 years, rates of freedom from intrathoracic progression were more than twofold higher in the surgery group than in the SBRT group (53% vs 23.4%; hazard ratio [HR], 0.46; P < .001). Progression-free survival rates were also more than twofold higher in the surgery group vs the SBRT group (43.8% vs 18.5%; HR, 0.47; P < .001), respectively. In the SBRT group, a higher percentage of patients had a disease-free interval of less than 12 months compared with the surgery group, with rates of 48.7% and 32.9%, respectively (P = 0.025). 
• Overall survival, however, was not significantly different between the two groups at 5 years (72.5% in the surgery group vs 63.7% in the SBRT group; P = .260). The number of pulmonary metastases (HR, 1.87; 95% CI, 1.11-3.14, P = .019 and tumor size (HR, 1.03; 95% CI, 1.00-1.05, P = .023) were significant prognostic factors for overall survival.
• Local recurrence was more prevalent after SBRT (33.3%) than surgery (16.9%), while new intrathoracic tumors occurred more frequently after surgery than SBRT (71.8% vs 43.1%). Repeated local treatments were common among patients with intrathoracic progression, which might have contributed to favorable survival outcomes in both groups.
• Both treatments were well-tolerated with no treatment-related mortality or grade ≥ 3 toxicities. In the surgery group, 14 patients experienced complications, including atrial fibrillation (n = 4) and prolonged air leaks (n = 7). In the SBRT group, radiation pneumonitis was the most common adverse event (n = 21).

IN PRACTICE:

SBRT yielded overall survival benefits similar to surgery despite a “higher likelihood of prior extrapulmonary metastases, a shorter disease-free interval, and a greater number of metastatic lesions,” the authors wrote. Still, SBRT should be regarded as an “effective alternative in cases in which surgical intervention is either unviable or declined by the patient,” the authors concluded.
 

SOURCE:

The study was co-led by Yaqi Wang and Xin Dong, Peking University Cancer Hospital & Institute, Beijing, China, and was published online in the International Journal of Radiation Oncology, Biology, Physics.
 

LIMITATIONS:

This single-center retrospective study had an inherent selection bias. The lack of balanced sample sizes of the surgery and SBRT groups might have affected the robustness of the statistical analyses. Detailed data on adverse events were not available.
 

DISCLOSURES:

The study was supported by grants from the National Natural Science Foundation of China, Beijing Natural Science Foundation, and Beijing Municipal Administration of Hospital’s Ascent Plan. The authors did not declare any conflicts of interest.

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

TOPLINE:

In patients with pulmonary oligometastases from colorectal cancer (CRC), both stereotactic body radiotherapy (SBRT) and surgery led to similar overall survival rates at 5 years. However, those who received surgery had significantly better progression-free and disease-free survival rates, as well as a longer time to intrathoracic progression.
 

METHODOLOGY:

• SBRT has been shown to provide effective local control and improve short-term survival for patients with pulmonary oligometastases from CRC and has become an alternative for these patients who are ineligible or reluctant to undergo surgery. It’s unclear, however, whether SBRT should be prioritized over surgery in patients with CRC pulmonary metastases, largely because of a lack of prospective data.
• In the current analysis, researchers compared outcomes among 335 patients (median age, 61 years) with lung metastases from CRC who underwent surgery or SBRT, using data from the Peking University Cancer Hospital and Institute between March 2011 and September 2022.
• A total of 251 patients were included in the final analysis after propensity score matching, 173 (68.9%) underwent surgery and 78 (31.1%) received SBRT. The median follow-up was 61.6 months in the surgery group and 54.4 months in the SBRT group.
• The study outcomes were freedom from intrathoracic progression, progression-free survival, and overall survival.

TAKEAWAY:

• At 5 years, rates of freedom from intrathoracic progression were more than twofold higher in the surgery group than in the SBRT group (53% vs 23.4%; hazard ratio [HR], 0.46; P < .001). Progression-free survival rates were also more than twofold higher in the surgery group vs the SBRT group (43.8% vs 18.5%; HR, 0.47; P < .001), respectively. In the SBRT group, a higher percentage of patients had a disease-free interval of less than 12 months compared with the surgery group, with rates of 48.7% and 32.9%, respectively (P = 0.025). 
• Overall survival, however, was not significantly different between the two groups at 5 years (72.5% in the surgery group vs 63.7% in the SBRT group; P = .260). The number of pulmonary metastases (HR, 1.87; 95% CI, 1.11-3.14, P = .019 and tumor size (HR, 1.03; 95% CI, 1.00-1.05, P = .023) were significant prognostic factors for overall survival.
• Local recurrence was more prevalent after SBRT (33.3%) than surgery (16.9%), while new intrathoracic tumors occurred more frequently after surgery than SBRT (71.8% vs 43.1%). Repeated local treatments were common among patients with intrathoracic progression, which might have contributed to favorable survival outcomes in both groups.
• Both treatments were well-tolerated with no treatment-related mortality or grade ≥ 3 toxicities. In the surgery group, 14 patients experienced complications, including atrial fibrillation (n = 4) and prolonged air leaks (n = 7). In the SBRT group, radiation pneumonitis was the most common adverse event (n = 21).

IN PRACTICE:

SBRT yielded overall survival benefits similar to surgery despite a “higher likelihood of prior extrapulmonary metastases, a shorter disease-free interval, and a greater number of metastatic lesions,” the authors wrote. Still, SBRT should be regarded as an “effective alternative in cases in which surgical intervention is either unviable or declined by the patient,” the authors concluded.
 

SOURCE:

The study was co-led by Yaqi Wang and Xin Dong, Peking University Cancer Hospital & Institute, Beijing, China, and was published online in the International Journal of Radiation Oncology, Biology, Physics.
 

LIMITATIONS:

This single-center retrospective study had an inherent selection bias. The lack of balanced sample sizes of the surgery and SBRT groups might have affected the robustness of the statistical analyses. Detailed data on adverse events were not available.
 

DISCLOSURES:

The study was supported by grants from the National Natural Science Foundation of China, Beijing Natural Science Foundation, and Beijing Municipal Administration of Hospital’s Ascent Plan. The authors did not declare any conflicts of interest.

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

This transcript has been edited for clarity.

In my job, I spend 99% of my time thinking about ethical issues that arise in the care of human beings. That is the focus of our medical school, and that’s what we do. 

However, there are behaviors that are emerging with respect to pets that bear on human health and require the attention of doctors and nurses who deal with people who are pet owners.

Recently, there has been a great increase in the number of pet owners who are saying, “I’m not going to vaccinate my pets.” As horrible as this sounds, what’s happening is vaccine hesitancy about vaccines used in humans is extending through some people to their pets. 

The number of people who say they don’t trust things like rabies vaccine to be effective or safe for their pet animals is 40%, at least in surveys, and the American Veterinary Medical Association reports that 15%-18% of pet owners are not, in fact, vaccinating their pets against rabies.

Rabies, as I hope everybody knows, is one horrible disease. Even the treatment of it, should you get bitten by a rabid animal, is no fun, expensive, and hopefully something that can be administered quickly. It’s not always the case. Worldwide, at least 70,000 people die from rabies every year.

Obviously, there are many countries that are so terrified of rabies, they won’t let you bring pets in without quarantining them, say, England, for at least 6 months to a year, I believe, because they don’t want rabies getting into their country. They’re very strict about the movement of pets.

It is inexcusable for people, first, not to give their pets vaccines that prevent them getting distemper, parvovirus, or many other diseases that harm the pet. It’s also inexcusable to shorten your pet’s life or ask your patients to care for pets who get sick from many of these diseases that are vaccine preventable.

Worst of all, it’s inexcusable for any pet owner not to give a rabies vaccine to their pets. Were it up to me, I’d say you have to license your pet, and as part of that, you must mandate rabies vaccines for your dogs, cats, and other pets. 

We know what happens when people encounter wild animals like raccoons and rabbits. It is not a good situation. Your pets can easily encounter a rabid animal and then put themselves in a position where they can harm their human owners. 

We have an efficacious, safe treatment. If you’re dealing with someone, it might make sense to ask them, “Do you own a pet? Are you vaccinating?” It may not be something you’d ever thought about, but what we don’t need is rabies back in a bigger way in the United States than it’s been in the past.

I think, as a matter of prudence and public health, maybe firing up that question, “Got a pet in the house and are you vaccinating,” could be part of taking a good history.

 

Dr. Caplan is director of the division of medical ethics at New York University Langone Medical Center, New York City. He disclosed conflicts of interest with Johnson & Johnson and Medscape.

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

This transcript has been edited for clarity.

In my job, I spend 99% of my time thinking about ethical issues that arise in the care of human beings. That is the focus of our medical school, and that’s what we do. 

However, there are behaviors that are emerging with respect to pets that bear on human health and require the attention of doctors and nurses who deal with people who are pet owners.

Recently, there has been a great increase in the number of pet owners who are saying, “I’m not going to vaccinate my pets.” As horrible as this sounds, what’s happening is vaccine hesitancy about vaccines used in humans is extending through some people to their pets. 

The number of people who say they don’t trust things like rabies vaccine to be effective or safe for their pet animals is 40%, at least in surveys, and the American Veterinary Medical Association reports that 15%-18% of pet owners are not, in fact, vaccinating their pets against rabies.

Rabies, as I hope everybody knows, is one horrible disease. Even the treatment of it, should you get bitten by a rabid animal, is no fun, expensive, and hopefully something that can be administered quickly. It’s not always the case. Worldwide, at least 70,000 people die from rabies every year.

Obviously, there are many countries that are so terrified of rabies, they won’t let you bring pets in without quarantining them, say, England, for at least 6 months to a year, I believe, because they don’t want rabies getting into their country. They’re very strict about the movement of pets.

It is inexcusable for people, first, not to give their pets vaccines that prevent them getting distemper, parvovirus, or many other diseases that harm the pet. It’s also inexcusable to shorten your pet’s life or ask your patients to care for pets who get sick from many of these diseases that are vaccine preventable.

Worst of all, it’s inexcusable for any pet owner not to give a rabies vaccine to their pets. Were it up to me, I’d say you have to license your pet, and as part of that, you must mandate rabies vaccines for your dogs, cats, and other pets. 

We know what happens when people encounter wild animals like raccoons and rabbits. It is not a good situation. Your pets can easily encounter a rabid animal and then put themselves in a position where they can harm their human owners. 

We have an efficacious, safe treatment. If you’re dealing with someone, it might make sense to ask them, “Do you own a pet? Are you vaccinating?” It may not be something you’d ever thought about, but what we don’t need is rabies back in a bigger way in the United States than it’s been in the past.

I think, as a matter of prudence and public health, maybe firing up that question, “Got a pet in the house and are you vaccinating,” could be part of taking a good history.

 

Dr. Caplan is director of the division of medical ethics at New York University Langone Medical Center, New York City. He disclosed conflicts of interest with Johnson & Johnson and Medscape.

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

This transcript has been edited for clarity.

In my job, I spend 99% of my time thinking about ethical issues that arise in the care of human beings. That is the focus of our medical school, and that’s what we do. 

However, there are behaviors that are emerging with respect to pets that bear on human health and require the attention of doctors and nurses who deal with people who are pet owners.

Recently, there has been a great increase in the number of pet owners who are saying, “I’m not going to vaccinate my pets.” As horrible as this sounds, what’s happening is vaccine hesitancy about vaccines used in humans is extending through some people to their pets. 

The number of people who say they don’t trust things like rabies vaccine to be effective or safe for their pet animals is 40%, at least in surveys, and the American Veterinary Medical Association reports that 15%-18% of pet owners are not, in fact, vaccinating their pets against rabies.

Rabies, as I hope everybody knows, is one horrible disease. Even the treatment of it, should you get bitten by a rabid animal, is no fun, expensive, and hopefully something that can be administered quickly. It’s not always the case. Worldwide, at least 70,000 people die from rabies every year.

Obviously, there are many countries that are so terrified of rabies, they won’t let you bring pets in without quarantining them, say, England, for at least 6 months to a year, I believe, because they don’t want rabies getting into their country. They’re very strict about the movement of pets.

It is inexcusable for people, first, not to give their pets vaccines that prevent them getting distemper, parvovirus, or many other diseases that harm the pet. It’s also inexcusable to shorten your pet’s life or ask your patients to care for pets who get sick from many of these diseases that are vaccine preventable.

Worst of all, it’s inexcusable for any pet owner not to give a rabies vaccine to their pets. Were it up to me, I’d say you have to license your pet, and as part of that, you must mandate rabies vaccines for your dogs, cats, and other pets. 

We know what happens when people encounter wild animals like raccoons and rabbits. It is not a good situation. Your pets can easily encounter a rabid animal and then put themselves in a position where they can harm their human owners. 

We have an efficacious, safe treatment. If you’re dealing with someone, it might make sense to ask them, “Do you own a pet? Are you vaccinating?” It may not be something you’d ever thought about, but what we don’t need is rabies back in a bigger way in the United States than it’s been in the past.

I think, as a matter of prudence and public health, maybe firing up that question, “Got a pet in the house and are you vaccinating,” could be part of taking a good history.

 

Dr. Caplan is director of the division of medical ethics at New York University Langone Medical Center, New York City. He disclosed conflicts of interest with Johnson & Johnson and Medscape.

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

A medical student’s life is an endless cycle of classes, exams, clinical rotations, and residency preparation. While students typically have little free time, some still manage to build a mega social media presence. On TikTok and Instagram, among other sites, they share medical school experiences and lessons learned in the classroom and advocate for causes such as increased diversity and gender rights in the medical field.

This news organization caught up with a few social media influencers with a large online following to learn how medical students can effectively use social media to build a professional brand and network. Most of the students interviewed said that their social media platforms offered an opportunity to educate others about significant medical developments, feel part of a community with a like-minded audience, and network with doctors who may lead them to a future residency or career path.

Many med students said that they built their large audiences by creating a platform for people of their ethnic background, nationality, race, gender, or simply what others weren’t already talking about. They said they saw a niche in social media that was missing or others hadn’t tackled in the same way.

When Joel Bervell began med school in 2020, he questioned some of the lessons he learned about how race is used in medical practice, which didn’t make sense to him. So, he began his own research. He had about 2000 followers on Instagram at the time.

Mr. Bervell read a new study about pulse oximeters and how they often produce misleading readings on patients with dark skin.

He wondered why he hadn’t learned this in medical school, so he posted it on TikTok. Within 24 hours, about 500,000 people viewed it. Most of the comments were from doctors, nurses, and physician assistants who said they weren’t aware of the disparity.

While his initial posts detailed his journey to medical school and a day-in-the-life of a medical student, he transitioned to posts primarily about race, health equity, and what he perceives as racial bias in medicine.

Now, the fourth-year Ghanaian-American student at the Elson S. Floyd College of Medicine at Washington State University Spokane has close to 1.2 million followers on Instagram and TikTok combined. He frequently visits the White House to advise on social media’s influence on healthcare and has appeared on the Kelly Clarkson Show, Good Morning America, CNN, and ABC, among others.

He said he also uses social media to translate complex medical information for a general audience, many of whom access health information online so they can manage their own healthcare. He sees his social media work as an extension of his medical education, allowing him to delve deeper into subjects and report on them as if he were publishing research in a medical journal.

“When I came to medical school, yes, I wanted to be a doctor. But I also wanted to impact people.” Social media allows him to educate many more people than individual patients, the 29-year-old told this news organization.
 

Inspiring Minorities

Tabhata Paulet, 27, started her TikTok presence as a premed student in 2021. She aimed to provide free resources to help low-income, first-generation Latinx students like herself study for standardized exams.

“I always looked online for guidance and resources, and the medical influencers did not share a similar background. So, I shared my story and what I had to do as a first-generation and first person in my family to become a physician. I did not have access to the same resources as my peers,” said Ms. Paulet, who was born in Peru and came to New Jersey as a child.

