Endocrinology

People with subclinical hyperthyroidism are at 34% greater risk of experiencing a fracture compared with those with normal thyroid function, new research shows.

The finding, from a study of nearly 11,000 middle-aged men and women followed for a median of 2 decades, “highlights a potential role for more aggressive screening and monitoring of patients with subclinical hyperthyroidism to prevent bone mineral disease,” the researchers wrote.

Primary care physicians “should be more aware of the risks for fracture among persons with subclinical hyperthyroidism in the ambulatory setting,” Natalie R. Daya, a PhD student in epidemiology at Johns Hopkins Bloomberg School of Public Health, Baltimore, and first author of the study, told this news organization.

Ms. Daya and her colleagues published their findings in JAMA Network Open.

 

Building on earlier findings

The results agree with previous work, including a meta-analysis of 13 prospective cohort studies of 70,289 primarily White individuals with an average age of 64 years, which found that subclinical hyperthyroidism was associated with a modestly increased risk for fractures, the researchers noted.

“Our study extends these findings to a younger, community-based cohort that included both Black and White participants, included extensive adjustment for potential confounders, and had a longer follow-up period (median follow-up of 21 years vs. 12 years),” they wrote.

The study included 10,946 participants in the Atherosclerosis Risk in Communities Study who were recruited in Washington County, Maryland; Forsyth County, North Carolina; Jackson, Mississippi; and the suburbs of Minneapolis.

Baseline thyroid function was measured in blood samples collected during the second visit, which occurred between 1990 and 1992. No participants in the new analysis took thyroid medications or had a history of hospitalization for fractures at baseline, and all identified as Black or White. The mean age was 57 years, 24% were Black, and 54.3% were female.

Subclinical hyperthyroidism was defined as a thyrotropin level less than 0.56 mIU/L; subclinical hypothyroidism as a thyrotropin level greater than 5.1 mIU/L; and normal thyroid function as a thyrotropin level between 0.56 and 5.1 mIU/L, with normal free thyroxine levels of 0.85-1.4 ng/dL.

The vast majority (93%) of participants had normal thyroid function, 2.6% had subclinical hyperthyroidism, and 4.4% had subclinical hypothyroidism, according to the researchers.

Median follow-up was 21 years. The researchers identified 3,556 incident fractures, detected with hospitalization discharge codes through 2019 and inpatient and Medicare claims data through 2018, for a rate of 167.1 per 10,000 person-years.

Adjusted hazard ratios for fracture were 1.34 (95% confidence interval [CI], 1.09-1.65) for people with subclinical hyperthyroidism and 0.90 (95% CI, 0.77-1.05) for those with subclinical hypothyroidism, compared with those with normal thyroid function.

Most fractures occurred in either the hip (14.1%) or spine (13.8%), according to the researchers.

Limitations included a lack of thyroid function data during the follow-up period and lack of data on bone mineral density, the researchers wrote.
 

‘An important risk factor’

Endocrinologist Michael McClung, MD, founding and emeritus director of the Oregon Osteoporosis Center, Portland, who was not involved in the study, pointed out that both subclinical hypothyroidism and subclinical hyperthyroidism have been linked to greater risk for cardiovascular disease as well as fracture.

The new paper underscores that subclinical hyperthyroidism “should be included as an important risk factor” for fracture as well as cardiovascular risk, Dr. McClung said in an interview. In considering whether to treat osteoporosis, subclinical hyperthyroidism “may be enough to tip the balance in favor of pharmacological therapy,” he added.

Thyroid-stimulating hormone (TSH) tests to assess thyroid function are typically ordered only if a patient has symptoms of hyperthyroidism or hypothyroidism, Ms. Daya said. Depending on the cause and severity of a low TSH level, a physician may prescribe methimazole or radioactive iodine therapy to reduce the production of thyroxine, she said.

However, well-designed studies are needed to evaluate whether treatment of subclinical thyroid dysfunction reduces the risk for fracture or cardiovascular problems and assess downsides such as side effects, costs, and psychological harm, Dr. McClung noted.

The U.S. Preventive Services Task Force concluded in 2015 that the data were insufficient to recommend screening for thyroid dysfunction in adults without symptoms. As of a year ago, no new evidence has emerged to support an update, according to the task force’s website.

“Until those studies are available, selective screening of thyroid function should be considered in all patients undergoing risk assessment for cardiovascular disease or skeletal health,” Dr. McClung said.

The Atherosclerosis Risk in Communities Study has been funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health (NIH) and the U.S. Department of Health and Human Services. Ms. Daya and four study authors reported receiving NIH grants during the study period. Dr. McClung reported no relevant financial conflicts of interest.

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

People with subclinical hyperthyroidism are at 34% greater risk of experiencing a fracture compared with those with normal thyroid function, new research shows.

The finding, from a study of nearly 11,000 middle-aged men and women followed for a median of 2 decades, “highlights a potential role for more aggressive screening and monitoring of patients with subclinical hyperthyroidism to prevent bone mineral disease,” the researchers wrote.

Primary care physicians “should be more aware of the risks for fracture among persons with subclinical hyperthyroidism in the ambulatory setting,” Natalie R. Daya, a PhD student in epidemiology at Johns Hopkins Bloomberg School of Public Health, Baltimore, and first author of the study, told this news organization.

Ms. Daya and her colleagues published their findings in JAMA Network Open.

 

Building on earlier findings

The results agree with previous work, including a meta-analysis of 13 prospective cohort studies of 70,289 primarily White individuals with an average age of 64 years, which found that subclinical hyperthyroidism was associated with a modestly increased risk for fractures, the researchers noted.

“Our study extends these findings to a younger, community-based cohort that included both Black and White participants, included extensive adjustment for potential confounders, and had a longer follow-up period (median follow-up of 21 years vs. 12 years),” they wrote.