Students who are Hispanic, Latinx, or of Spanish origin made up 6.8% of total medical school enrollment in 2023-2024, up slightly from 6.7% in 2022-2023, according to the Association of American Medical Colleges (AAMC).

Ms. Paulet’s online presence grew when she began documenting her experiences as a first-year medical student, bridging the language barrier for Spanish-speaking patients so they could understand their diagnosis and treatment. She often posts about health disparity and barriers to care for underserved communities.

Most of her nearly 22,000 followers are Hispanic, said the now fourth-year student at Rutgers New Jersey Medical School in Newark, New Jersey. “I talk a lot about my interesting Spanish-speaking patients ... and how sometimes speaking their native language truly makes a difference in their care.”

She believes that she serves an important role in social media. “It can be very inspirational for those who come after you [in med school] to see someone from a similar culture and upbringing.”
 

Creating a Community

It was during a therapy session 4 years ago that Jeremy “JP” Scott decided to share Instagram posts about his experiences as a nontraditional medical student. The 37-year-old was studying at Ross University School of Medicine in Barbados and was feeling lonely as an international medical student training to be a doctor as a second career.

Before starting med school, Mr. Scott was an adjunct professor and lab supervisor at the University of Hartford Biology Department, West Hartford, Connecticut, and then a research assistant and lab manager at the Wistar Institute in Philadelphia.

Although he wanted to follow his mother’s path to becoming a doctor, it was more difficult than he envisioned, said the fourth-year student who completed clinical rotations in the United States and is now applying for residencies.

“I talked about how medical school is not what it appears to be ... There are a lot of challenges we are going through,” especially as people of color, he said.

Mr. Scott believes social media helps people feel included and less alone. He said many of his followers are med students and physicians.

His posts often focus on LGBTQIA+ pride and being a minority as a Black man in medicine.

“The pandemic spurred a lot of us. We had a racial reckoning in our country at the time. It inspired us to talk as Black creators and Black medical students.”

Black or African American medical students made up 8.5% of total med school enrollment in 2023-2024, a slight increase from 2022 to 2023, according to AAMC figures. Black men represented 7% of total enrollment in 2023-2024, while Black women represented 9.8%.

After only a handful of online posts in which Mr. Scott candidly discussed his mental health struggles and relationships, he attracted the attention of several medical apparel companies, including the popular FIGS scrubs. He’s now an ambassador for the company, which supports him and his content.

“My association with FIGS has helped attract a wider online audience, increasing my presence.” Today, he has 14,000 Instagram followers. “It opened up so many opportunities,” Mr. Scott said. One example is working with the national LGBTQIA+ community.

“The goal was never to be a social media influencer, to gain sponsorships or photo opportunities,” he said.

“My job, first, is as a medical student. Everything else is second. I am not trying to be a professional social media personality. I’m trying to be an actual physician.” He also tries to separate JP “social media” from Jeremy, the medical student.

“On Instagram, anyone can pull it up and see what you’re doing. The last thing I want is for them to think that I’m not serious about what I’m doing, that I’m not here to learn and become a doctor.”
 

Benefits and Drawbacks

Ms. Paulet said her social media following helped her connect with leaders in the Latinx medical community, including an obstetrics anesthesiologist, her intended specialty. “I don’t think I’d be able to do that without a social media platform.”

Her online activity also propelled her from regional to national leadership in the Latino Medical Student Association (LMSA). She now also runs their Instagram page, which has 14,000 followers.

Mr. Bervell believes social media is a great way to network. He’s connected with people he wouldn’t have met otherwise, including physicians. “I think it will help me get into a residency,” he said. “It allows people to know who you are ... They will be able to tell in a few videos the type of doctor I want to be.”

On the other hand, Mr. Bervell is aware of the negative impacts of social media on mental health. “You can get lost in social media.” For that reason, he often tries to disconnect. “I can go days without my phone.”

Posting on social media can be time-consuming, Mr. Bervell admitted. He said he spent about 2 hours a day researching, editing, and posting on TikTok when he first started building his following. Now, he spends about 2-3 hours a week creating videos. “I don’t post every day anymore. I don’t have the time.”

When she started building her TikTok presence, Ms. Paulet said she devoted 15 hours a week to the endeavor, but now she spends 10-12 hours a week posting online, including on LMSA’s Instagram page. “Whenever you are done with an exam or have a study break, this is something fun to do.” She also says you never know who you’re going to inspire when you put yourself out there.

“Talk about your journey, rotations, or your experience in your first or second year of medical school. Talk about milestones like board exams.”
 

Word to the Wise

Some students may be concerned that their posts might affect a potential residency program. But the medical students interviewed say they want to find programs that align with their values and accept them for who they are.

Mr. Scott said he’s not worried about someone not liking him because of who he is. “I am Black and openly gay. If it’s a problem, I don’t need to work with you or your institution.”

Mr. Bervell stressed that medical students should stay professional online. “I reach 5-10 million people a month, and I have to think: Would I want them to see this? You have to know at all times that someone is watching. I’m very careful about how I post. I script out every video.”

Mr. Scott agreed. He advises those interested in becoming medical influencers to know what they can’t post online. For example, to ensure safety and privacy, Mr. Scott doesn’t take photos in the hospital, show his medical badge, or post patient information. “You want to be respectful of your future medical profession,” he said.

“If it’s something my mother would be ashamed of, I don’t need to post about it.”
 

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

A medical student’s life is an endless cycle of classes, exams, clinical rotations, and residency preparation. While students typically have little free time, some still manage to build a mega social media presence. On TikTok and Instagram, among other sites, they share medical school experiences and lessons learned in the classroom and advocate for causes such as increased diversity and gender rights in the medical field.

This news organization caught up with a few social media influencers with a large online following to learn how medical students can effectively use social media to build a professional brand and network. Most of the students interviewed said that their social media platforms offered an opportunity to educate others about significant medical developments, feel part of a community with a like-minded audience, and network with doctors who may lead them to a future residency or career path.

Many med students said that they built their large audiences by creating a platform for people of their ethnic background, nationality, race, gender, or simply what others weren’t already talking about. They said they saw a niche in social media that was missing or others hadn’t tackled in the same way.

When Joel Bervell began med school in 2020, he questioned some of the lessons he learned about how race is used in medical practice, which didn’t make sense to him. So, he began his own research. He had about 2000 followers on Instagram at the time.

Mr. Bervell read a new study about pulse oximeters and how they often produce misleading readings on patients with dark skin.

He wondered why he hadn’t learned this in medical school, so he posted it on TikTok. Within 24 hours, about 500,000 people viewed it. Most of the comments were from doctors, nurses, and physician assistants who said they weren’t aware of the disparity.

While his initial posts detailed his journey to medical school and a day-in-the-life of a medical student, he transitioned to posts primarily about race, health equity, and what he perceives as racial bias in medicine.

Now, the fourth-year Ghanaian-American student at the Elson S. Floyd College of Medicine at Washington State University Spokane has close to 1.2 million followers on Instagram and TikTok combined. He frequently visits the White House to advise on social media’s influence on healthcare and has appeared on the Kelly Clarkson Show, Good Morning America, CNN, and ABC, among others.

He said he also uses social media to translate complex medical information for a general audience, many of whom access health information online so they can manage their own healthcare. He sees his social media work as an extension of his medical education, allowing him to delve deeper into subjects and report on them as if he were publishing research in a medical journal.

“When I came to medical school, yes, I wanted to be a doctor. But I also wanted to impact people.” Social media allows him to educate many more people than individual patients, the 29-year-old told this news organization.
 

Inspiring Minorities

Tabhata Paulet, 27, started her TikTok presence as a premed student in 2021. She aimed to provide free resources to help low-income, first-generation Latinx students like herself study for standardized exams.

“I always looked online for guidance and resources, and the medical influencers did not share a similar background. So, I shared my story and what I had to do as a first-generation and first person in my family to become a physician. I did not have access to the same resources as my peers,” said Ms. Paulet, who was born in Peru and came to New Jersey as a child.

Students who are Hispanic, Latinx, or of Spanish origin made up 6.8% of total medical school enrollment in 2023-2024, up slightly from 6.7% in 2022-2023, according to the Association of American Medical Colleges (AAMC).

Ms. Paulet’s online presence grew when she began documenting her experiences as a first-year medical student, bridging the language barrier for Spanish-speaking patients so they could understand their diagnosis and treatment. She often posts about health disparity and barriers to care for underserved communities.

Most of her nearly 22,000 followers are Hispanic, said the now fourth-year student at Rutgers New Jersey Medical School in Newark, New Jersey. “I talk a lot about my interesting Spanish-speaking patients ... and how sometimes speaking their native language truly makes a difference in their care.”

She believes that she serves an important role in social media. “It can be very inspirational for those who come after you [in med school] to see someone from a similar culture and upbringing.”
 

Creating a Community

It was during a therapy session 4 years ago that Jeremy “JP” Scott decided to share Instagram posts about his experiences as a nontraditional medical student. The 37-year-old was studying at Ross University School of Medicine in Barbados and was feeling lonely as an international medical student training to be a doctor as a second career.

Before starting med school, Mr. Scott was an adjunct professor and lab supervisor at the University of Hartford Biology Department, West Hartford, Connecticut, and then a research assistant and lab manager at the Wistar Institute in Philadelphia.

Although he wanted to follow his mother’s path to becoming a doctor, it was more difficult than he envisioned, said the fourth-year student who completed clinical rotations in the United States and is now applying for residencies.

“I talked about how medical school is not what it appears to be ... There are a lot of challenges we are going through,” especially as people of color, he said.

Mr. Scott believes social media helps people feel included and less alone. He said many of his followers are med students and physicians.

His posts often focus on LGBTQIA+ pride and being a minority as a Black man in medicine.

“The pandemic spurred a lot of us. We had a racial reckoning in our country at the time. It inspired us to talk as Black creators and Black medical students.”

Black or African American medical students made up 8.5% of total med school enrollment in 2023-2024, a slight increase from 2022 to 2023, according to AAMC figures. Black men represented 7% of total enrollment in 2023-2024, while Black women represented 9.8%.

After only a handful of online posts in which Mr. Scott candidly discussed his mental health struggles and relationships, he attracted the attention of several medical apparel companies, including the popular FIGS scrubs. He’s now an ambassador for the company, which supports him and his content.

“My association with FIGS has helped attract a wider online audience, increasing my presence.” Today, he has 14,000 Instagram followers. “It opened up so many opportunities,” Mr. Scott said. One example is working with the national LGBTQIA+ community.

“The goal was never to be a social media influencer, to gain sponsorships or photo opportunities,” he said.

“My job, first, is as a medical student. Everything else is second. I am not trying to be a professional social media personality. I’m trying to be an actual physician.” He also tries to separate JP “social media” from Jeremy, the medical student.

“On Instagram, anyone can pull it up and see what you’re doing. The last thing I want is for them to think that I’m not serious about what I’m doing, that I’m not here to learn and become a doctor.”
 

Benefits and Drawbacks

Ms. Paulet said her social media following helped her connect with leaders in the Latinx medical community, including an obstetrics anesthesiologist, her intended specialty. “I don’t think I’d be able to do that without a social media platform.”

Her online activity also propelled her from regional to national leadership in the Latino Medical Student Association (LMSA). She now also runs their Instagram page, which has 14,000 followers.

Mr. Bervell believes social media is a great way to network. He’s connected with people he wouldn’t have met otherwise, including physicians. “I think it will help me get into a residency,” he said. “It allows people to know who you are ... They will be able to tell in a few videos the type of doctor I want to be.”

On the other hand, Mr. Bervell is aware of the negative impacts of social media on mental health. “You can get lost in social media.” For that reason, he often tries to disconnect. “I can go days without my phone.”

Posting on social media can be time-consuming, Mr. Bervell admitted. He said he spent about 2 hours a day researching, editing, and posting on TikTok when he first started building his following. Now, he spends about 2-3 hours a week creating videos. “I don’t post every day anymore. I don’t have the time.”

When she started building her TikTok presence, Ms. Paulet said she devoted 15 hours a week to the endeavor, but now she spends 10-12 hours a week posting online, including on LMSA’s Instagram page. “Whenever you are done with an exam or have a study break, this is something fun to do.” She also says you never know who you’re going to inspire when you put yourself out there.

“Talk about your journey, rotations, or your experience in your first or second year of medical school. Talk about milestones like board exams.”
 

Word to the Wise

Some students may be concerned that their posts might affect a potential residency program. But the medical students interviewed say they want to find programs that align with their values and accept them for who they are.

Mr. Scott said he’s not worried about someone not liking him because of who he is. “I am Black and openly gay. If it’s a problem, I don’t need to work with you or your institution.”

Mr. Bervell stressed that medical students should stay professional online. “I reach 5-10 million people a month, and I have to think: Would I want them to see this? You have to know at all times that someone is watching. I’m very careful about how I post. I script out every video.”

Mr. Scott agreed. He advises those interested in becoming medical influencers to know what they can’t post online. For example, to ensure safety and privacy, Mr. Scott doesn’t take photos in the hospital, show his medical badge, or post patient information. “You want to be respectful of your future medical profession,” he said.

“If it’s something my mother would be ashamed of, I don’t need to post about it.”
 

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

A medical student’s life is an endless cycle of classes, exams, clinical rotations, and residency preparation. While students typically have little free time, some still manage to build a mega social media presence. On TikTok and Instagram, among other sites, they share medical school experiences and lessons learned in the classroom and advocate for causes such as increased diversity and gender rights in the medical field.

This news organization caught up with a few social media influencers with a large online following to learn how medical students can effectively use social media to build a professional brand and network. Most of the students interviewed said that their social media platforms offered an opportunity to educate others about significant medical developments, feel part of a community with a like-minded audience, and network with doctors who may lead them to a future residency or career path.

Many med students said that they built their large audiences by creating a platform for people of their ethnic background, nationality, race, gender, or simply what others weren’t already talking about. They said they saw a niche in social media that was missing or others hadn’t tackled in the same way.

When Joel Bervell began med school in 2020, he questioned some of the lessons he learned about how race is used in medical practice, which didn’t make sense to him. So, he began his own research. He had about 2000 followers on Instagram at the time.

Mr. Bervell read a new study about pulse oximeters and how they often produce misleading readings on patients with dark skin.

He wondered why he hadn’t learned this in medical school, so he posted it on TikTok. Within 24 hours, about 500,000 people viewed it. Most of the comments were from doctors, nurses, and physician assistants who said they weren’t aware of the disparity.

While his initial posts detailed his journey to medical school and a day-in-the-life of a medical student, he transitioned to posts primarily about race, health equity, and what he perceives as racial bias in medicine.

Now, the fourth-year Ghanaian-American student at the Elson S. Floyd College of Medicine at Washington State University Spokane has close to 1.2 million followers on Instagram and TikTok combined. He frequently visits the White House to advise on social media’s influence on healthcare and has appeared on the Kelly Clarkson Show, Good Morning America, CNN, and ABC, among others.

He said he also uses social media to translate complex medical information for a general audience, many of whom access health information online so they can manage their own healthcare. He sees his social media work as an extension of his medical education, allowing him to delve deeper into subjects and report on them as if he were publishing research in a medical journal.

“When I came to medical school, yes, I wanted to be a doctor. But I also wanted to impact people.” Social media allows him to educate many more people than individual patients, the 29-year-old told this news organization.
 

Inspiring Minorities

Tabhata Paulet, 27, started her TikTok presence as a premed student in 2021. She aimed to provide free resources to help low-income, first-generation Latinx students like herself study for standardized exams.

“I always looked online for guidance and resources, and the medical influencers did not share a similar background. So, I shared my story and what I had to do as a first-generation and first person in my family to become a physician. I did not have access to the same resources as my peers,” said Ms. Paulet, who was born in Peru and came to New Jersey as a child.

Students who are Hispanic, Latinx, or of Spanish origin made up 6.8% of total medical school enrollment in 2023-2024, up slightly from 6.7% in 2022-2023, according to the Association of American Medical Colleges (AAMC).

Ms. Paulet’s online presence grew when she began documenting her experiences as a first-year medical student, bridging the language barrier for Spanish-speaking patients so they could understand their diagnosis and treatment. She often posts about health disparity and barriers to care for underserved communities.

Most of her nearly 22,000 followers are Hispanic, said the now fourth-year student at Rutgers New Jersey Medical School in Newark, New Jersey. “I talk a lot about my interesting Spanish-speaking patients ... and how sometimes speaking their native language truly makes a difference in their care.”

She believes that she serves an important role in social media. “It can be very inspirational for those who come after you [in med school] to see someone from a similar culture and upbringing.”
 

Creating a Community

It was during a therapy session 4 years ago that Jeremy “JP” Scott decided to share Instagram posts about his experiences as a nontraditional medical student. The 37-year-old was studying at Ross University School of Medicine in Barbados and was feeling lonely as an international medical student training to be a doctor as a second career.

Before starting med school, Mr. Scott was an adjunct professor and lab supervisor at the University of Hartford Biology Department, West Hartford, Connecticut, and then a research assistant and lab manager at the Wistar Institute in Philadelphia.

Although he wanted to follow his mother’s path to becoming a doctor, it was more difficult than he envisioned, said the fourth-year student who completed clinical rotations in the United States and is now applying for residencies.

“I talked about how medical school is not what it appears to be ... There are a lot of challenges we are going through,” especially as people of color, he said.

Mr. Scott believes social media helps people feel included and less alone. He said many of his followers are med students and physicians.

His posts often focus on LGBTQIA+ pride and being a minority as a Black man in medicine.

“The pandemic spurred a lot of us. We had a racial reckoning in our country at the time. It inspired us to talk as Black creators and Black medical students.”

Black or African American medical students made up 8.5% of total med school enrollment in 2023-2024, a slight increase from 2022 to 2023, according to AAMC figures. Black men represented 7% of total enrollment in 2023-2024, while Black women represented 9.8%.

After only a handful of online posts in which Mr. Scott candidly discussed his mental health struggles and relationships, he attracted the attention of several medical apparel companies, including the popular FIGS scrubs. He’s now an ambassador for the company, which supports him and his content.

“My association with FIGS has helped attract a wider online audience, increasing my presence.” Today, he has 14,000 Instagram followers. “It opened up so many opportunities,” Mr. Scott said. One example is working with the national LGBTQIA+ community.

“The goal was never to be a social media influencer, to gain sponsorships or photo opportunities,” he said.

“My job, first, is as a medical student. Everything else is second. I am not trying to be a professional social media personality. I’m trying to be an actual physician.” He also tries to separate JP “social media” from Jeremy, the medical student.

“On Instagram, anyone can pull it up and see what you’re doing. The last thing I want is for them to think that I’m not serious about what I’m doing, that I’m not here to learn and become a doctor.”
 

Benefits and Drawbacks

Ms. Paulet said her social media following helped her connect with leaders in the Latinx medical community, including an obstetrics anesthesiologist, her intended specialty. “I don’t think I’d be able to do that without a social media platform.”

Her online activity also propelled her from regional to national leadership in the Latino Medical Student Association (LMSA). She now also runs their Instagram page, which has 14,000 followers.

Mr. Bervell believes social media is a great way to network. He’s connected with people he wouldn’t have met otherwise, including physicians. “I think it will help me get into a residency,” he said. “It allows people to know who you are ... They will be able to tell in a few videos the type of doctor I want to be.”

On the other hand, Mr. Bervell is aware of the negative impacts of social media on mental health. “You can get lost in social media.” For that reason, he often tries to disconnect. “I can go days without my phone.”

Posting on social media can be time-consuming, Mr. Bervell admitted. He said he spent about 2 hours a day researching, editing, and posting on TikTok when he first started building his following. Now, he spends about 2-3 hours a week creating videos. “I don’t post every day anymore. I don’t have the time.”

When she started building her TikTok presence, Ms. Paulet said she devoted 15 hours a week to the endeavor, but now she spends 10-12 hours a week posting online, including on LMSA’s Instagram page. “Whenever you are done with an exam or have a study break, this is something fun to do.” She also says you never know who you’re going to inspire when you put yourself out there.

“Talk about your journey, rotations, or your experience in your first or second year of medical school. Talk about milestones like board exams.”
 

Word to the Wise

Some students may be concerned that their posts might affect a potential residency program. But the medical students interviewed say they want to find programs that align with their values and accept them for who they are.

Mr. Scott said he’s not worried about someone not liking him because of who he is. “I am Black and openly gay. If it’s a problem, I don’t need to work with you or your institution.”

Mr. Bervell stressed that medical students should stay professional online. “I reach 5-10 million people a month, and I have to think: Would I want them to see this? You have to know at all times that someone is watching. I’m very careful about how I post. I script out every video.”

Mr. Scott agreed. He advises those interested in becoming medical influencers to know what they can’t post online. For example, to ensure safety and privacy, Mr. Scott doesn’t take photos in the hospital, show his medical badge, or post patient information. “You want to be respectful of your future medical profession,” he said.

“If it’s something my mother would be ashamed of, I don’t need to post about it.”
 

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

A single night of sleep deprivation had a significant impact on human blood serum, based on new data from an analysis of nearly 500 proteins. Compromised sleep has demonstrated negative effects on cardiovascular, immune, and neuronal systems, and previous studies have shown human serum proteome changes after a simulation of night shift work, wrote Alvhild Alette Bjørkum, MD, of Western Norway University of Applied Sciences, Bergen, and colleagues.

In a pilot study published in Sleep Advances, the researchers recruited eight healthy adult women aged 22-57 years with no history of neurologic or psychiatric problems to participate in a study of the effect of compromised sleep on protein profiles, with implications for effects on cells, tissues, and organ systems. Each of the participants served as their own controls, and blood samples were taken after 6 hours of sleep at night, and again after 6 hours of sleep deprivation the following night.

The researchers identified analyzed 494 proteins using mass spectrometry. Of these, 66 were differentially expressed after 6 hours of sleep deprivation. The top enriched biologic processes of these significantly changed proteins were protein activation cascade, platelet degranulation, blood coagulation, and hemostasis.

Further analysis using gene ontology showed changes in response to sleep deprivation in biologic process, molecular function, and immune system process categories, including specific associations related to wound healing, cholesterol transport, high-density lipoprotein particle receptor binding, and granulocyte chemotaxis.

The findings were limited by several factors including the small sample size, inclusion only of adult females, and the use of data from only 1 night of sleep deprivation, the researchers noted. However, the results support previous studies showing a negative impact of sleep deprivation on biologic functions, they said.

“Our study was able to reveal another set of human serum proteins that were altered by sleep deprivation and could connect similar biological processes to sleep deprivation that have been identified before with slightly different methods,” the researchers concluded. The study findings add to the knowledge base for the protein profiling of sleep deprivation, which may inform the development of tools to manage lack of sleep and mistimed sleep, particularly in shift workers.
 

Too Soon for Clinical Implications

“The adverse impact of poor sleep across many organ systems is gaining recognition, but the mechanisms underlying sleep-related pathology are not well understood,” Evan L. Brittain, MD, of Vanderbilt University, Nashville, Tennessee, said in an interview. “Studies like this begin to shed light on the mechanisms by which poor or reduced sleep affects specific bodily functions,” added Dr. Brittain, who was not involved in the study.

“The effects of other acute physiologic stressor such as exercise on the circulating proteome are well described. In that regard, it is not surprising that a brief episode of sleep deprivation would lead to detectable changes in the circulation,” Dr. Brittain said.

However, the specific changes reported in this study are difficult to interpret because of methodological and analytical concerns, particularly the small sample size, lack of an external validation cohort, and absence of appropriate statistical adjustments in the results, Dr. Brittain noted. These limitations prevent consideration of clinical implications without further study.

The study received no outside funding. Neither the researchers nor Dr. Brittain disclosed any conflicts of interest.

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

A single night of sleep deprivation had a significant impact on human blood serum, based on new data from an analysis of nearly 500 proteins. Compromised sleep has demonstrated negative effects on cardiovascular, immune, and neuronal systems, and previous studies have shown human serum proteome changes after a simulation of night shift work, wrote Alvhild Alette Bjørkum, MD, of Western Norway University of Applied Sciences, Bergen, and colleagues.

In a pilot study published in Sleep Advances, the researchers recruited eight healthy adult women aged 22-57 years with no history of neurologic or psychiatric problems to participate in a study of the effect of compromised sleep on protein profiles, with implications for effects on cells, tissues, and organ systems. Each of the participants served as their own controls, and blood samples were taken after 6 hours of sleep at night, and again after 6 hours of sleep deprivation the following night.

The researchers identified analyzed 494 proteins using mass spectrometry. Of these, 66 were differentially expressed after 6 hours of sleep deprivation. The top enriched biologic processes of these significantly changed proteins were protein activation cascade, platelet degranulation, blood coagulation, and hemostasis.

Further analysis using gene ontology showed changes in response to sleep deprivation in biologic process, molecular function, and immune system process categories, including specific associations related to wound healing, cholesterol transport, high-density lipoprotein particle receptor binding, and granulocyte chemotaxis.

The findings were limited by several factors including the small sample size, inclusion only of adult females, and the use of data from only 1 night of sleep deprivation, the researchers noted. However, the results support previous studies showing a negative impact of sleep deprivation on biologic functions, they said.

“Our study was able to reveal another set of human serum proteins that were altered by sleep deprivation and could connect similar biological processes to sleep deprivation that have been identified before with slightly different methods,” the researchers concluded. The study findings add to the knowledge base for the protein profiling of sleep deprivation, which may inform the development of tools to manage lack of sleep and mistimed sleep, particularly in shift workers.
 

Too Soon for Clinical Implications

“The adverse impact of poor sleep across many organ systems is gaining recognition, but the mechanisms underlying sleep-related pathology are not well understood,” Evan L. Brittain, MD, of Vanderbilt University, Nashville, Tennessee, said in an interview. “Studies like this begin to shed light on the mechanisms by which poor or reduced sleep affects specific bodily functions,” added Dr. Brittain, who was not involved in the study.

“The effects of other acute physiologic stressor such as exercise on the circulating proteome are well described. In that regard, it is not surprising that a brief episode of sleep deprivation would lead to detectable changes in the circulation,” Dr. Brittain said.

However, the specific changes reported in this study are difficult to interpret because of methodological and analytical concerns, particularly the small sample size, lack of an external validation cohort, and absence of appropriate statistical adjustments in the results, Dr. Brittain noted. These limitations prevent consideration of clinical implications without further study.

The study received no outside funding. Neither the researchers nor Dr. Brittain disclosed any conflicts of interest.

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

A single night of sleep deprivation had a significant impact on human blood serum, based on new data from an analysis of nearly 500 proteins. Compromised sleep has demonstrated negative effects on cardiovascular, immune, and neuronal systems, and previous studies have shown human serum proteome changes after a simulation of night shift work, wrote Alvhild Alette Bjørkum, MD, of Western Norway University of Applied Sciences, Bergen, and colleagues.

In a pilot study published in Sleep Advances, the researchers recruited eight healthy adult women aged 22-57 years with no history of neurologic or psychiatric problems to participate in a study of the effect of compromised sleep on protein profiles, with implications for effects on cells, tissues, and organ systems. Each of the participants served as their own controls, and blood samples were taken after 6 hours of sleep at night, and again after 6 hours of sleep deprivation the following night.

The researchers identified analyzed 494 proteins using mass spectrometry. Of these, 66 were differentially expressed after 6 hours of sleep deprivation. The top enriched biologic processes of these significantly changed proteins were protein activation cascade, platelet degranulation, blood coagulation, and hemostasis.

Further analysis using gene ontology showed changes in response to sleep deprivation in biologic process, molecular function, and immune system process categories, including specific associations related to wound healing, cholesterol transport, high-density lipoprotein particle receptor binding, and granulocyte chemotaxis.

The findings were limited by several factors including the small sample size, inclusion only of adult females, and the use of data from only 1 night of sleep deprivation, the researchers noted. However, the results support previous studies showing a negative impact of sleep deprivation on biologic functions, they said.

“Our study was able to reveal another set of human serum proteins that were altered by sleep deprivation and could connect similar biological processes to sleep deprivation that have been identified before with slightly different methods,” the researchers concluded. The study findings add to the knowledge base for the protein profiling of sleep deprivation, which may inform the development of tools to manage lack of sleep and mistimed sleep, particularly in shift workers.
 

Too Soon for Clinical Implications

“The adverse impact of poor sleep across many organ systems is gaining recognition, but the mechanisms underlying sleep-related pathology are not well understood,” Evan L. Brittain, MD, of Vanderbilt University, Nashville, Tennessee, said in an interview. “Studies like this begin to shed light on the mechanisms by which poor or reduced sleep affects specific bodily functions,” added Dr. Brittain, who was not involved in the study.

“The effects of other acute physiologic stressor such as exercise on the circulating proteome are well described. In that regard, it is not surprising that a brief episode of sleep deprivation would lead to detectable changes in the circulation,” Dr. Brittain said.

However, the specific changes reported in this study are difficult to interpret because of methodological and analytical concerns, particularly the small sample size, lack of an external validation cohort, and absence of appropriate statistical adjustments in the results, Dr. Brittain noted. These limitations prevent consideration of clinical implications without further study.

The study received no outside funding. Neither the researchers nor Dr. Brittain disclosed any conflicts of interest.

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

Higher levels of air pollution from wildfires were associated with significant spikes in hospitalizations for asthma and a slight increase in hospitalizations for COPD in surrounding areas, based on data from approximately 80,000 individuals.

Short-term increases in fine particulate matter (PM_2.5) resulting from wildfire smoke are becoming a greater global problem and have been associated with poor asthma and COPD outcomes, wrote Benjamin D. Horne, PhD, of the Intermountain Medical Center Heart Institute, Salt Lake City, Utah, and colleagues. However, the effect of short-term increases in PM_2.5 on hospitalizations for asthma and COPD has not been well studied, they noted.

“Our primary reason for studying the association of air pollution in the summer/fall wildfire season separately from the winter is that the drought conditions in the western United States from 2012-2022 resulted in more wildfires and increasingly large wildfires across the west,” Dr. Horne said in an interview. “In part, this provided a chance to measure an increase of fine particulate matter (PM_2.5) air pollution from wildfires and also to track what happened to their health when people were exposed to the PM_2.5 from wildfire,” he said. 

During 2020-2022, the PM_2.5 produced during the wildfire season exceeded the PM_2.5 levels measured in the winter for the first time, Dr. Horne said. In the part of Utah where the study was conducted, PM_2.5 increases in winter because of a combination of concentrated PM_2.5 from cars and industry and a weather phenomenon known as a temperature inversion, he said. 

A temperature inversion occurs when mountain topography traps pollutants near the ground where the people are, but only during times of cold and snowy weather, Dr. Horne said. 

“Past studies in the region were conducted with the assumption that the winter inversion was the primary source of pollution-related health risks, and public and healthcare guidance for health was based on avoiding winter air pollution,” Dr. Horne noted. However, “it may be that the smoke from wildfires requires people to also anticipate how to avoid exposure to PM_2.5 during the summer,” he said. 

In a study published in CHEST Pulmonary, the researchers reviewed data from 63,976 patients hospitalized with asthma and 18,514 hospitalized with COPD between January 1999 and March 2022 who lived in an area of Utah in which PM_2.5 and ozone are measured by the Environmental Protection Agency. The average age of the asthma patients was 22.6 years; 51.0% were women, 16.0% had hypertension, and 10.1% had a history of smoking. The average age of the COPD patients was 63.5 years, 50.3% were women, 69.1% had hypertension, and 42.3% had a history of smoking.