The study included 10,946 participants in the Atherosclerosis Risk in Communities Study who were recruited in Washington County, Maryland; Forsyth County, North Carolina; Jackson, Mississippi; and the suburbs of Minneapolis.

Baseline thyroid function was measured in blood samples collected during the second visit, which occurred between 1990 and 1992. No participants in the new analysis took thyroid medications or had a history of hospitalization for fractures at baseline, and all identified as Black or White. The mean age was 57 years, 24% were Black, and 54.3% were female.

Subclinical hyperthyroidism was defined as a thyrotropin level less than 0.56 mIU/L; subclinical hypothyroidism as a thyrotropin level greater than 5.1 mIU/L; and normal thyroid function as a thyrotropin level between 0.56 and 5.1 mIU/L, with normal free thyroxine levels of 0.85-1.4 ng/dL.

The vast majority (93%) of participants had normal thyroid function, 2.6% had subclinical hyperthyroidism, and 4.4% had subclinical hypothyroidism, according to the researchers.

Median follow-up was 21 years. The researchers identified 3,556 incident fractures, detected with hospitalization discharge codes through 2019 and inpatient and Medicare claims data through 2018, for a rate of 167.1 per 10,000 person-years.

Adjusted hazard ratios for fracture were 1.34 (95% confidence interval [CI], 1.09-1.65) for people with subclinical hyperthyroidism and 0.90 (95% CI, 0.77-1.05) for those with subclinical hypothyroidism, compared with those with normal thyroid function.

Most fractures occurred in either the hip (14.1%) or spine (13.8%), according to the researchers.

Limitations included a lack of thyroid function data during the follow-up period and lack of data on bone mineral density, the researchers wrote.
 

‘An important risk factor’

Endocrinologist Michael McClung, MD, founding and emeritus director of the Oregon Osteoporosis Center, Portland, who was not involved in the study, pointed out that both subclinical hypothyroidism and subclinical hyperthyroidism have been linked to greater risk for cardiovascular disease as well as fracture.

The new paper underscores that subclinical hyperthyroidism “should be included as an important risk factor” for fracture as well as cardiovascular risk, Dr. McClung said in an interview. In considering whether to treat osteoporosis, subclinical hyperthyroidism “may be enough to tip the balance in favor of pharmacological therapy,” he added.

Thyroid-stimulating hormone (TSH) tests to assess thyroid function are typically ordered only if a patient has symptoms of hyperthyroidism or hypothyroidism, Ms. Daya said. Depending on the cause and severity of a low TSH level, a physician may prescribe methimazole or radioactive iodine therapy to reduce the production of thyroxine, she said.

However, well-designed studies are needed to evaluate whether treatment of subclinical thyroid dysfunction reduces the risk for fracture or cardiovascular problems and assess downsides such as side effects, costs, and psychological harm, Dr. McClung noted.

The U.S. Preventive Services Task Force concluded in 2015 that the data were insufficient to recommend screening for thyroid dysfunction in adults without symptoms. As of a year ago, no new evidence has emerged to support an update, according to the task force’s website.

“Until those studies are available, selective screening of thyroid function should be considered in all patients undergoing risk assessment for cardiovascular disease or skeletal health,” Dr. McClung said.

The Atherosclerosis Risk in Communities Study has been funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health (NIH) and the U.S. Department of Health and Human Services. Ms. Daya and four study authors reported receiving NIH grants during the study period. Dr. McClung reported no relevant financial conflicts of interest.

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

People with subclinical hyperthyroidism are at 34% greater risk of experiencing a fracture compared with those with normal thyroid function, new research shows.

The finding, from a study of nearly 11,000 middle-aged men and women followed for a median of 2 decades, “highlights a potential role for more aggressive screening and monitoring of patients with subclinical hyperthyroidism to prevent bone mineral disease,” the researchers wrote.

Primary care physicians “should be more aware of the risks for fracture among persons with subclinical hyperthyroidism in the ambulatory setting,” Natalie R. Daya, a PhD student in epidemiology at Johns Hopkins Bloomberg School of Public Health, Baltimore, and first author of the study, told this news organization.

Ms. Daya and her colleagues published their findings in JAMA Network Open.

 

Building on earlier findings

The results agree with previous work, including a meta-analysis of 13 prospective cohort studies of 70,289 primarily White individuals with an average age of 64 years, which found that subclinical hyperthyroidism was associated with a modestly increased risk for fractures, the researchers noted.

“Our study extends these findings to a younger, community-based cohort that included both Black and White participants, included extensive adjustment for potential confounders, and had a longer follow-up period (median follow-up of 21 years vs. 12 years),” they wrote.

The study included 10,946 participants in the Atherosclerosis Risk in Communities Study who were recruited in Washington County, Maryland; Forsyth County, North Carolina; Jackson, Mississippi; and the suburbs of Minneapolis.

Baseline thyroid function was measured in blood samples collected during the second visit, which occurred between 1990 and 1992. No participants in the new analysis took thyroid medications or had a history of hospitalization for fractures at baseline, and all identified as Black or White. The mean age was 57 years, 24% were Black, and 54.3% were female.

Subclinical hyperthyroidism was defined as a thyrotropin level less than 0.56 mIU/L; subclinical hypothyroidism as a thyrotropin level greater than 5.1 mIU/L; and normal thyroid function as a thyrotropin level between 0.56 and 5.1 mIU/L, with normal free thyroxine levels of 0.85-1.4 ng/dL.

The vast majority (93%) of participants had normal thyroid function, 2.6% had subclinical hyperthyroidism, and 4.4% had subclinical hypothyroidism, according to the researchers.