In a regression analysis, the risk for asthma was significantly associated with days of increased PM_2.5 during wildfire season and similar to the winter inversion (when cold air traps air pollutants), with odds ratios (ORs) of 1.057 and 1.023 for every 10 µg per m³ of particulate matter, respectively. 

Although the risk for asthma hospitalization decreased after a week, a rebound occurred during wildfire season after a 4-week lag, with an OR of 1.098 for every 10 µg per m³ of particulate matter, the researchers wrote. A review of all months showed a significant association between a concurrent day increase in PM_2.5 and asthma hospitalization (OR, 1.020 per every 10 µg per m³ of particulate matter, P = .0006).

By contrast, PM_2.5 increases had only a weak association with hospitalizations for COPD during either wildfire season or winter inversion season, and ozone was not associated with increased risks for patients with asthma or COPD. 

The findings were limited by several factors including the observational design, potential for confounding, and relatively homogeneous study population, the researchers noted.

However, “these findings suggest that people should be aware of the risks from wildfire-generated PM_2.5 during the summer and fall, including following best practices for people with asthma such as anticipating symptoms in warm months, carrying medications during summer activities, and expecting to stay indoors to avoid smoke exposure when wildfires have polluted the outdoor air,” Dr. Horne told this news organization.

In the current study, Dr. Horne and colleagues expected to see increases in the risk for asthma and COPD during summer wildfire season. “What was surprising was that the size of the risk of needing care of asthma appeared to occur just as rapidly after the PM_2.5 became elevated during wildfire events as it did in the winter,” said Dr. Horne. “Further, the risk in the summer appeared to be greater than during the winter. Increases in hospitalization for asthma occurred on the same day and throughout the first week after a rise in air pollution in summer and early fall, and especially in children that risk remained increased for up to a month after the rise in air pollution,” he said. 

Clinicians should be aware of environmental sources of respiratory declines caused by wildfire smoke that may prompt patients to seek care during wildfire events, said Horne. Finally, the general population should recognize the smell of smoke during warm months as an alert that leads to greater caution about spending time outdoors during wildfire events, he said. “Short-term PM_2.5 elevations may affect respiratory health and have other effects such as on heart health,” Dr. Horne said. “In general, people should avoid outdoor exercise when air pollution is elevated, since the amount of air that is breathed in during exercise is substantially increased,” he added. 

“Further research is needed regarding the mechanisms of effect from PM_2.5 on health risk, including effects on respiratory and cardiovascular health,” said Dr. Horne. “This includes evaluating what biomarkers in the blood are changed by air pollution such as inflammatory factors, determining whether some medications may block or reduce the adverse effects of air pollution, and examining whether masks or indoor air purifiers have a meaningful benefit in protecting health during short-term air pollution elevations,” he said.
 

Data Reveal Respiratory Impact of Wildfires

“Fine particle air pollution has been linked to poor respiratory health outcomes, but relatively little is known about the specific impact of wildfire particulate pollution on patients living in urban population centers,” Alexander S. Rabin, MD, of the University of Michigan, Ann Arbor, said in an interview. 

“Although it is known that wildfire risk is increasing throughout the western United States, the increase in the number of days per month with elevated fine particulate matter from 1999 to 2022 was striking,” said Dr. Rabin, who was not involved in the current study. “Over the same period, there was a decrease in the number of high fine particulate matter air pollution days related to the wintertime temperature inversion phenomenon when air pollutants are trapped in Utah’s valleys,” he said. “These data underscore the increased risk of wildfire-related air pollution relative to ‘traditional sources of air pollution from industrial and transportation sources,” he added. 

Although the adverse effects of exposure to wildfire smoke and inversion season pollution on asthma were not unexpected, the degree of the effect size of wildfire smoke relative to inversion season was surprising, said Dr. Rabin.

“Why the wildfire smoke seems to have a worse impact on asthma outcomes could not be determined from this study, but there may be something inherently more dangerous about the cocktail of pollutants released when large wildfires burn uncontrolled,” he said. “I was surprised by the lack of association between wildfire smoke and adverse COPD outcomes; whether this relates to physiological differences or variations in healthcare-seeking behaviors between patients with asthma vs COPD is unknown,” he added. 

The current study underscores the harmful effects of fine particulate pollution from wildfire smoke on health, and the increased risk for hospitalization for those with asthma even in urban environments far from the source of the fire, Dr. Rabin said.

However, limitations include the use of estimates of fine particulate pollution taken from monitoring stations that were an average of 14 km from the participants’ primary residences, and air quality measurements may not have accurately reflected exposure, Dr. Rabin noted. “Additionally, the population studied was not reflective of the US population, with approximately 80% of study participants described as non-Hispanic white,” he said. “Patients of color may have increased vulnerability to adverse outcomes from air pollution and therefore additional study is needed in these populations,” Dr. Rabin added.

The study was supported in part by the AIRHEALTH program project and by internal institutional funds. Dr. Horne disclosed serving on the advisory board of Opsis Health, previously consulting for Pfizer regarding risk scores and serving as site principal investigator of a grant funded by the Task Force for Global Health and a grant from the Patient-Centered Outcomes Research Institute and the NIH-funded RECOVER initiative. Dr. Rabin had no financial conflicts to disclose.
 

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

Higher levels of air pollution from wildfires were associated with significant spikes in hospitalizations for asthma and a slight increase in hospitalizations for COPD in surrounding areas, based on data from approximately 80,000 individuals.

Short-term increases in fine particulate matter (PM_2.5) resulting from wildfire smoke are becoming a greater global problem and have been associated with poor asthma and COPD outcomes, wrote Benjamin D. Horne, PhD, of the Intermountain Medical Center Heart Institute, Salt Lake City, Utah, and colleagues. However, the effect of short-term increases in PM_2.5 on hospitalizations for asthma and COPD has not been well studied, they noted.

“Our primary reason for studying the association of air pollution in the summer/fall wildfire season separately from the winter is that the drought conditions in the western United States from 2012-2022 resulted in more wildfires and increasingly large wildfires across the west,” Dr. Horne said in an interview. “In part, this provided a chance to measure an increase of fine particulate matter (PM_2.5) air pollution from wildfires and also to track what happened to their health when people were exposed to the PM_2.5 from wildfire,” he said. 

During 2020-2022, the PM_2.5 produced during the wildfire season exceeded the PM_2.5 levels measured in the winter for the first time, Dr. Horne said. In the part of Utah where the study was conducted, PM_2.5 increases in winter because of a combination of concentrated PM_2.5 from cars and industry and a weather phenomenon known as a temperature inversion, he said. 

A temperature inversion occurs when mountain topography traps pollutants near the ground where the people are, but only during times of cold and snowy weather, Dr. Horne said. 

“Past studies in the region were conducted with the assumption that the winter inversion was the primary source of pollution-related health risks, and public and healthcare guidance for health was based on avoiding winter air pollution,” Dr. Horne noted. However, “it may be that the smoke from wildfires requires people to also anticipate how to avoid exposure to PM_2.5 during the summer,” he said. 

In a study published in CHEST Pulmonary, the researchers reviewed data from 63,976 patients hospitalized with asthma and 18,514 hospitalized with COPD between January 1999 and March 2022 who lived in an area of Utah in which PM_2.5 and ozone are measured by the Environmental Protection Agency. The average age of the asthma patients was 22.6 years; 51.0% were women, 16.0% had hypertension, and 10.1% had a history of smoking. The average age of the COPD patients was 63.5 years, 50.3% were women, 69.1% had hypertension, and 42.3% had a history of smoking.

In a regression analysis, the risk for asthma was significantly associated with days of increased PM_2.5 during wildfire season and similar to the winter inversion (when cold air traps air pollutants), with odds ratios (ORs) of 1.057 and 1.023 for every 10 µg per m³ of particulate matter, respectively. 

Although the risk for asthma hospitalization decreased after a week, a rebound occurred during wildfire season after a 4-week lag, with an OR of 1.098 for every 10 µg per m³ of particulate matter, the researchers wrote. A review of all months showed a significant association between a concurrent day increase in PM_2.5 and asthma hospitalization (OR, 1.020 per every 10 µg per m³ of particulate matter, P = .0006).

By contrast, PM_2.5 increases had only a weak association with hospitalizations for COPD during either wildfire season or winter inversion season, and ozone was not associated with increased risks for patients with asthma or COPD. 

The findings were limited by several factors including the observational design, potential for confounding, and relatively homogeneous study population, the researchers noted.

However, “these findings suggest that people should be aware of the risks from wildfire-generated PM_2.5 during the summer and fall, including following best practices for people with asthma such as anticipating symptoms in warm months, carrying medications during summer activities, and expecting to stay indoors to avoid smoke exposure when wildfires have polluted the outdoor air,” Dr. Horne told this news organization.

In the current study, Dr. Horne and colleagues expected to see increases in the risk for asthma and COPD during summer wildfire season. “What was surprising was that the size of the risk of needing care of asthma appeared to occur just as rapidly after the PM_2.5 became elevated during wildfire events as it did in the winter,” said Dr. Horne. “Further, the risk in the summer appeared to be greater than during the winter. Increases in hospitalization for asthma occurred on the same day and throughout the first week after a rise in air pollution in summer and early fall, and especially in children that risk remained increased for up to a month after the rise in air pollution,” he said. 

Clinicians should be aware of environmental sources of respiratory declines caused by wildfire smoke that may prompt patients to seek care during wildfire events, said Horne. Finally, the general population should recognize the smell of smoke during warm months as an alert that leads to greater caution about spending time outdoors during wildfire events, he said. “Short-term PM_2.5 elevations may affect respiratory health and have other effects such as on heart health,” Dr. Horne said. “In general, people should avoid outdoor exercise when air pollution is elevated, since the amount of air that is breathed in during exercise is substantially increased,” he added. 

“Further research is needed regarding the mechanisms of effect from PM_2.5 on health risk, including effects on respiratory and cardiovascular health,” said Dr. Horne. “This includes evaluating what biomarkers in the blood are changed by air pollution such as inflammatory factors, determining whether some medications may block or reduce the adverse effects of air pollution, and examining whether masks or indoor air purifiers have a meaningful benefit in protecting health during short-term air pollution elevations,” he said.
 

Data Reveal Respiratory Impact of Wildfires

“Fine particle air pollution has been linked to poor respiratory health outcomes, but relatively little is known about the specific impact of wildfire particulate pollution on patients living in urban population centers,” Alexander S. Rabin, MD, of the University of Michigan, Ann Arbor, said in an interview. 

“Although it is known that wildfire risk is increasing throughout the western United States, the increase in the number of days per month with elevated fine particulate matter from 1999 to 2022 was striking,” said Dr. Rabin, who was not involved in the current study. “Over the same period, there was a decrease in the number of high fine particulate matter air pollution days related to the wintertime temperature inversion phenomenon when air pollutants are trapped in Utah’s valleys,” he said. “These data underscore the increased risk of wildfire-related air pollution relative to ‘traditional sources of air pollution from industrial and transportation sources,” he added. 

Although the adverse effects of exposure to wildfire smoke and inversion season pollution on asthma were not unexpected, the degree of the effect size of wildfire smoke relative to inversion season was surprising, said Dr. Rabin.

“Why the wildfire smoke seems to have a worse impact on asthma outcomes could not be determined from this study, but there may be something inherently more dangerous about the cocktail of pollutants released when large wildfires burn uncontrolled,” he said. “I was surprised by the lack of association between wildfire smoke and adverse COPD outcomes; whether this relates to physiological differences or variations in healthcare-seeking behaviors between patients with asthma vs COPD is unknown,” he added. 

The current study underscores the harmful effects of fine particulate pollution from wildfire smoke on health, and the increased risk for hospitalization for those with asthma even in urban environments far from the source of the fire, Dr. Rabin said.

However, limitations include the use of estimates of fine particulate pollution taken from monitoring stations that were an average of 14 km from the participants’ primary residences, and air quality measurements may not have accurately reflected exposure, Dr. Rabin noted. “Additionally, the population studied was not reflective of the US population, with approximately 80% of study participants described as non-Hispanic white,” he said. “Patients of color may have increased vulnerability to adverse outcomes from air pollution and therefore additional study is needed in these populations,” Dr. Rabin added.

The study was supported in part by the AIRHEALTH program project and by internal institutional funds. Dr. Horne disclosed serving on the advisory board of Opsis Health, previously consulting for Pfizer regarding risk scores and serving as site principal investigator of a grant funded by the Task Force for Global Health and a grant from the Patient-Centered Outcomes Research Institute and the NIH-funded RECOVER initiative. Dr. Rabin had no financial conflicts to disclose.
 

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

Higher levels of air pollution from wildfires were associated with significant spikes in hospitalizations for asthma and a slight increase in hospitalizations for COPD in surrounding areas, based on data from approximately 80,000 individuals.

Short-term increases in fine particulate matter (PM_2.5) resulting from wildfire smoke are becoming a greater global problem and have been associated with poor asthma and COPD outcomes, wrote Benjamin D. Horne, PhD, of the Intermountain Medical Center Heart Institute, Salt Lake City, Utah, and colleagues. However, the effect of short-term increases in PM_2.5 on hospitalizations for asthma and COPD has not been well studied, they noted.

“Our primary reason for studying the association of air pollution in the summer/fall wildfire season separately from the winter is that the drought conditions in the western United States from 2012-2022 resulted in more wildfires and increasingly large wildfires across the west,” Dr. Horne said in an interview. “In part, this provided a chance to measure an increase of fine particulate matter (PM_2.5) air pollution from wildfires and also to track what happened to their health when people were exposed to the PM_2.5 from wildfire,” he said. 

During 2020-2022, the PM_2.5 produced during the wildfire season exceeded the PM_2.5 levels measured in the winter for the first time, Dr. Horne said. In the part of Utah where the study was conducted, PM_2.5 increases in winter because of a combination of concentrated PM_2.5 from cars and industry and a weather phenomenon known as a temperature inversion, he said. 

A temperature inversion occurs when mountain topography traps pollutants near the ground where the people are, but only during times of cold and snowy weather, Dr. Horne said. 

“Past studies in the region were conducted with the assumption that the winter inversion was the primary source of pollution-related health risks, and public and healthcare guidance for health was based on avoiding winter air pollution,” Dr. Horne noted. However, “it may be that the smoke from wildfires requires people to also anticipate how to avoid exposure to PM_2.5 during the summer,” he said. 

In a study published in CHEST Pulmonary, the researchers reviewed data from 63,976 patients hospitalized with asthma and 18,514 hospitalized with COPD between January 1999 and March 2022 who lived in an area of Utah in which PM_2.5 and ozone are measured by the Environmental Protection Agency. The average age of the asthma patients was 22.6 years; 51.0% were women, 16.0% had hypertension, and 10.1% had a history of smoking. The average age of the COPD patients was 63.5 years, 50.3% were women, 69.1% had hypertension, and 42.3% had a history of smoking.

In a regression analysis, the risk for asthma was significantly associated with days of increased PM_2.5 during wildfire season and similar to the winter inversion (when cold air traps air pollutants), with odds ratios (ORs) of 1.057 and 1.023 for every 10 µg per m³ of particulate matter, respectively. 

Although the risk for asthma hospitalization decreased after a week, a rebound occurred during wildfire season after a 4-week lag, with an OR of 1.098 for every 10 µg per m³ of particulate matter, the researchers wrote. A review of all months showed a significant association between a concurrent day increase in PM_2.5 and asthma hospitalization (OR, 1.020 per every 10 µg per m³ of particulate matter, P = .0006).

By contrast, PM_2.5 increases had only a weak association with hospitalizations for COPD during either wildfire season or winter inversion season, and ozone was not associated with increased risks for patients with asthma or COPD. 

The findings were limited by several factors including the observational design, potential for confounding, and relatively homogeneous study population, the researchers noted.

However, “these findings suggest that people should be aware of the risks from wildfire-generated PM_2.5 during the summer and fall, including following best practices for people with asthma such as anticipating symptoms in warm months, carrying medications during summer activities, and expecting to stay indoors to avoid smoke exposure when wildfires have polluted the outdoor air,” Dr. Horne told this news organization.

In the current study, Dr. Horne and colleagues expected to see increases in the risk for asthma and COPD during summer wildfire season. “What was surprising was that the size of the risk of needing care of asthma appeared to occur just as rapidly after the PM_2.5 became elevated during wildfire events as it did in the winter,” said Dr. Horne. “Further, the risk in the summer appeared to be greater than during the winter. Increases in hospitalization for asthma occurred on the same day and throughout the first week after a rise in air pollution in summer and early fall, and especially in children that risk remained increased for up to a month after the rise in air pollution,” he said. 

Clinicians should be aware of environmental sources of respiratory declines caused by wildfire smoke that may prompt patients to seek care during wildfire events, said Horne. Finally, the general population should recognize the smell of smoke during warm months as an alert that leads to greater caution about spending time outdoors during wildfire events, he said. “Short-term PM_2.5 elevations may affect respiratory health and have other effects such as on heart health,” Dr. Horne said. “In general, people should avoid outdoor exercise when air pollution is elevated, since the amount of air that is breathed in during exercise is substantially increased,” he added. 

“Further research is needed regarding the mechanisms of effect from PM_2.5 on health risk, including effects on respiratory and cardiovascular health,” said Dr. Horne. “This includes evaluating what biomarkers in the blood are changed by air pollution such as inflammatory factors, determining whether some medications may block or reduce the adverse effects of air pollution, and examining whether masks or indoor air purifiers have a meaningful benefit in protecting health during short-term air pollution elevations,” he said.
 

Data Reveal Respiratory Impact of Wildfires

“Fine particle air pollution has been linked to poor respiratory health outcomes, but relatively little is known about the specific impact of wildfire particulate pollution on patients living in urban population centers,” Alexander S. Rabin, MD, of the University of Michigan, Ann Arbor, said in an interview. 

“Although it is known that wildfire risk is increasing throughout the western United States, the increase in the number of days per month with elevated fine particulate matter from 1999 to 2022 was striking,” said Dr. Rabin, who was not involved in the current study. “Over the same period, there was a decrease in the number of high fine particulate matter air pollution days related to the wintertime temperature inversion phenomenon when air pollutants are trapped in Utah’s valleys,” he said. “These data underscore the increased risk of wildfire-related air pollution relative to ‘traditional sources of air pollution from industrial and transportation sources,” he added. 

Although the adverse effects of exposure to wildfire smoke and inversion season pollution on asthma were not unexpected, the degree of the effect size of wildfire smoke relative to inversion season was surprising, said Dr. Rabin.

“Why the wildfire smoke seems to have a worse impact on asthma outcomes could not be determined from this study, but there may be something inherently more dangerous about the cocktail of pollutants released when large wildfires burn uncontrolled,” he said. “I was surprised by the lack of association between wildfire smoke and adverse COPD outcomes; whether this relates to physiological differences or variations in healthcare-seeking behaviors between patients with asthma vs COPD is unknown,” he added. 

The current study underscores the harmful effects of fine particulate pollution from wildfire smoke on health, and the increased risk for hospitalization for those with asthma even in urban environments far from the source of the fire, Dr. Rabin said.

However, limitations include the use of estimates of fine particulate pollution taken from monitoring stations that were an average of 14 km from the participants’ primary residences, and air quality measurements may not have accurately reflected exposure, Dr. Rabin noted. “Additionally, the population studied was not reflective of the US population, with approximately 80% of study participants described as non-Hispanic white,” he said. “Patients of color may have increased vulnerability to adverse outcomes from air pollution and therefore additional study is needed in these populations,” Dr. Rabin added.

The study was supported in part by the AIRHEALTH program project and by internal institutional funds. Dr. Horne disclosed serving on the advisory board of Opsis Health, previously consulting for Pfizer regarding risk scores and serving as site principal investigator of a grant funded by the Task Force for Global Health and a grant from the Patient-Centered Outcomes Research Institute and the NIH-funded RECOVER initiative. Dr. Rabin had no financial conflicts to disclose.
 

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

Four organizations owned by private equity firms — including two provider groups — dominated the No Surprises Act’s disputed bill arbitration process in its first year, filing about 70% of 657,040 cases against insurers in 2023, a new report finds. 

The findings, recently published in Health Affairs, suggest that private equity–owned organizations are forcefully challenging insurers about payments for certain kinds of out-of-network care. 

Their fighting stance has paid off: The percentage of resolved arbitration cases won by providers jumped from 72% in the first quarter of 2023 to 85% in the last quarter, and they were awarded a median of more than 300% the contracted in-network rates for the services in question.

With many more out-of-network bills disputed by providers than expected, “the system is not working exactly the way it was anticipated when this law was written,” lead author Jack Hoadley, PhD, a research professor emeritus at Georgetown University’s McCourt School of Public Policy, Washington, DC, told this news organization.

And, he said, the public and the federal government may end up paying a price. 

Congress passed the No Surprises Act in 2020 and then-President Donald Trump signed it. The landmark bill, which went into effect in 2022, was designed to protect patients from unexpected and often exorbitant “surprise” bills after they received some kinds of out-of-network care. 

Now, many types of providers are forbidden from billing patients beyond normal in-network costs. In these cases, health plans and out-of-network providers — who don’t have mutual agreements — must wrangle over payment amounts, which are intended to not exceed inflation-adjusted 2019 median levels. 

A binding arbitration process kicks in when a provider and a health plan fail to agree about how much the plan will pay for a service. Then, a third-party arbitrator is called in to make a ruling that’s binding. The process is controversial, and a flurry of lawsuits from providers have challenged it. 

The new report, which updates an earlier analysis, examines data about disputed cases from all of 2023.

Of the 657,040 new cases filed in 2023, about 70% came from four private equity-funded organizations: Team Health, SCP Health, Radiology Partners, and Envision, which each provide physician services.

About half of the 2023 cases were from just four states: Texas, Florida, Tennessee, and Georgia. The report says the four organizations are especially active in those states. In contrast, Connecticut, Maryland, Massachusetts, and Washington state each had just 1500 or fewer cases filed last year. 

Health plans challenged a third of cases as ineligible, and 22% of all resolved cases were deemed ineligible.

Providers won 80% of resolved challenges in 2023, although it’s not clear how much money they reaped. Still, it’s clear that “in the vast majority of the cases, insurers have to pay larger amounts to the provider,” Dr. Hoadley said.

Radiologists made a median of at least 500% of the in-network rate in their cases. Surgeons and neurologists made even more money — a median of at least 800% of the in-network rate. Overall, providers made 322%-350% of in-network rates, depending on the quarter.

Dr. Hoadley cautioned that only a small percentage of medical payments are disputed. In those cases, “the amount that the insurer offers is accepted, and that’s the end of the story.”

Why are the providers often reaping much more than typical payments for in-network services? It’s “really hard to know,” Dr. Hoadley said. But one factor, he said, may be the fact that providers are able to offer evidence challenging that amounts that insurers say they paid previously: “Hey, when we were in network, we were paid this much.”

It’s not clear whether the dispute-and-arbitration system will cost insurers — and patients — more in the long run. The Congressional Budget Office actually thought the No Surprises Act might lower the growth of premiums slightly and save the federal government money, Dr. Hoadley said, but that could potentially not happen. The flood of litigation also contributes to uncertainty, he said. 

Alan Sager, PhD, professor of Health Law, Policy, and Management at Boston University School of Public Health, told this news organization that premiums are bound to rise as insurers react to higher costs. He also expects that providers will question the value of being in-network. “If you’re out-of-network and can obtain much higher payments, why would any doctor or hospital remain in-network, especially since they don’t lose out on patient volume?”

Why are provider groups owned by private equity firms so aggressive at challenging health plans? Loren Adler, a fellow and associate director of the Brookings Institution’s Center on Health Policy, told this news organization that these companies play large roles in fields affected by the No Surprises Act. These include emergency medicine, radiology, and anesthesiology, said Mr. Adler, who’s also studied the No Surprises Act’s dispute/arbitration system.

Mr. Adler added that larger companies “are better suited to deal with technical complexities of this process and spend the sort of upfront money to go through it.”

In the big picture, Mr. Adler said, the new study “raises question of whether Congress at some point wants to try to basically bring prices from the arbitration process back in line with average in-network prices.”

The study was funded by the Commonwealth Fund and Arnold Ventures. Dr. Hoadley, Dr. Sager, and Mr. Adler had no disclosures.

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

Four organizations owned by private equity firms — including two provider groups — dominated the No Surprises Act’s disputed bill arbitration process in its first year, filing about 70% of 657,040 cases against insurers in 2023, a new report finds. 

The findings, recently published in Health Affairs, suggest that private equity–owned organizations are forcefully challenging insurers about payments for certain kinds of out-of-network care. 

Their fighting stance has paid off: The percentage of resolved arbitration cases won by providers jumped from 72% in the first quarter of 2023 to 85% in the last quarter, and they were awarded a median of more than 300% the contracted in-network rates for the services in question.

With many more out-of-network bills disputed by providers than expected, “the system is not working exactly the way it was anticipated when this law was written,” lead author Jack Hoadley, PhD, a research professor emeritus at Georgetown University’s McCourt School of Public Policy, Washington, DC, told this news organization.

And, he said, the public and the federal government may end up paying a price. 

Congress passed the No Surprises Act in 2020 and then-President Donald Trump signed it. The landmark bill, which went into effect in 2022, was designed to protect patients from unexpected and often exorbitant “surprise” bills after they received some kinds of out-of-network care. 

Now, many types of providers are forbidden from billing patients beyond normal in-network costs. In these cases, health plans and out-of-network providers — who don’t have mutual agreements — must wrangle over payment amounts, which are intended to not exceed inflation-adjusted 2019 median levels. 

A binding arbitration process kicks in when a provider and a health plan fail to agree about how much the plan will pay for a service. Then, a third-party arbitrator is called in to make a ruling that’s binding. The process is controversial, and a flurry of lawsuits from providers have challenged it. 

The new report, which updates an earlier analysis, examines data about disputed cases from all of 2023.

Of the 657,040 new cases filed in 2023, about 70% came from four private equity-funded organizations: Team Health, SCP Health, Radiology Partners, and Envision, which each provide physician services.

About half of the 2023 cases were from just four states: Texas, Florida, Tennessee, and Georgia. The report says the four organizations are especially active in those states. In contrast, Connecticut, Maryland, Massachusetts, and Washington state each had just 1500 or fewer cases filed last year. 

Health plans challenged a third of cases as ineligible, and 22% of all resolved cases were deemed ineligible.

Providers won 80% of resolved challenges in 2023, although it’s not clear how much money they reaped. Still, it’s clear that “in the vast majority of the cases, insurers have to pay larger amounts to the provider,” Dr. Hoadley said.

Radiologists made a median of at least 500% of the in-network rate in their cases. Surgeons and neurologists made even more money — a median of at least 800% of the in-network rate. Overall, providers made 322%-350% of in-network rates, depending on the quarter.

Dr. Hoadley cautioned that only a small percentage of medical payments are disputed. In those cases, “the amount that the insurer offers is accepted, and that’s the end of the story.”

Why are the providers often reaping much more than typical payments for in-network services? It’s “really hard to know,” Dr. Hoadley said. But one factor, he said, may be the fact that providers are able to offer evidence challenging that amounts that insurers say they paid previously: “Hey, when we were in network, we were paid this much.”

It’s not clear whether the dispute-and-arbitration system will cost insurers — and patients — more in the long run. The Congressional Budget Office actually thought the No Surprises Act might lower the growth of premiums slightly and save the federal government money, Dr. Hoadley said, but that could potentially not happen. The flood of litigation also contributes to uncertainty, he said. 

Alan Sager, PhD, professor of Health Law, Policy, and Management at Boston University School of Public Health, told this news organization that premiums are bound to rise as insurers react to higher costs. He also expects that providers will question the value of being in-network. “If you’re out-of-network and can obtain much higher payments, why would any doctor or hospital remain in-network, especially since they don’t lose out on patient volume?”

Why are provider groups owned by private equity firms so aggressive at challenging health plans? Loren Adler, a fellow and associate director of the Brookings Institution’s Center on Health Policy, told this news organization that these companies play large roles in fields affected by the No Surprises Act. These include emergency medicine, radiology, and anesthesiology, said Mr. Adler, who’s also studied the No Surprises Act’s dispute/arbitration system.

Mr. Adler added that larger companies “are better suited to deal with technical complexities of this process and spend the sort of upfront money to go through it.”

In the big picture, Mr. Adler said, the new study “raises question of whether Congress at some point wants to try to basically bring prices from the arbitration process back in line with average in-network prices.”

The study was funded by the Commonwealth Fund and Arnold Ventures. Dr. Hoadley, Dr. Sager, and Mr. Adler had no disclosures.

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

Four organizations owned by private equity firms — including two provider groups — dominated the No Surprises Act’s disputed bill arbitration process in its first year, filing about 70% of 657,040 cases against insurers in 2023, a new report finds. 

The findings, recently published in Health Affairs, suggest that private equity–owned organizations are forcefully challenging insurers about payments for certain kinds of out-of-network care. 

Their fighting stance has paid off: The percentage of resolved arbitration cases won by providers jumped from 72% in the first quarter of 2023 to 85% in the last quarter, and they were awarded a median of more than 300% the contracted in-network rates for the services in question.

With many more out-of-network bills disputed by providers than expected, “the system is not working exactly the way it was anticipated when this law was written,” lead author Jack Hoadley, PhD, a research professor emeritus at Georgetown University’s McCourt School of Public Policy, Washington, DC, told this news organization.

And, he said, the public and the federal government may end up paying a price. 

Congress passed the No Surprises Act in 2020 and then-President Donald Trump signed it. The landmark bill, which went into effect in 2022, was designed to protect patients from unexpected and often exorbitant “surprise” bills after they received some kinds of out-of-network care. 

Now, many types of providers are forbidden from billing patients beyond normal in-network costs. In these cases, health plans and out-of-network providers — who don’t have mutual agreements — must wrangle over payment amounts, which are intended to not exceed inflation-adjusted 2019 median levels. 

A binding arbitration process kicks in when a provider and a health plan fail to agree about how much the plan will pay for a service. Then, a third-party arbitrator is called in to make a ruling that’s binding. The process is controversial, and a flurry of lawsuits from providers have challenged it. 

The new report, which updates an earlier analysis, examines data about disputed cases from all of 2023.

Of the 657,040 new cases filed in 2023, about 70% came from four private equity-funded organizations: Team Health, SCP Health, Radiology Partners, and Envision, which each provide physician services.

About half of the 2023 cases were from just four states: Texas, Florida, Tennessee, and Georgia. The report says the four organizations are especially active in those states. In contrast, Connecticut, Maryland, Massachusetts, and Washington state each had just 1500 or fewer cases filed last year. 

Health plans challenged a third of cases as ineligible, and 22% of all resolved cases were deemed ineligible.

Providers won 80% of resolved challenges in 2023, although it’s not clear how much money they reaped. Still, it’s clear that “in the vast majority of the cases, insurers have to pay larger amounts to the provider,” Dr. Hoadley said.

Radiologists made a median of at least 500% of the in-network rate in their cases. Surgeons and neurologists made even more money — a median of at least 800% of the in-network rate. Overall, providers made 322%-350% of in-network rates, depending on the quarter.

Dr. Hoadley cautioned that only a small percentage of medical payments are disputed. In those cases, “the amount that the insurer offers is accepted, and that’s the end of the story.”