Median follow-up was 21 years. The researchers identified 3,556 incident fractures, detected with hospitalization discharge codes through 2019 and inpatient and Medicare claims data through 2018, for a rate of 167.1 per 10,000 person-years.

Adjusted hazard ratios for fracture were 1.34 (95% confidence interval [CI], 1.09-1.65) for people with subclinical hyperthyroidism and 0.90 (95% CI, 0.77-1.05) for those with subclinical hypothyroidism, compared with those with normal thyroid function.

Most fractures occurred in either the hip (14.1%) or spine (13.8%), according to the researchers.

Limitations included a lack of thyroid function data during the follow-up period and lack of data on bone mineral density, the researchers wrote.
 

‘An important risk factor’

Endocrinologist Michael McClung, MD, founding and emeritus director of the Oregon Osteoporosis Center, Portland, who was not involved in the study, pointed out that both subclinical hypothyroidism and subclinical hyperthyroidism have been linked to greater risk for cardiovascular disease as well as fracture.

The new paper underscores that subclinical hyperthyroidism “should be included as an important risk factor” for fracture as well as cardiovascular risk, Dr. McClung said in an interview. In considering whether to treat osteoporosis, subclinical hyperthyroidism “may be enough to tip the balance in favor of pharmacological therapy,” he added.

Thyroid-stimulating hormone (TSH) tests to assess thyroid function are typically ordered only if a patient has symptoms of hyperthyroidism or hypothyroidism, Ms. Daya said. Depending on the cause and severity of a low TSH level, a physician may prescribe methimazole or radioactive iodine therapy to reduce the production of thyroxine, she said.

However, well-designed studies are needed to evaluate whether treatment of subclinical thyroid dysfunction reduces the risk for fracture or cardiovascular problems and assess downsides such as side effects, costs, and psychological harm, Dr. McClung noted.

The U.S. Preventive Services Task Force concluded in 2015 that the data were insufficient to recommend screening for thyroid dysfunction in adults without symptoms. As of a year ago, no new evidence has emerged to support an update, according to the task force’s website.

“Until those studies are available, selective screening of thyroid function should be considered in all patients undergoing risk assessment for cardiovascular disease or skeletal health,” Dr. McClung said.

The Atherosclerosis Risk in Communities Study has been funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health (NIH) and the U.S. Department of Health and Human Services. Ms. Daya and four study authors reported receiving NIH grants during the study period. Dr. McClung reported no relevant financial conflicts of interest.

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

Motherhood can create changes in the body down to the bone, a new study shows.

Female primates who had been pregnant showed lower levels of calcium, magnesium, and phosphorous in their bones, revealing for the first time new ways that females are changed by pregnancy and breastfeeding, according to a study published by PLOS One.

“Our findings provide additional evidence of the profound impact that reproduction has on the female organism, further demonstrating that the skeleton is not a static organ but a dynamic one that changes with life events,” said lead author and New York University doctoral student Paola Cerrito in a news release.

The study evaluated the bones of rhesus macaques, also known as rhesus monkeys, which share 93% of genes with humans, according to the National Primate Research Centers. They have been used in research that paved the way for many medical breakthroughs such as treatments for HIV/AIDS; they’re also used in Alzheimer’s research.

Menopause has long been known to impact bone health, which is tied to calcium and phosphorous levels. This latest research does not address how bone health is affected by pregnancy and lactation but further points to the everchanging state of bones based on life events.

“Our research shows that even before the cessation of fertility, the skeleton responds dynamically to changes in reproductive status,” Ms. Cerrito said. “Moreover, these findings reaffirm the significant impact giving birth has on a female organism – quite simply, evidence of reproduction is ‘written in the bones’ for life.”

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

Motherhood can create changes in the body down to the bone, a new study shows.

Female primates who had been pregnant showed lower levels of calcium, magnesium, and phosphorous in their bones, revealing for the first time new ways that females are changed by pregnancy and breastfeeding, according to a study published by PLOS One.

“Our findings provide additional evidence of the profound impact that reproduction has on the female organism, further demonstrating that the skeleton is not a static organ but a dynamic one that changes with life events,” said lead author and New York University doctoral student Paola Cerrito in a news release.

The study evaluated the bones of rhesus macaques, also known as rhesus monkeys, which share 93% of genes with humans, according to the National Primate Research Centers. They have been used in research that paved the way for many medical breakthroughs such as treatments for HIV/AIDS; they’re also used in Alzheimer’s research.

Menopause has long been known to impact bone health, which is tied to calcium and phosphorous levels. This latest research does not address how bone health is affected by pregnancy and lactation but further points to the everchanging state of bones based on life events.

“Our research shows that even before the cessation of fertility, the skeleton responds dynamically to changes in reproductive status,” Ms. Cerrito said. “Moreover, these findings reaffirm the significant impact giving birth has on a female organism – quite simply, evidence of reproduction is ‘written in the bones’ for life.”

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

Motherhood can create changes in the body down to the bone, a new study shows.

Female primates who had been pregnant showed lower levels of calcium, magnesium, and phosphorous in their bones, revealing for the first time new ways that females are changed by pregnancy and breastfeeding, according to a study published by PLOS One.

“Our findings provide additional evidence of the profound impact that reproduction has on the female organism, further demonstrating that the skeleton is not a static organ but a dynamic one that changes with life events,” said lead author and New York University doctoral student Paola Cerrito in a news release.

The study evaluated the bones of rhesus macaques, also known as rhesus monkeys, which share 93% of genes with humans, according to the National Primate Research Centers. They have been used in research that paved the way for many medical breakthroughs such as treatments for HIV/AIDS; they’re also used in Alzheimer’s research.