Why are the providers often reaping much more than typical payments for in-network services? It’s “really hard to know,” Dr. Hoadley said. But one factor, he said, may be the fact that providers are able to offer evidence challenging that amounts that insurers say they paid previously: “Hey, when we were in network, we were paid this much.”

It’s not clear whether the dispute-and-arbitration system will cost insurers — and patients — more in the long run. The Congressional Budget Office actually thought the No Surprises Act might lower the growth of premiums slightly and save the federal government money, Dr. Hoadley said, but that could potentially not happen. The flood of litigation also contributes to uncertainty, he said. 

Alan Sager, PhD, professor of Health Law, Policy, and Management at Boston University School of Public Health, told this news organization that premiums are bound to rise as insurers react to higher costs. He also expects that providers will question the value of being in-network. “If you’re out-of-network and can obtain much higher payments, why would any doctor or hospital remain in-network, especially since they don’t lose out on patient volume?”

Why are provider groups owned by private equity firms so aggressive at challenging health plans? Loren Adler, a fellow and associate director of the Brookings Institution’s Center on Health Policy, told this news organization that these companies play large roles in fields affected by the No Surprises Act. These include emergency medicine, radiology, and anesthesiology, said Mr. Adler, who’s also studied the No Surprises Act’s dispute/arbitration system.

Mr. Adler added that larger companies “are better suited to deal with technical complexities of this process and spend the sort of upfront money to go through it.”

In the big picture, Mr. Adler said, the new study “raises question of whether Congress at some point wants to try to basically bring prices from the arbitration process back in line with average in-network prices.”

The study was funded by the Commonwealth Fund and Arnold Ventures. Dr. Hoadley, Dr. Sager, and Mr. Adler had no disclosures.

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

A new analysis has detected a signal of suicidal ideation associated with the glucagon-like peptide 1 receptor agonist (GLP-1 RA) semaglutide, especially among individuals concurrently using antidepressants or benzodiazepines. 

However, the investigators and outside experts urge caution in drawing any firm conclusions based on the study’s observations. 

“Clinicians should not interpret these results as proof of causal relationship between suicidal ideation and semaglutide, as our pharmacovigilance study showed an association between the use of semaglutide and reports of suicidal ideation,” study investigator Georgios Schoretsanitis, MD, PhD, Department of Psychiatry, The Zucker Hillside Hospital, Northwell Health, Glen Oaks, New York, told this news organization.

Nonetheless, “physicians prescribing semaglutide should inform their patients about the medications’ risks and assess the psychiatric history and evaluate the mental state of patients before starting treatment with semaglutide,” Dr. Schoretsanitis said. 

“For patients with history of mental disorders or suicidal ideation/behaviors/attempts, physicians should be cautious and regularly monitor their mental state while taking semaglutide. If needed, the treating physician should involve different specialists, including a psychiatrist and/or clinical psychologists,” he added. 

The study was published online on August 20 in JAMA Network Open. 
 

Emerging Concerns

GLP-1 RAs are increasingly prescribed not only for type 2 diabetes but also for weight loss. However, concerns have emerged about a potential association with suicidality, which has prompted a closer look by regulators in the United States and Europe. 

Dr. Schoretsanitis and colleagues evaluated potential signals of suicidality related to semaglutide and liraglutide using data from global World Health Organization database of suspected adverse drug reactions (ADRs). 

They conducted sensitivity analyses including patients with co-reported use of antidepressants and benzodiazepines and using dapagliflozin, metformin, and orlistat as comparators. 

Between November 2000 and August 2023, there were 107 cases of suicidal and/or self-injurious ADRs reported with semaglutide (median age, 48 years; 55% women) and 162 reported with liraglutide (median age 47 years; 61% women). 

The researchers noted that a “significant disproportionality” signal emerged for semaglutide-associated suicidal ideation (reporting odds ratio [ROR], 1.45), when compared with comparator drugs. 

This signal remained significant in sensitivity analyses that included patients on concurrent antidepressants (ROR, 4.45) and benzodiazepines (ROR, 4.07), “suggesting that people with anxiety and depressive disorders may be at higher probability of reporting suicidal ideation when medicated with semaglutide,” the authors wrote. 

No significant disproportionality signal was detected for liraglutide regarding suicidal ideation (ROR, 1.04). 

However, the authors noted that pooled data from previous phase 2 and 3 trials on liraglutide vs placebo for weight management identified a potential risk for suicidal ideation, with nine of 3384 participants in the liraglutide group vs two of 1941 in the placebo group reporting suicidal ideation or behavior during the trial (0.27% vs 0.10%). 
 

More Research Needed 

GLP-1 RAs “should be used cautiously until further data are available on this topic,” Dr. Schoretsanitis said. 

“Further real-world studies should investigate the risk of suicidal ideation or behavior in people treated with these drugs in every-day clinical practice. We categorically discourage off-label use of GLP1-RA and without any medical supervision,” he added.

The coauthors of an invited commentary published with the study note that between 2020 and 2023, GLP-1 RA use rose 594% in younger people, particularly in women.

This “timely and well-conducted study” by Dr. Schoretsanitis and colleagues adds “an important piece to the very relevant safety issue” related to GLP-1 RAs, wrote Francesco Salvo, MD, PhD, with Université de Bordeaux, and Jean-Luc Faillie, MD, PhD, with Université de Montpellier, both in France. 

Pending further studies, the position of the US Food and Drug Administration (FDA) recommending caution “continues to be reasonable. Whatever the cause, depression or suicidality are rare but extremely severe events and need to be prevented and managed as much as possible. 

“Waiting for more precise data, GPL-1 receptor agonists, and appetite suppressants in general, should be prescribed with great caution in patients with a history of depression or suicidal attempts, while in patients with new onset of depression without other apparent precipitants, immediate discontinuation of GLP-1 receptor agonists should be considered,” wrote Dr. Salvo and Dr. Faillie. 

Outside experts also weighed in on the study in a statement from the UK nonprofit Science Media Centre. 

The paper presents, “at best, weak evidence of an association between semaglutide and suicidality,” Ian Douglas, PhD, professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, United Kingdom, said in the statement. “Signal detection studies in pharmacovigilance databases are good for generating hypotheses but are not suitable for assessing whether there is a causal association between a drug and an outcome.”

Stephen Evans, MSc, emeritus professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, cautioned that the study has “major limitations.”

“This paper is based just on spontaneous reports which are sent to regulatory authorities in the country of the person reporting a suspected adverse reaction. These are sent by health professionals and patients to authorities, but are very subject to bias, including effects of media reporting. The evidence is extremely weak for a genuine effect in this instance,” Mr. Evans said. 

The study had no specific funding. Dr. Schoretsanitis reported receiving personal fees from HLS, Dexcel, Saladax, and Thermo Fisher outside the submitted work. Dr. Salvo and Dr. Faillie have no conflicts of interest. Dr. Douglas has received research grants from GSK and AstraZeneca. Mr. Evans has no conflicts of interest. 
 

A version of this article appeared on Medscape.com.

A new analysis has detected a signal of suicidal ideation associated with the glucagon-like peptide 1 receptor agonist (GLP-1 RA) semaglutide, especially among individuals concurrently using antidepressants or benzodiazepines. 

However, the investigators and outside experts urge caution in drawing any firm conclusions based on the study’s observations. 

“Clinicians should not interpret these results as proof of causal relationship between suicidal ideation and semaglutide, as our pharmacovigilance study showed an association between the use of semaglutide and reports of suicidal ideation,” study investigator Georgios Schoretsanitis, MD, PhD, Department of Psychiatry, The Zucker Hillside Hospital, Northwell Health, Glen Oaks, New York, told this news organization.

Nonetheless, “physicians prescribing semaglutide should inform their patients about the medications’ risks and assess the psychiatric history and evaluate the mental state of patients before starting treatment with semaglutide,” Dr. Schoretsanitis said. 

“For patients with history of mental disorders or suicidal ideation/behaviors/attempts, physicians should be cautious and regularly monitor their mental state while taking semaglutide. If needed, the treating physician should involve different specialists, including a psychiatrist and/or clinical psychologists,” he added. 

The study was published online on August 20 in JAMA Network Open. 
 

Emerging Concerns

GLP-1 RAs are increasingly prescribed not only for type 2 diabetes but also for weight loss. However, concerns have emerged about a potential association with suicidality, which has prompted a closer look by regulators in the United States and Europe. 

Dr. Schoretsanitis and colleagues evaluated potential signals of suicidality related to semaglutide and liraglutide using data from global World Health Organization database of suspected adverse drug reactions (ADRs). 

They conducted sensitivity analyses including patients with co-reported use of antidepressants and benzodiazepines and using dapagliflozin, metformin, and orlistat as comparators. 

Between November 2000 and August 2023, there were 107 cases of suicidal and/or self-injurious ADRs reported with semaglutide (median age, 48 years; 55% women) and 162 reported with liraglutide (median age 47 years; 61% women). 

The researchers noted that a “significant disproportionality” signal emerged for semaglutide-associated suicidal ideation (reporting odds ratio [ROR], 1.45), when compared with comparator drugs. 

This signal remained significant in sensitivity analyses that included patients on concurrent antidepressants (ROR, 4.45) and benzodiazepines (ROR, 4.07), “suggesting that people with anxiety and depressive disorders may be at higher probability of reporting suicidal ideation when medicated with semaglutide,” the authors wrote. 

No significant disproportionality signal was detected for liraglutide regarding suicidal ideation (ROR, 1.04). 

However, the authors noted that pooled data from previous phase 2 and 3 trials on liraglutide vs placebo for weight management identified a potential risk for suicidal ideation, with nine of 3384 participants in the liraglutide group vs two of 1941 in the placebo group reporting suicidal ideation or behavior during the trial (0.27% vs 0.10%). 
 

More Research Needed 

GLP-1 RAs “should be used cautiously until further data are available on this topic,” Dr. Schoretsanitis said. 

“Further real-world studies should investigate the risk of suicidal ideation or behavior in people treated with these drugs in every-day clinical practice. We categorically discourage off-label use of GLP1-RA and without any medical supervision,” he added.

The coauthors of an invited commentary published with the study note that between 2020 and 2023, GLP-1 RA use rose 594% in younger people, particularly in women.

This “timely and well-conducted study” by Dr. Schoretsanitis and colleagues adds “an important piece to the very relevant safety issue” related to GLP-1 RAs, wrote Francesco Salvo, MD, PhD, with Université de Bordeaux, and Jean-Luc Faillie, MD, PhD, with Université de Montpellier, both in France. 

Pending further studies, the position of the US Food and Drug Administration (FDA) recommending caution “continues to be reasonable. Whatever the cause, depression or suicidality are rare but extremely severe events and need to be prevented and managed as much as possible. 

“Waiting for more precise data, GPL-1 receptor agonists, and appetite suppressants in general, should be prescribed with great caution in patients with a history of depression or suicidal attempts, while in patients with new onset of depression without other apparent precipitants, immediate discontinuation of GLP-1 receptor agonists should be considered,” wrote Dr. Salvo and Dr. Faillie. 

Outside experts also weighed in on the study in a statement from the UK nonprofit Science Media Centre. 

The paper presents, “at best, weak evidence of an association between semaglutide and suicidality,” Ian Douglas, PhD, professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, United Kingdom, said in the statement. “Signal detection studies in pharmacovigilance databases are good for generating hypotheses but are not suitable for assessing whether there is a causal association between a drug and an outcome.”

Stephen Evans, MSc, emeritus professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, cautioned that the study has “major limitations.”

“This paper is based just on spontaneous reports which are sent to regulatory authorities in the country of the person reporting a suspected adverse reaction. These are sent by health professionals and patients to authorities, but are very subject to bias, including effects of media reporting. The evidence is extremely weak for a genuine effect in this instance,” Mr. Evans said. 

The study had no specific funding. Dr. Schoretsanitis reported receiving personal fees from HLS, Dexcel, Saladax, and Thermo Fisher outside the submitted work. Dr. Salvo and Dr. Faillie have no conflicts of interest. Dr. Douglas has received research grants from GSK and AstraZeneca. Mr. Evans has no conflicts of interest. 
 

A version of this article appeared on Medscape.com.

A new analysis has detected a signal of suicidal ideation associated with the glucagon-like peptide 1 receptor agonist (GLP-1 RA) semaglutide, especially among individuals concurrently using antidepressants or benzodiazepines. 

However, the investigators and outside experts urge caution in drawing any firm conclusions based on the study’s observations. 

“Clinicians should not interpret these results as proof of causal relationship between suicidal ideation and semaglutide, as our pharmacovigilance study showed an association between the use of semaglutide and reports of suicidal ideation,” study investigator Georgios Schoretsanitis, MD, PhD, Department of Psychiatry, The Zucker Hillside Hospital, Northwell Health, Glen Oaks, New York, told this news organization.

Nonetheless, “physicians prescribing semaglutide should inform their patients about the medications’ risks and assess the psychiatric history and evaluate the mental state of patients before starting treatment with semaglutide,” Dr. Schoretsanitis said. 

“For patients with history of mental disorders or suicidal ideation/behaviors/attempts, physicians should be cautious and regularly monitor their mental state while taking semaglutide. If needed, the treating physician should involve different specialists, including a psychiatrist and/or clinical psychologists,” he added. 

The study was published online on August 20 in JAMA Network Open. 
 

Emerging Concerns

GLP-1 RAs are increasingly prescribed not only for type 2 diabetes but also for weight loss. However, concerns have emerged about a potential association with suicidality, which has prompted a closer look by regulators in the United States and Europe. 

Dr. Schoretsanitis and colleagues evaluated potential signals of suicidality related to semaglutide and liraglutide using data from global World Health Organization database of suspected adverse drug reactions (ADRs). 

They conducted sensitivity analyses including patients with co-reported use of antidepressants and benzodiazepines and using dapagliflozin, metformin, and orlistat as comparators. 

Between November 2000 and August 2023, there were 107 cases of suicidal and/or self-injurious ADRs reported with semaglutide (median age, 48 years; 55% women) and 162 reported with liraglutide (median age 47 years; 61% women). 

The researchers noted that a “significant disproportionality” signal emerged for semaglutide-associated suicidal ideation (reporting odds ratio [ROR], 1.45), when compared with comparator drugs. 

This signal remained significant in sensitivity analyses that included patients on concurrent antidepressants (ROR, 4.45) and benzodiazepines (ROR, 4.07), “suggesting that people with anxiety and depressive disorders may be at higher probability of reporting suicidal ideation when medicated with semaglutide,” the authors wrote. 

No significant disproportionality signal was detected for liraglutide regarding suicidal ideation (ROR, 1.04). 

However, the authors noted that pooled data from previous phase 2 and 3 trials on liraglutide vs placebo for weight management identified a potential risk for suicidal ideation, with nine of 3384 participants in the liraglutide group vs two of 1941 in the placebo group reporting suicidal ideation or behavior during the trial (0.27% vs 0.10%). 
 

More Research Needed 

GLP-1 RAs “should be used cautiously until further data are available on this topic,” Dr. Schoretsanitis said. 

“Further real-world studies should investigate the risk of suicidal ideation or behavior in people treated with these drugs in every-day clinical practice. We categorically discourage off-label use of GLP1-RA and without any medical supervision,” he added.

The coauthors of an invited commentary published with the study note that between 2020 and 2023, GLP-1 RA use rose 594% in younger people, particularly in women.

This “timely and well-conducted study” by Dr. Schoretsanitis and colleagues adds “an important piece to the very relevant safety issue” related to GLP-1 RAs, wrote Francesco Salvo, MD, PhD, with Université de Bordeaux, and Jean-Luc Faillie, MD, PhD, with Université de Montpellier, both in France. 

Pending further studies, the position of the US Food and Drug Administration (FDA) recommending caution “continues to be reasonable. Whatever the cause, depression or suicidality are rare but extremely severe events and need to be prevented and managed as much as possible. 

“Waiting for more precise data, GPL-1 receptor agonists, and appetite suppressants in general, should be prescribed with great caution in patients with a history of depression or suicidal attempts, while in patients with new onset of depression without other apparent precipitants, immediate discontinuation of GLP-1 receptor agonists should be considered,” wrote Dr. Salvo and Dr. Faillie. 

Outside experts also weighed in on the study in a statement from the UK nonprofit Science Media Centre. 

The paper presents, “at best, weak evidence of an association between semaglutide and suicidality,” Ian Douglas, PhD, professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, United Kingdom, said in the statement. “Signal detection studies in pharmacovigilance databases are good for generating hypotheses but are not suitable for assessing whether there is a causal association between a drug and an outcome.”

Stephen Evans, MSc, emeritus professor of pharmacoepidemiology, London School of Hygiene & Tropical Medicine, cautioned that the study has “major limitations.”

“This paper is based just on spontaneous reports which are sent to regulatory authorities in the country of the person reporting a suspected adverse reaction. These are sent by health professionals and patients to authorities, but are very subject to bias, including effects of media reporting. The evidence is extremely weak for a genuine effect in this instance,” Mr. Evans said. 

The study had no specific funding. Dr. Schoretsanitis reported receiving personal fees from HLS, Dexcel, Saladax, and Thermo Fisher outside the submitted work. Dr. Salvo and Dr. Faillie have no conflicts of interest. Dr. Douglas has received research grants from GSK and AstraZeneca. Mr. Evans has no conflicts of interest. 
 

A version of this article appeared on Medscape.com.

Each year in the United States, approximately 1.7 million Americans are diagnosed with a potentially lethal malignancy. Typical therapies of choice include surgery, radiation, and occasionally, toxic chemotherapy (chemo) — approaches that eliminate the cancer in about 1,000,000 of these cases. The remaining 700,000 or so often proceed to chemotherapy either immediately or upon cancer recurrence, spread, or newly recognized metastases. “Cures” after that point are rare.

I’m speaking in generalities, understanding that each cancer and each patient is unique.
 

Chemotherapy

Chemotherapy alone can cure a small number of cancer types. When added to radiation or surgery, chemotherapy can help to cure a wider range of cancer types. As an add-on, chemotherapy can extend the length and quality of life for many patients with cancer. Since chemotherapy is by definition “toxic,” it can also shorten the duration or harm the quality of life and provide false hope. The Table summarizes what chemotherapy can and cannot achieve in selected cancer types.

• Lack of response (the tumor failed to shrink).
• Progression (the cancer may have grown or spread further).
• Adverse side effects were too severe to continue.

The drugs used in second-line chemo will typically be different from those used in first line, sometimes because cancer cells can develop resistance to chemotherapy drugs over time. Moreover, the goal of second-line chemo may differ from that of first-line therapy. Rather than chiefly aiming for a cure, second-line treatment might focus on slowing cancer growth, managing symptoms, or improving quality of life. Unfortunately, not every type of cancer has a readily available second-line option.

Third-line treatment. Third-line options come into play when both the initial course of chemo (first line) and the subsequent treatment (second line) have failed to achieve remission or control the cancer’s spread. Owing to the progressive nature of advanced cancers, patients might not be eligible or healthy enough for third-line therapy. Depending on cancer type, the patient’s general health, and response to previous treatments, third-line options could include:

• New or different chemotherapy drugs compared with prior lines.
• Surgery to debulk the tumor.
• Radiation for symptom control.
• Targeted therapy: drugs designed to target specific vulnerabilities in cancer cells.
• Immunotherapy: agents that help the body’s immune system fight cancer cells.
• Clinical trials testing new or investigational treatments, which may be applicable at any time, depending on the questions being addressed.

The goals of third-line therapy may shift from aiming for a cure to managing symptoms, improving quality of life, and potentially slowing cancer growth. The decision to pursue third-line therapy involves careful consideration by the doctor and patient, weighing the potential benefits and risks of treatment considering the individual’s overall health and specific situation.

It’s important to have realistic expectations about the potential outcomes of third-line therapy. Although remission may be unlikely, third-line therapy can still play a role in managing the disease.

Navigating advanced cancer treatment is very complex. The patient and physician must together consider detailed explanations and clarifications to set expectations and make informed decisions about care.
 

Interventions to Consider Earlier

In traditional clinical oncology practice, other interventions are possible, but these may not be offered until treatment has reached the third line:

• Molecular testing.
• Palliation.
• Clinical trials.
• Innovative testing to guide targeted therapy by ascertaining which agents are most likely (or not likely at all) to be effective.

I would argue that the patient’s interests are better served by considering and offering these other interventions much earlier, even before starting first-line chemotherapy.

Molecular testing. The best time for molecular testing of a new malignant tumor is typically at the time of diagnosis. Here’s why:

• Molecular testing helps identify specific genetic mutations in the cancer cells. This information can be crucial for selecting targeted therapies that are most effective against those specific mutations. Early detection allows for the most treatment options. For example, for non–small cell lung cancer, early is best because treatment and outcomes may well be changed by test results.
• Knowing the tumor’s molecular makeup can help determine whether a patient qualifies for clinical trials of new drugs designed for specific mutations.
• Some molecular markers can offer information about the tumor’s aggressiveness and potential for metastasis so that prognosis can be informed.

Molecular testing can be a valuable tool throughout a cancer patient’s journey. With genetically diverse tumors, the initial biopsy might not capture the full picture. Molecular testing of circulating tumor DNA can be used to monitor a patient’s response to treatment and detect potential mutations that might arise during treatment resistance. Retesting after metastasis can provide additional information that can aid in treatment decisions.

Palliative care. The ideal time to discuss palliative care with a patient with cancer is early in the diagnosis and treatment process. Palliative care is not the same as hospice care; it isn’t just about end-of-life. Palliative care focuses on improving a patient’s quality of life throughout cancer treatment. Palliative care specialists can address a wide range of symptoms a patient might experience from cancer or its treatment, including pain, fatigue, nausea, and anxiety.

Early discussions allow for a more comprehensive care plan. Open communication about all treatment options, including palliative care, empowers patients to make informed decisions about their care goals and preferences.

Specific situations where discussing palliative care might be appropriate are:

• Soon after a cancer diagnosis.
• If the patient experiences significant side effects from cancer treatment.
• When considering different treatment options, palliative care can complement those treatments.
• In advanced stages of cancer, to focus on comfort and quality of life.

Clinical trials. Participation in a clinical trial to explore new or investigational treatments should always be considered.

In theory, clinical trials should be an option at any time in the patient’s course. But the organized clinical trial experience may not be available or appropriate. Then, the individual becomes a de facto “clinical trial with an n of 1.” Read this brief open-access blog post at Cancer Commons to learn more about that circumstance.

Innovative testing. The best choice of chemotherapeutic or targeted therapies is often unclear. The clinician is likely to follow published guidelines, often from the National Comprehensive Cancer Network.

These are evidence based and driven by consensus of experts. But guideline-recommended therapy is not always effective, and weeks or months can pass before this ineffectiveness becomes apparent. Thus, many researchers and companies are seeking methods of testing each patient’s specific cancer to determine in advance, or very quickly, whether a particular drug is likely to be effective.

Read more about these leading innovations:

SAGE Oncotest: Entering the Next Generation of Tailored Cancer Treatment

Alibrex: A New Blood Test to Reveal Whether a Cancer Treatment is Working

PARIS Test Uses Lab-Grown Mini-Tumors to Find a Patient’s Best Treatment

Using Live Cells from Patients to Find the Right Cancer Drug

Other innovative therapies under investigation could even be agnostic to cancer type:

Treating Pancreatic Cancer: Could Metabolism — Not Genomics — Be the Key?

High-Energy Blue Light Powers a Promising New Treatment to Destroy Cancer Cells

All-Clear Follow-Up: Hydrogen Peroxide Appears to Treat Oral and Skin Lesions

Cancer is a tough nut to crack. Many people and organizations are trying very hard. So much is being learned. Some approaches will be effective. We can all hope.

Dr. Lundberg, editor in chief, Cancer Commons, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Each year in the United States, approximately 1.7 million Americans are diagnosed with a potentially lethal malignancy. Typical therapies of choice include surgery, radiation, and occasionally, toxic chemotherapy (chemo) — approaches that eliminate the cancer in about 1,000,000 of these cases. The remaining 700,000 or so often proceed to chemotherapy either immediately or upon cancer recurrence, spread, or newly recognized metastases. “Cures” after that point are rare.

I’m speaking in generalities, understanding that each cancer and each patient is unique.
 

Chemotherapy

Chemotherapy alone can cure a small number of cancer types. When added to radiation or surgery, chemotherapy can help to cure a wider range of cancer types. As an add-on, chemotherapy can extend the length and quality of life for many patients with cancer. Since chemotherapy is by definition “toxic,” it can also shorten the duration or harm the quality of life and provide false hope. The Table summarizes what chemotherapy can and cannot achieve in selected cancer types.

• Lack of response (the tumor failed to shrink).
• Progression (the cancer may have grown or spread further).
• Adverse side effects were too severe to continue.

The drugs used in second-line chemo will typically be different from those used in first line, sometimes because cancer cells can develop resistance to chemotherapy drugs over time. Moreover, the goal of second-line chemo may differ from that of first-line therapy. Rather than chiefly aiming for a cure, second-line treatment might focus on slowing cancer growth, managing symptoms, or improving quality of life. Unfortunately, not every type of cancer has a readily available second-line option.

Third-line treatment. Third-line options come into play when both the initial course of chemo (first line) and the subsequent treatment (second line) have failed to achieve remission or control the cancer’s spread. Owing to the progressive nature of advanced cancers, patients might not be eligible or healthy enough for third-line therapy. Depending on cancer type, the patient’s general health, and response to previous treatments, third-line options could include:

• New or different chemotherapy drugs compared with prior lines.
• Surgery to debulk the tumor.
• Radiation for symptom control.
• Targeted therapy: drugs designed to target specific vulnerabilities in cancer cells.
• Immunotherapy: agents that help the body’s immune system fight cancer cells.
• Clinical trials testing new or investigational treatments, which may be applicable at any time, depending on the questions being addressed.

The goals of third-line therapy may shift from aiming for a cure to managing symptoms, improving quality of life, and potentially slowing cancer growth. The decision to pursue third-line therapy involves careful consideration by the doctor and patient, weighing the potential benefits and risks of treatment considering the individual’s overall health and specific situation.

It’s important to have realistic expectations about the potential outcomes of third-line therapy. Although remission may be unlikely, third-line therapy can still play a role in managing the disease.

Navigating advanced cancer treatment is very complex. The patient and physician must together consider detailed explanations and clarifications to set expectations and make informed decisions about care.
 

Interventions to Consider Earlier

In traditional clinical oncology practice, other interventions are possible, but these may not be offered until treatment has reached the third line:

• Molecular testing.
• Palliation.
• Clinical trials.
• Innovative testing to guide targeted therapy by ascertaining which agents are most likely (or not likely at all) to be effective.

I would argue that the patient’s interests are better served by considering and offering these other interventions much earlier, even before starting first-line chemotherapy.

Molecular testing. The best time for molecular testing of a new malignant tumor is typically at the time of diagnosis. Here’s why:

• Molecular testing helps identify specific genetic mutations in the cancer cells. This information can be crucial for selecting targeted therapies that are most effective against those specific mutations. Early detection allows for the most treatment options. For example, for non–small cell lung cancer, early is best because treatment and outcomes may well be changed by test results.
• Knowing the tumor’s molecular makeup can help determine whether a patient qualifies for clinical trials of new drugs designed for specific mutations.
• Some molecular markers can offer information about the tumor’s aggressiveness and potential for metastasis so that prognosis can be informed.

Molecular testing can be a valuable tool throughout a cancer patient’s journey. With genetically diverse tumors, the initial biopsy might not capture the full picture. Molecular testing of circulating tumor DNA can be used to monitor a patient’s response to treatment and detect potential mutations that might arise during treatment resistance. Retesting after metastasis can provide additional information that can aid in treatment decisions.

Palliative care. The ideal time to discuss palliative care with a patient with cancer is early in the diagnosis and treatment process. Palliative care is not the same as hospice care; it isn’t just about end-of-life. Palliative care focuses on improving a patient’s quality of life throughout cancer treatment. Palliative care specialists can address a wide range of symptoms a patient might experience from cancer or its treatment, including pain, fatigue, nausea, and anxiety.

Early discussions allow for a more comprehensive care plan. Open communication about all treatment options, including palliative care, empowers patients to make informed decisions about their care goals and preferences.

Specific situations where discussing palliative care might be appropriate are:

• Soon after a cancer diagnosis.
• If the patient experiences significant side effects from cancer treatment.
• When considering different treatment options, palliative care can complement those treatments.
• In advanced stages of cancer, to focus on comfort and quality of life.

Clinical trials. Participation in a clinical trial to explore new or investigational treatments should always be considered.

In theory, clinical trials should be an option at any time in the patient’s course. But the organized clinical trial experience may not be available or appropriate. Then, the individual becomes a de facto “clinical trial with an n of 1.” Read this brief open-access blog post at Cancer Commons to learn more about that circumstance.

Innovative testing. The best choice of chemotherapeutic or targeted therapies is often unclear. The clinician is likely to follow published guidelines, often from the National Comprehensive Cancer Network.

These are evidence based and driven by consensus of experts. But guideline-recommended therapy is not always effective, and weeks or months can pass before this ineffectiveness becomes apparent. Thus, many researchers and companies are seeking methods of testing each patient’s specific cancer to determine in advance, or very quickly, whether a particular drug is likely to be effective.

Read more about these leading innovations:

SAGE Oncotest: Entering the Next Generation of Tailored Cancer Treatment

Alibrex: A New Blood Test to Reveal Whether a Cancer Treatment is Working

PARIS Test Uses Lab-Grown Mini-Tumors to Find a Patient’s Best Treatment

Using Live Cells from Patients to Find the Right Cancer Drug

Other innovative therapies under investigation could even be agnostic to cancer type:

Treating Pancreatic Cancer: Could Metabolism — Not Genomics — Be the Key?

High-Energy Blue Light Powers a Promising New Treatment to Destroy Cancer Cells

All-Clear Follow-Up: Hydrogen Peroxide Appears to Treat Oral and Skin Lesions

Cancer is a tough nut to crack. Many people and organizations are trying very hard. So much is being learned. Some approaches will be effective. We can all hope.

Dr. Lundberg, editor in chief, Cancer Commons, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Each year in the United States, approximately 1.7 million Americans are diagnosed with a potentially lethal malignancy. Typical therapies of choice include surgery, radiation, and occasionally, toxic chemotherapy (chemo) — approaches that eliminate the cancer in about 1,000,000 of these cases. The remaining 700,000 or so often proceed to chemotherapy either immediately or upon cancer recurrence, spread, or newly recognized metastases. “Cures” after that point are rare.

I’m speaking in generalities, understanding that each cancer and each patient is unique.
 

Chemotherapy

Chemotherapy alone can cure a small number of cancer types. When added to radiation or surgery, chemotherapy can help to cure a wider range of cancer types. As an add-on, chemotherapy can extend the length and quality of life for many patients with cancer. Since chemotherapy is by definition “toxic,” it can also shorten the duration or harm the quality of life and provide false hope. The Table summarizes what chemotherapy can and cannot achieve in selected cancer types.

• Lack of response (the tumor failed to shrink).
• Progression (the cancer may have grown or spread further).
• Adverse side effects were too severe to continue.

The drugs used in second-line chemo will typically be different from those used in first line, sometimes because cancer cells can develop resistance to chemotherapy drugs over time. Moreover, the goal of second-line chemo may differ from that of first-line therapy. Rather than chiefly aiming for a cure, second-line treatment might focus on slowing cancer growth, managing symptoms, or improving quality of life. Unfortunately, not every type of cancer has a readily available second-line option.