Menopause has long been known to impact bone health, which is tied to calcium and phosphorous levels. This latest research does not address how bone health is affected by pregnancy and lactation but further points to the everchanging state of bones based on life events.

“Our research shows that even before the cessation of fertility, the skeleton responds dynamically to changes in reproductive status,” Ms. Cerrito said. “Moreover, these findings reaffirm the significant impact giving birth has on a female organism – quite simply, evidence of reproduction is ‘written in the bones’ for life.”

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

Katrina Ubell, MD, listened with growing skepticism as the dietician outlined her weight-loss plan. “You’re going to have to eat a snack in the afternoon,” she instructed.

Dr. Ubell refrained from rolling her eyes. The afternoon was in the middle of clinic. “I’m not ever going to do that,” she tried to explain. “I can’t.”

“Of course, you can,” the dietician insisted. “You shouldn’t think that way. You get to decide.”

“She wasn’t wrong about that,” Dr. Ubell conceded years later. But the well-meaning dietician couldn’t understand the reality of life as a physician. As a pediatrician, Dr. Ubell could visualize how her afternoon would play out. “You’re already 40 minutes behind. This mom needs to get home to get her kid off the bus. This mom, her toddler is losing his mind because he needs a nap. You’re not going to say: ‘Sorry, I need to eat some carrots and hummus.’ ”

Most of what the dieting realm recommends for weight loss, Dr. Ubell discovered, seems only relevant to people with a consistent 9 to 5 schedule. That was not her life. Neither was she looking for one of the many diet plans based on self-denial and will power. Having already lost and gained back 40 pounds several times, she knew these methods were not effective long term.

What were other overweight doctors doing? she wondered. Someone must know how to help doctors lose weight. But her Google searches revealed ... nothing. No one was offering a useful diet or exercise plan specifically for physicians.

Dr. Ubell’s search for answers led to the world of life coaching, and eventually she became a master-certified life and weight-loss coach, working exclusively with women-identifying physicians.

The field is small. Very few weight-loss programs are solely for physicians, whose stress levels, unpredictable schedules, and high-achieving mindset pose unique challenges. Among the constantly changing diet fads, few would likely work for the surgeon confined to an operating room for 9 hours at a time or the anesthesiologist who can’t even manage to drink water during the workday.

Dr. Ubell set out to create a weight-loss program rooted in the physical and mental demands of medical practice. In the process, she lost 45 pounds.
 

Step 1: Acknowledge that doctors are, unfortunately, human

Dr. Ubell’s approach to food combines concepts from cognitive-behavioral therapy with personalized eating plans, coaching, and support from a community of doctors.

All of this stems from her own experience with emotional eating, which she said many doctors use to process their stress and exhaustion. This is a direct result of needing to repress emotions while caring for patients but lacking guidance on how to manage those feelings outside of work.

“That kind of behavior, being what we call ‘professional,’ but really emotionally shut down, is prized and valued in medicine,” Dr. Ubell said. “I’m not saying we should be open all the time. But we’re not given any tools for what to do at the end of the day. In my case, it was eating. For other people, it’s drinking more than they would like, spending money, gambling, basically just numbing behavior.”

Dr. Ubell said only 20% of her work with clients revolves around what to eat. The other 80% is about managing the thoughts, beliefs, and emotions that negatively affect their lives, teaching them how to cope “without food as the crutch.” Once the problems regarding eating are resolved, clients can begin to address all the problems they were using food to obscure.

“A lot of my clients really have to work on self-love, self-acceptance, self-compassion,” Dr. Ubell said. “They’re such high achievers, and often many of them think that they’ve achieved so much by being harsh with themselves and driving themselves hard. They think it’s causal, but it’s not. They have to learn, How can I be accomplished while being nice to myself?”
 

Step 2: Reassess your mindset

Ali Novitsky, MD, an obesity medicine physician and now full-time life coach, calls this attitude the “heaven’s reward fallacy.” Observed by renowned psychiatrist Aaron Beck, MD, this cognitive distortion involves imagining that hard work, struggle, and self-sacrifice must ultimately pay off, as if suffering entitles us to compensation in the future. For physicians, who are embedded in a culture of selflessness and dedication to the health of others, this often means forfeiting their own health and well-being.

For many, there is also a sense of secrecy and shame regarding health and fitness problems. As doctors, they are experts in the human body. They should already know how to lose weight. Right? And so not knowing or being unable to muster the will power for a diet plan while on call overnight or working 12-hour shifts feels like a professional failure as well as a personal one.

“As physicians, we’re so afraid to fail,” Dr. Novitsky explained. “It’s more comfortable just to not know. Maybe we’ve failed before, or maybe we didn’t get the result that we wanted, so now we can’t bear to have that happen again. It’s just way too painful.”

Dr. Novitsky – who has herself lost 50 pounds and have kept it off for 20 years – provides weight loss, intuitive eating, and fitness programs for female physicians. Her evidence-based approach aims to optimize body composition rather than hitting a number on a scale. Conscious of the physician lifestyle, she offers night and weekend meetings, sessions that can be replayed, and even an “on-call workout” series designed for being in the call room.

Dr. Novitsky notices that many of her clients are stuck in an “all-or-none” mindset. If they can’t do something perfectly with total commitment, they would rather not do it at all. With so many demands on their time and energy, something has to give, and putting their health first begins to seem selfish or hopeless. “I can speak to this,” Dr. Novitsky admitted, “because I did it to myself”

Like Dr. Ubell, Dr. Novitsky said that “most of the stuff we’re coaching on is not about their food. It’s about how they feel undervalued at work, how their relationships are suffering, how they feel super guilty as a parent. They feel like they look good on paper, but this is not the life they signed up for.”
 

Step 3: Life change equals physical change

Siobhan Key, MD, an obesity medicine and family physician, sees her own weight loss struggle as a symptom of a former lifestyle that, frankly, “sucked.”

Her grueling schedule and lack of self-care left her feeling stuck on a “hamster wheel” of work and family responsibilities. There was no space for herself. She craved the dopamine burst from junk food and felt powerless to stop reaching for Wendy’s French fries as a frequent reward. It took realizing that she was on track to develop type 2 diabetes to motivate her to change.

Where she lived also affected her struggle. Living in the small community of Prince George, B.C., local weight-loss programs were difficult for Dr. Key. It was likely that she would encounter some of her patients, which would not be a safe space to reveal her personal challenges. Searching for an expert who could explain how to eat healthy meals while on call and then working a full day afterward also yielded no solutions.

Unlike Dr. Ubell and Dr. Novitsky, Dr. Key still practices medicine. But she is also a weight-loss coach. She takes an unconventional approach by not proposing any specific diet rules or plans. Dictating which foods you can or cannot eat is like trying to fit a square peg into a round hole, Dr. Key said. It will never work long term. Instead, she wants to help her clients use both their medical knowledge and life experience to make healthy eating fit into their lives.

“Let’s stop doing things that makes our lives worse just to lose weight, because it will never be sustainable,” said Dr. Key. “Rather, let’s choose paths of losing weight and managing our eating that actually make our lives better. And those exist. They’re just not the classic diet paths that we’ve been taught before.”

Dr. Key’s program also includes advice from other physician coaches on professional struggles. For example, charting is a big one, Dr. Key said. The pressure of completing patient notes, often outside of working hours, is a major source of stress that triggers a lot of eating.

Weight loss doesn’t happen in a vacuum, Dr. Key pointed out. It isn’t the simple “eat less, exercise more” equation that physicians learned in medical school. “The reality is, weight loss and eating happen in conjunction with the rest of your life,” she said.

Find ways to make your life easier and the benefits will follow, she said. “As your life gets better, you feel more empowered. You feel less stressed. Your eating choices start to be simpler, and the cravings start to go down. You can’t have one without the other.”
 

Weight is just a symptom of a bigger problem

Dr. Ubell, Dr. Novitsky, and Dr. Key all say they have seen dramatic transformations among their clients. They don’t mean just physical ones. Dr. Ubell remembered an emergency medicine physician so miserable at work that she considered defaulting on her student loans. Dr. Novitsky recalled an anesthesiologist so insecure that she nearly passed up a scholarship to a fitness program. Dr. Key has seen clients so obsessed with what they should and shouldn’t eat that food dominated their thoughts every free minute of the day.

All these doctors, the coaches said, have been able to regain a sense of control over their lives, rethink how they show up at work and at home, and even rediscover their joy in medicine.

These changes are less about body mass index and more about confidence and self-love. For weight loss to last, according to Dr. Ubell, Dr. Novitsky, and Dr. Key, there must be permanent mental shifts that redefine one’s relationship with food.

“There’s no finish line when we’re talking about long-term weight maintenance,” Dr. Key tells physicians. “You have to be able to do it for the rest of your life.”

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

Katrina Ubell, MD, listened with growing skepticism as the dietician outlined her weight-loss plan. “You’re going to have to eat a snack in the afternoon,” she instructed.

Dr. Ubell refrained from rolling her eyes. The afternoon was in the middle of clinic. “I’m not ever going to do that,” she tried to explain. “I can’t.”

“Of course, you can,” the dietician insisted. “You shouldn’t think that way. You get to decide.”

“She wasn’t wrong about that,” Dr. Ubell conceded years later. But the well-meaning dietician couldn’t understand the reality of life as a physician. As a pediatrician, Dr. Ubell could visualize how her afternoon would play out. “You’re already 40 minutes behind. This mom needs to get home to get her kid off the bus. This mom, her toddler is losing his mind because he needs a nap. You’re not going to say: ‘Sorry, I need to eat some carrots and hummus.’ ”

Most of what the dieting realm recommends for weight loss, Dr. Ubell discovered, seems only relevant to people with a consistent 9 to 5 schedule. That was not her life. Neither was she looking for one of the many diet plans based on self-denial and will power. Having already lost and gained back 40 pounds several times, she knew these methods were not effective long term.

What were other overweight doctors doing? she wondered. Someone must know how to help doctors lose weight. But her Google searches revealed ... nothing. No one was offering a useful diet or exercise plan specifically for physicians.

Dr. Ubell’s search for answers led to the world of life coaching, and eventually she became a master-certified life and weight-loss coach, working exclusively with women-identifying physicians.

The field is small. Very few weight-loss programs are solely for physicians, whose stress levels, unpredictable schedules, and high-achieving mindset pose unique challenges. Among the constantly changing diet fads, few would likely work for the surgeon confined to an operating room for 9 hours at a time or the anesthesiologist who can’t even manage to drink water during the workday.

Dr. Ubell set out to create a weight-loss program rooted in the physical and mental demands of medical practice. In the process, she lost 45 pounds.
 

Step 1: Acknowledge that doctors are, unfortunately, human

Dr. Ubell’s approach to food combines concepts from cognitive-behavioral therapy with personalized eating plans, coaching, and support from a community of doctors.

All of this stems from her own experience with emotional eating, which she said many doctors use to process their stress and exhaustion. This is a direct result of needing to repress emotions while caring for patients but lacking guidance on how to manage those feelings outside of work.

“That kind of behavior, being what we call ‘professional,’ but really emotionally shut down, is prized and valued in medicine,” Dr. Ubell said. “I’m not saying we should be open all the time. But we’re not given any tools for what to do at the end of the day. In my case, it was eating. For other people, it’s drinking more than they would like, spending money, gambling, basically just numbing behavior.”