Third-line treatment. Third-line options come into play when both the initial course of chemo (first line) and the subsequent treatment (second line) have failed to achieve remission or control the cancer’s spread. Owing to the progressive nature of advanced cancers, patients might not be eligible or healthy enough for third-line therapy. Depending on cancer type, the patient’s general health, and response to previous treatments, third-line options could include:

• New or different chemotherapy drugs compared with prior lines.
• Surgery to debulk the tumor.
• Radiation for symptom control.
• Targeted therapy: drugs designed to target specific vulnerabilities in cancer cells.
• Immunotherapy: agents that help the body’s immune system fight cancer cells.
• Clinical trials testing new or investigational treatments, which may be applicable at any time, depending on the questions being addressed.

The goals of third-line therapy may shift from aiming for a cure to managing symptoms, improving quality of life, and potentially slowing cancer growth. The decision to pursue third-line therapy involves careful consideration by the doctor and patient, weighing the potential benefits and risks of treatment considering the individual’s overall health and specific situation.

It’s important to have realistic expectations about the potential outcomes of third-line therapy. Although remission may be unlikely, third-line therapy can still play a role in managing the disease.

Navigating advanced cancer treatment is very complex. The patient and physician must together consider detailed explanations and clarifications to set expectations and make informed decisions about care.
 

Interventions to Consider Earlier

In traditional clinical oncology practice, other interventions are possible, but these may not be offered until treatment has reached the third line:

• Molecular testing.
• Palliation.
• Clinical trials.
• Innovative testing to guide targeted therapy by ascertaining which agents are most likely (or not likely at all) to be effective.

I would argue that the patient’s interests are better served by considering and offering these other interventions much earlier, even before starting first-line chemotherapy.

Molecular testing. The best time for molecular testing of a new malignant tumor is typically at the time of diagnosis. Here’s why:

• Molecular testing helps identify specific genetic mutations in the cancer cells. This information can be crucial for selecting targeted therapies that are most effective against those specific mutations. Early detection allows for the most treatment options. For example, for non–small cell lung cancer, early is best because treatment and outcomes may well be changed by test results.
• Knowing the tumor’s molecular makeup can help determine whether a patient qualifies for clinical trials of new drugs designed for specific mutations.
• Some molecular markers can offer information about the tumor’s aggressiveness and potential for metastasis so that prognosis can be informed.

Molecular testing can be a valuable tool throughout a cancer patient’s journey. With genetically diverse tumors, the initial biopsy might not capture the full picture. Molecular testing of circulating tumor DNA can be used to monitor a patient’s response to treatment and detect potential mutations that might arise during treatment resistance. Retesting after metastasis can provide additional information that can aid in treatment decisions.

Palliative care. The ideal time to discuss palliative care with a patient with cancer is early in the diagnosis and treatment process. Palliative care is not the same as hospice care; it isn’t just about end-of-life. Palliative care focuses on improving a patient’s quality of life throughout cancer treatment. Palliative care specialists can address a wide range of symptoms a patient might experience from cancer or its treatment, including pain, fatigue, nausea, and anxiety.

Early discussions allow for a more comprehensive care plan. Open communication about all treatment options, including palliative care, empowers patients to make informed decisions about their care goals and preferences.

Specific situations where discussing palliative care might be appropriate are:

• Soon after a cancer diagnosis.
• If the patient experiences significant side effects from cancer treatment.
• When considering different treatment options, palliative care can complement those treatments.
• In advanced stages of cancer, to focus on comfort and quality of life.

Clinical trials. Participation in a clinical trial to explore new or investigational treatments should always be considered.

In theory, clinical trials should be an option at any time in the patient’s course. But the organized clinical trial experience may not be available or appropriate. Then, the individual becomes a de facto “clinical trial with an n of 1.” Read this brief open-access blog post at Cancer Commons to learn more about that circumstance.

Innovative testing. The best choice of chemotherapeutic or targeted therapies is often unclear. The clinician is likely to follow published guidelines, often from the National Comprehensive Cancer Network.

These are evidence based and driven by consensus of experts. But guideline-recommended therapy is not always effective, and weeks or months can pass before this ineffectiveness becomes apparent. Thus, many researchers and companies are seeking methods of testing each patient’s specific cancer to determine in advance, or very quickly, whether a particular drug is likely to be effective.

Read more about these leading innovations:

SAGE Oncotest: Entering the Next Generation of Tailored Cancer Treatment

Alibrex: A New Blood Test to Reveal Whether a Cancer Treatment is Working

PARIS Test Uses Lab-Grown Mini-Tumors to Find a Patient’s Best Treatment

Using Live Cells from Patients to Find the Right Cancer Drug

Other innovative therapies under investigation could even be agnostic to cancer type:

Treating Pancreatic Cancer: Could Metabolism — Not Genomics — Be the Key?

High-Energy Blue Light Powers a Promising New Treatment to Destroy Cancer Cells

All-Clear Follow-Up: Hydrogen Peroxide Appears to Treat Oral and Skin Lesions

Cancer is a tough nut to crack. Many people and organizations are trying very hard. So much is being learned. Some approaches will be effective. We can all hope.

Dr. Lundberg, editor in chief, Cancer Commons, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

New research adds to a growing body of evidence suggesting that COVID-19 infection can be hard on mental health. 

The UK study of more than 18 million adults showed an elevated rate of mental illness, including depression and serious mental illness, for up to a year following a bout of COVID-19, particularly in those with severe COVID who had not been vaccinated. 

Importantly, vaccination appeared to mitigate the adverse effects of COVID-19 on mental health, the investigators found. 

“Our results highlight the importance COVID-19 vaccination in the general population and particularly among those with mental illnesses, who may be at higher risk of both SARS-CoV-2 infection and adverse outcomes following COVID-19,” first author Venexia Walker, PhD, with University of Bristol, United Kingdom, said in a news release. 

The study was published online on August 21 in JAMA Psychiatry.
 

Novel Data

“Before this study, a number of papers had looked at associations of COVID diagnosis with mental ill health, and broadly speaking, they had reported associations of different magnitudes,” study author Jonathan A. C. Sterne, PhD, with University of Bristol, noted in a journal podcast. 

“Some studies were restricted to patients who were hospitalized with COVID-19 and some not and the duration of follow-up varied. And importantly, the nature of COVID-19 changed profoundly as vaccination became available and there was little data on the impact of vaccination on associations of COVID-19 with subsequent mental ill health,” Dr. Sterne said. 

The UK study was conducted in three cohorts — a cohort of about 18.6 million people who were diagnosed with COVID-19 before a vaccine was available, a cohort of about 14 million adults who were vaccinated, and a cohort of about 3.2 million people who were unvaccinated.

The researchers compared rates of various mental illnesses after COVID-19 with rates before or without COVID-19 and by vaccination status.

Across all cohorts, rates of most mental illnesses examined were “markedly elevated” during the first month following a COVID-19 diagnosis compared with rates before or without COVID-19.

For example, the adjusted hazard ratios for depression (the most common illness) and serious mental illness in the month after COVID-19 were 1.93 and 1.49, respectively, in the prevaccination cohort and 1.79 and 1.45, respectively, in the unvaccinated cohort compared with 1.16 and 0.91 in the vaccinated cohort.

This elevation in the rate of mental illnesses was mainly seen after severe COVID-19 that led to hospitalization and remained higher for up to a year following severe COVID-19 in unvaccinated adults.

For severe COVID-19 with hospitalization, the adjusted hazard ratio for depression in the month following admission was 16.3 in the prevaccine cohort, 15.6 in the unvaccinated cohort, and 12.9 in the vaccinated cohort.

The adjusted hazard ratios for serious mental illness in the month after COVID hospitalization was 9.71 in the prevaccine cohort, 8.75 with no vaccination, and 6.52 with vaccination. 

“Incidences of other mental illnesses were broadly similar to those of depression and serious mental illness, both overall and for COVID-19 with and without hospitalization,” the authors report in their paper.

Consistent with prior research, subgroup analyzes found the association of COVID-19 and mental illness was stronger among older adults and men, with no marked differences by ethnic group.

“We should be concerned about continuing consequences in people who experienced severe COVID-19 early in the pandemic, and they may include a continuing higher incidence of mental ill health, such as depression and serious mental illness,” Dr. Sterne said in the podcast. 

In terms of ongoing booster vaccinations, “people who are advised that they are under vaccinated or recommended for further COVID-19 vaccination, should take those invitations seriously, because by preventing severe COVID-19, which is what vaccination does, you can prevent consequences such as mental illness,” Dr. Sterne added. 

The study was supported by the COVID-19 Longitudinal Health and Wellbeing National Core Study, which is funded by the Medical Research Council and National Institute for Health and Care Research. The authors had no relevant conflicts of interest.
 

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

New research adds to a growing body of evidence suggesting that COVID-19 infection can be hard on mental health. 

The UK study of more than 18 million adults showed an elevated rate of mental illness, including depression and serious mental illness, for up to a year following a bout of COVID-19, particularly in those with severe COVID who had not been vaccinated. 

Importantly, vaccination appeared to mitigate the adverse effects of COVID-19 on mental health, the investigators found. 

“Our results highlight the importance COVID-19 vaccination in the general population and particularly among those with mental illnesses, who may be at higher risk of both SARS-CoV-2 infection and adverse outcomes following COVID-19,” first author Venexia Walker, PhD, with University of Bristol, United Kingdom, said in a news release. 

The study was published online on August 21 in JAMA Psychiatry.
 

Novel Data

“Before this study, a number of papers had looked at associations of COVID diagnosis with mental ill health, and broadly speaking, they had reported associations of different magnitudes,” study author Jonathan A. C. Sterne, PhD, with University of Bristol, noted in a journal podcast. 

“Some studies were restricted to patients who were hospitalized with COVID-19 and some not and the duration of follow-up varied. And importantly, the nature of COVID-19 changed profoundly as vaccination became available and there was little data on the impact of vaccination on associations of COVID-19 with subsequent mental ill health,” Dr. Sterne said. 

The UK study was conducted in three cohorts — a cohort of about 18.6 million people who were diagnosed with COVID-19 before a vaccine was available, a cohort of about 14 million adults who were vaccinated, and a cohort of about 3.2 million people who were unvaccinated.

The researchers compared rates of various mental illnesses after COVID-19 with rates before or without COVID-19 and by vaccination status.

Across all cohorts, rates of most mental illnesses examined were “markedly elevated” during the first month following a COVID-19 diagnosis compared with rates before or without COVID-19.

For example, the adjusted hazard ratios for depression (the most common illness) and serious mental illness in the month after COVID-19 were 1.93 and 1.49, respectively, in the prevaccination cohort and 1.79 and 1.45, respectively, in the unvaccinated cohort compared with 1.16 and 0.91 in the vaccinated cohort.

This elevation in the rate of mental illnesses was mainly seen after severe COVID-19 that led to hospitalization and remained higher for up to a year following severe COVID-19 in unvaccinated adults.

For severe COVID-19 with hospitalization, the adjusted hazard ratio for depression in the month following admission was 16.3 in the prevaccine cohort, 15.6 in the unvaccinated cohort, and 12.9 in the vaccinated cohort.

The adjusted hazard ratios for serious mental illness in the month after COVID hospitalization was 9.71 in the prevaccine cohort, 8.75 with no vaccination, and 6.52 with vaccination. 

“Incidences of other mental illnesses were broadly similar to those of depression and serious mental illness, both overall and for COVID-19 with and without hospitalization,” the authors report in their paper.

Consistent with prior research, subgroup analyzes found the association of COVID-19 and mental illness was stronger among older adults and men, with no marked differences by ethnic group.

“We should be concerned about continuing consequences in people who experienced severe COVID-19 early in the pandemic, and they may include a continuing higher incidence of mental ill health, such as depression and serious mental illness,” Dr. Sterne said in the podcast. 

In terms of ongoing booster vaccinations, “people who are advised that they are under vaccinated or recommended for further COVID-19 vaccination, should take those invitations seriously, because by preventing severe COVID-19, which is what vaccination does, you can prevent consequences such as mental illness,” Dr. Sterne added. 

The study was supported by the COVID-19 Longitudinal Health and Wellbeing National Core Study, which is funded by the Medical Research Council and National Institute for Health and Care Research. The authors had no relevant conflicts of interest.
 

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

New research adds to a growing body of evidence suggesting that COVID-19 infection can be hard on mental health. 

The UK study of more than 18 million adults showed an elevated rate of mental illness, including depression and serious mental illness, for up to a year following a bout of COVID-19, particularly in those with severe COVID who had not been vaccinated. 

Importantly, vaccination appeared to mitigate the adverse effects of COVID-19 on mental health, the investigators found. 

“Our results highlight the importance COVID-19 vaccination in the general population and particularly among those with mental illnesses, who may be at higher risk of both SARS-CoV-2 infection and adverse outcomes following COVID-19,” first author Venexia Walker, PhD, with University of Bristol, United Kingdom, said in a news release. 

The study was published online on August 21 in JAMA Psychiatry.
 

Novel Data

“Before this study, a number of papers had looked at associations of COVID diagnosis with mental ill health, and broadly speaking, they had reported associations of different magnitudes,” study author Jonathan A. C. Sterne, PhD, with University of Bristol, noted in a journal podcast. 

“Some studies were restricted to patients who were hospitalized with COVID-19 and some not and the duration of follow-up varied. And importantly, the nature of COVID-19 changed profoundly as vaccination became available and there was little data on the impact of vaccination on associations of COVID-19 with subsequent mental ill health,” Dr. Sterne said. 

The UK study was conducted in three cohorts — a cohort of about 18.6 million people who were diagnosed with COVID-19 before a vaccine was available, a cohort of about 14 million adults who were vaccinated, and a cohort of about 3.2 million people who were unvaccinated.

The researchers compared rates of various mental illnesses after COVID-19 with rates before or without COVID-19 and by vaccination status.

Across all cohorts, rates of most mental illnesses examined were “markedly elevated” during the first month following a COVID-19 diagnosis compared with rates before or without COVID-19.

For example, the adjusted hazard ratios for depression (the most common illness) and serious mental illness in the month after COVID-19 were 1.93 and 1.49, respectively, in the prevaccination cohort and 1.79 and 1.45, respectively, in the unvaccinated cohort compared with 1.16 and 0.91 in the vaccinated cohort.

This elevation in the rate of mental illnesses was mainly seen after severe COVID-19 that led to hospitalization and remained higher for up to a year following severe COVID-19 in unvaccinated adults.

For severe COVID-19 with hospitalization, the adjusted hazard ratio for depression in the month following admission was 16.3 in the prevaccine cohort, 15.6 in the unvaccinated cohort, and 12.9 in the vaccinated cohort.

The adjusted hazard ratios for serious mental illness in the month after COVID hospitalization was 9.71 in the prevaccine cohort, 8.75 with no vaccination, and 6.52 with vaccination. 

“Incidences of other mental illnesses were broadly similar to those of depression and serious mental illness, both overall and for COVID-19 with and without hospitalization,” the authors report in their paper.

Consistent with prior research, subgroup analyzes found the association of COVID-19 and mental illness was stronger among older adults and men, with no marked differences by ethnic group.

“We should be concerned about continuing consequences in people who experienced severe COVID-19 early in the pandemic, and they may include a continuing higher incidence of mental ill health, such as depression and serious mental illness,” Dr. Sterne said in the podcast. 

In terms of ongoing booster vaccinations, “people who are advised that they are under vaccinated or recommended for further COVID-19 vaccination, should take those invitations seriously, because by preventing severe COVID-19, which is what vaccination does, you can prevent consequences such as mental illness,” Dr. Sterne added. 

The study was supported by the COVID-19 Longitudinal Health and Wellbeing National Core Study, which is funded by the Medical Research Council and National Institute for Health and Care Research. The authors had no relevant conflicts of interest.
 

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