Dr. Ubell said only 20% of her work with clients revolves around what to eat. The other 80% is about managing the thoughts, beliefs, and emotions that negatively affect their lives, teaching them how to cope “without food as the crutch.” Once the problems regarding eating are resolved, clients can begin to address all the problems they were using food to obscure.

“A lot of my clients really have to work on self-love, self-acceptance, self-compassion,” Dr. Ubell said. “They’re such high achievers, and often many of them think that they’ve achieved so much by being harsh with themselves and driving themselves hard. They think it’s causal, but it’s not. They have to learn, How can I be accomplished while being nice to myself?”
 

Step 2: Reassess your mindset

Ali Novitsky, MD, an obesity medicine physician and now full-time life coach, calls this attitude the “heaven’s reward fallacy.” Observed by renowned psychiatrist Aaron Beck, MD, this cognitive distortion involves imagining that hard work, struggle, and self-sacrifice must ultimately pay off, as if suffering entitles us to compensation in the future. For physicians, who are embedded in a culture of selflessness and dedication to the health of others, this often means forfeiting their own health and well-being.

For many, there is also a sense of secrecy and shame regarding health and fitness problems. As doctors, they are experts in the human body. They should already know how to lose weight. Right? And so not knowing or being unable to muster the will power for a diet plan while on call overnight or working 12-hour shifts feels like a professional failure as well as a personal one.

“As physicians, we’re so afraid to fail,” Dr. Novitsky explained. “It’s more comfortable just to not know. Maybe we’ve failed before, or maybe we didn’t get the result that we wanted, so now we can’t bear to have that happen again. It’s just way too painful.”

Dr. Novitsky – who has herself lost 50 pounds and have kept it off for 20 years – provides weight loss, intuitive eating, and fitness programs for female physicians. Her evidence-based approach aims to optimize body composition rather than hitting a number on a scale. Conscious of the physician lifestyle, she offers night and weekend meetings, sessions that can be replayed, and even an “on-call workout” series designed for being in the call room.

Dr. Novitsky notices that many of her clients are stuck in an “all-or-none” mindset. If they can’t do something perfectly with total commitment, they would rather not do it at all. With so many demands on their time and energy, something has to give, and putting their health first begins to seem selfish or hopeless. “I can speak to this,” Dr. Novitsky admitted, “because I did it to myself”

Like Dr. Ubell, Dr. Novitsky said that “most of the stuff we’re coaching on is not about their food. It’s about how they feel undervalued at work, how their relationships are suffering, how they feel super guilty as a parent. They feel like they look good on paper, but this is not the life they signed up for.”
 

Step 3: Life change equals physical change

Siobhan Key, MD, an obesity medicine and family physician, sees her own weight loss struggle as a symptom of a former lifestyle that, frankly, “sucked.”

Her grueling schedule and lack of self-care left her feeling stuck on a “hamster wheel” of work and family responsibilities. There was no space for herself. She craved the dopamine burst from junk food and felt powerless to stop reaching for Wendy’s French fries as a frequent reward. It took realizing that she was on track to develop type 2 diabetes to motivate her to change.

Where she lived also affected her struggle. Living in the small community of Prince George, B.C., local weight-loss programs were difficult for Dr. Key. It was likely that she would encounter some of her patients, which would not be a safe space to reveal her personal challenges. Searching for an expert who could explain how to eat healthy meals while on call and then working a full day afterward also yielded no solutions.

Unlike Dr. Ubell and Dr. Novitsky, Dr. Key still practices medicine. But she is also a weight-loss coach. She takes an unconventional approach by not proposing any specific diet rules or plans. Dictating which foods you can or cannot eat is like trying to fit a square peg into a round hole, Dr. Key said. It will never work long term. Instead, she wants to help her clients use both their medical knowledge and life experience to make healthy eating fit into their lives.

“Let’s stop doing things that makes our lives worse just to lose weight, because it will never be sustainable,” said Dr. Key. “Rather, let’s choose paths of losing weight and managing our eating that actually make our lives better. And those exist. They’re just not the classic diet paths that we’ve been taught before.”

Dr. Key’s program also includes advice from other physician coaches on professional struggles. For example, charting is a big one, Dr. Key said. The pressure of completing patient notes, often outside of working hours, is a major source of stress that triggers a lot of eating.

Weight loss doesn’t happen in a vacuum, Dr. Key pointed out. It isn’t the simple “eat less, exercise more” equation that physicians learned in medical school. “The reality is, weight loss and eating happen in conjunction with the rest of your life,” she said.

Find ways to make your life easier and the benefits will follow, she said. “As your life gets better, you feel more empowered. You feel less stressed. Your eating choices start to be simpler, and the cravings start to go down. You can’t have one without the other.”
 

Weight is just a symptom of a bigger problem

Dr. Ubell, Dr. Novitsky, and Dr. Key all say they have seen dramatic transformations among their clients. They don’t mean just physical ones. Dr. Ubell remembered an emergency medicine physician so miserable at work that she considered defaulting on her student loans. Dr. Novitsky recalled an anesthesiologist so insecure that she nearly passed up a scholarship to a fitness program. Dr. Key has seen clients so obsessed with what they should and shouldn’t eat that food dominated their thoughts every free minute of the day.

All these doctors, the coaches said, have been able to regain a sense of control over their lives, rethink how they show up at work and at home, and even rediscover their joy in medicine.

These changes are less about body mass index and more about confidence and self-love. For weight loss to last, according to Dr. Ubell, Dr. Novitsky, and Dr. Key, there must be permanent mental shifts that redefine one’s relationship with food.

“There’s no finish line when we’re talking about long-term weight maintenance,” Dr. Key tells physicians. “You have to be able to do it for the rest of your life.”

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

Katrina Ubell, MD, listened with growing skepticism as the dietician outlined her weight-loss plan. “You’re going to have to eat a snack in the afternoon,” she instructed.

Dr. Ubell refrained from rolling her eyes. The afternoon was in the middle of clinic. “I’m not ever going to do that,” she tried to explain. “I can’t.”

“Of course, you can,” the dietician insisted. “You shouldn’t think that way. You get to decide.”

“She wasn’t wrong about that,” Dr. Ubell conceded years later. But the well-meaning dietician couldn’t understand the reality of life as a physician. As a pediatrician, Dr. Ubell could visualize how her afternoon would play out. “You’re already 40 minutes behind. This mom needs to get home to get her kid off the bus. This mom, her toddler is losing his mind because he needs a nap. You’re not going to say: ‘Sorry, I need to eat some carrots and hummus.’ ”

Most of what the dieting realm recommends for weight loss, Dr. Ubell discovered, seems only relevant to people with a consistent 9 to 5 schedule. That was not her life. Neither was she looking for one of the many diet plans based on self-denial and will power. Having already lost and gained back 40 pounds several times, she knew these methods were not effective long term.

What were other overweight doctors doing? she wondered. Someone must know how to help doctors lose weight. But her Google searches revealed ... nothing. No one was offering a useful diet or exercise plan specifically for physicians.

Dr. Ubell’s search for answers led to the world of life coaching, and eventually she became a master-certified life and weight-loss coach, working exclusively with women-identifying physicians.

The field is small. Very few weight-loss programs are solely for physicians, whose stress levels, unpredictable schedules, and high-achieving mindset pose unique challenges. Among the constantly changing diet fads, few would likely work for the surgeon confined to an operating room for 9 hours at a time or the anesthesiologist who can’t even manage to drink water during the workday.

Dr. Ubell set out to create a weight-loss program rooted in the physical and mental demands of medical practice. In the process, she lost 45 pounds.
 

Step 1: Acknowledge that doctors are, unfortunately, human

Dr. Ubell’s approach to food combines concepts from cognitive-behavioral therapy with personalized eating plans, coaching, and support from a community of doctors.

All of this stems from her own experience with emotional eating, which she said many doctors use to process their stress and exhaustion. This is a direct result of needing to repress emotions while caring for patients but lacking guidance on how to manage those feelings outside of work.

“That kind of behavior, being what we call ‘professional,’ but really emotionally shut down, is prized and valued in medicine,” Dr. Ubell said. “I’m not saying we should be open all the time. But we’re not given any tools for what to do at the end of the day. In my case, it was eating. For other people, it’s drinking more than they would like, spending money, gambling, basically just numbing behavior.”

Dr. Ubell said only 20% of her work with clients revolves around what to eat. The other 80% is about managing the thoughts, beliefs, and emotions that negatively affect their lives, teaching them how to cope “without food as the crutch.” Once the problems regarding eating are resolved, clients can begin to address all the problems they were using food to obscure.

“A lot of my clients really have to work on self-love, self-acceptance, self-compassion,” Dr. Ubell said. “They’re such high achievers, and often many of them think that they’ve achieved so much by being harsh with themselves and driving themselves hard. They think it’s causal, but it’s not. They have to learn, How can I be accomplished while being nice to myself?”
 

Step 2: Reassess your mindset

Ali Novitsky, MD, an obesity medicine physician and now full-time life coach, calls this attitude the “heaven’s reward fallacy.” Observed by renowned psychiatrist Aaron Beck, MD, this cognitive distortion involves imagining that hard work, struggle, and self-sacrifice must ultimately pay off, as if suffering entitles us to compensation in the future. For physicians, who are embedded in a culture of selflessness and dedication to the health of others, this often means forfeiting their own health and well-being.

For many, there is also a sense of secrecy and shame regarding health and fitness problems. As doctors, they are experts in the human body. They should already know how to lose weight. Right? And so not knowing or being unable to muster the will power for a diet plan while on call overnight or working 12-hour shifts feels like a professional failure as well as a personal one.

“As physicians, we’re so afraid to fail,” Dr. Novitsky explained. “It’s more comfortable just to not know. Maybe we’ve failed before, or maybe we didn’t get the result that we wanted, so now we can’t bear to have that happen again. It’s just way too painful.”

Dr. Novitsky – who has herself lost 50 pounds and have kept it off for 20 years – provides weight loss, intuitive eating, and fitness programs for female physicians. Her evidence-based approach aims to optimize body composition rather than hitting a number on a scale. Conscious of the physician lifestyle, she offers night and weekend meetings, sessions that can be replayed, and even an “on-call workout” series designed for being in the call room.

Dr. Novitsky notices that many of her clients are stuck in an “all-or-none” mindset. If they can’t do something perfectly with total commitment, they would rather not do it at all. With so many demands on their time and energy, something has to give, and putting their health first begins to seem selfish or hopeless. “I can speak to this,” Dr. Novitsky admitted, “because I did it to myself”

Like Dr. Ubell, Dr. Novitsky said that “most of the stuff we’re coaching on is not about their food. It’s about how they feel undervalued at work, how their relationships are suffering, how they feel super guilty as a parent. They feel like they look good on paper, but this is not the life they signed up for.”
 

Step 3: Life change equals physical change

Siobhan Key, MD, an obesity medicine and family physician, sees her own weight loss struggle as a symptom of a former lifestyle that, frankly, “sucked.”

Her grueling schedule and lack of self-care left her feeling stuck on a “hamster wheel” of work and family responsibilities. There was no space for herself. She craved the dopamine burst from junk food and felt powerless to stop reaching for Wendy’s French fries as a frequent reward. It took realizing that she was on track to develop type 2 diabetes to motivate her to change.

Where she lived also affected her struggle. Living in the small community of Prince George, B.C., local weight-loss programs were difficult for Dr. Key. It was likely that she would encounter some of her patients, which would not be a safe space to reveal her personal challenges. Searching for an expert who could explain how to eat healthy meals while on call and then working a full day afterward also yielded no solutions.

Unlike Dr. Ubell and Dr. Novitsky, Dr. Key still practices medicine. But she is also a weight-loss coach. She takes an unconventional approach by not proposing any specific diet rules or plans. Dictating which foods you can or cannot eat is like trying to fit a square peg into a round hole, Dr. Key said. It will never work long term. Instead, she wants to help her clients use both their medical knowledge and life experience to make healthy eating fit into their lives.

“Let’s stop doing things that makes our lives worse just to lose weight, because it will never be sustainable,” said Dr. Key. “Rather, let’s choose paths of losing weight and managing our eating that actually make our lives better. And those exist. They’re just not the classic diet paths that we’ve been taught before.”

Dr. Key’s program also includes advice from other physician coaches on professional struggles. For example, charting is a big one, Dr. Key said. The pressure of completing patient notes, often outside of working hours, is a major source of stress that triggers a lot of eating.

Weight loss doesn’t happen in a vacuum, Dr. Key pointed out. It isn’t the simple “eat less, exercise more” equation that physicians learned in medical school. “The reality is, weight loss and eating happen in conjunction with the rest of your life,” she said.

Find ways to make your life easier and the benefits will follow, she said. “As your life gets better, you feel more empowered. You feel less stressed. Your eating choices start to be simpler, and the cravings start to go down. You can’t have one without the other.”
 

Weight is just a symptom of a bigger problem

Dr. Ubell, Dr. Novitsky, and Dr. Key all say they have seen dramatic transformations among their clients. They don’t mean just physical ones. Dr. Ubell remembered an emergency medicine physician so miserable at work that she considered defaulting on her student loans. Dr. Novitsky recalled an anesthesiologist so insecure that she nearly passed up a scholarship to a fitness program. Dr. Key has seen clients so obsessed with what they should and shouldn’t eat that food dominated their thoughts every free minute of the day.

All these doctors, the coaches said, have been able to regain a sense of control over their lives, rethink how they show up at work and at home, and even rediscover their joy in medicine.

These changes are less about body mass index and more about confidence and self-love. For weight loss to last, according to Dr. Ubell, Dr. Novitsky, and Dr. Key, there must be permanent mental shifts that redefine one’s relationship with food.

“There’s no finish line when we’re talking about long-term weight maintenance,” Dr. Key tells physicians. “You have to be able to do it for the rest of your life.”

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

Normative ranges of testosterone in young men have been identified on the basis of a nationally representative data in a new study, and these data are expected to provide guidance when evaluating younger individuals presenting with signs and symptoms of potential testosterone deficiency, according to the investigators.

It has long been known that the ranges of normal testosterone differ by age, but the authors of this study contend that this is the first large-scale, population-based analysis conducted in the United States of testosterone levels among in men aged 20-44 years.

“These findings will provide valuable information that clinicians can use in the evaluation and management of young men presenting with concerns about testosterone deficiency,” reported a team of investigators led by Alex Zhu, MD, a urology resident at the University of Michigan, Ann Arbor, in the Journal of Urology.

Outside experts, however, disagree, one saying that the conclusions are “far off and irrational.”

A normative range of testosterone is particularly important for the evaluation of hypogonadism because values vary markedly between individuals and within individuals on repeat measurements over a 24-hour period. At least partially because of this variability, many guidelines, including those issued in by the Endocrine Society and the American Urological Association, recommend testosterone assays only in symptomatic individuals in order to reduce risk of detecting low relative levels that are not clinically relevant.
 

NHANES data provide norms

The data for this study were drawn from the National Health and Nutrition Examination Surveys (NHANES), which sample representative United States residents. The analytic cohort included 1,486 men stratified in 5-year age intervals (20-24, 25-29, 30-34, 35-39, and 40-44).

Because of the known diurnal variation in endocrine levels, only morning total testosterone levels were considered, for consistency. Individuals at risk of disturbed testosterone levels, such as those on hormonal therapy or with a history of testicular cancer, were excluded. Unlike previous analyses that have limited measurements to nonobese individuals without major comorbidities, no such restrictions were imposed in this analysis, which included a sample balanced by race.

After dividing the testosterone levels collected in the NHANES data by tertiles, the cutoff for reduced testosterone were defined as the lowest tertile for each of the five age groups studied.

Consistent with previous reports that testosterone levels decline with age, the cutoff for low testosterone declined for each increase in 5-year age interval after the age of 29 years.

Specifically, these cutoffs were, in order of advancing age, 409 ng/dL (middle tertile range, 409-558), 413 ng/dL (range, 413-575), 359 ng/dL (range, 359-498), 352 ng/dL (range, 352-478), and 350 ng/dL (range, 350-473).

As in the AUA guidelines, which define a total testosterone level below 300 ng/dL “as a reasonable cutoff in support of the diagnosis of low testosterone,” these cutoffs were established without correlation with symptoms. In younger men, like older men, testosterone levels must be within a clinical context.

“Per the AUA guidelines, clinician should consider measuring testosterone levels in patients with certain medical conditions or signs or symptoms of testosterone deficiency, such as depression, reduced motivation, infertility, reduced sex drive, and changes in erectile function,” Dr. Zhu said in an interview, adding that it is appropriate to follow the AUA guidelines “regardless of age.”
 

Hormone levels and symptoms not correlated

These recommendations are based on the fact that the correlation between symptomatic hypogonadism and testosterone levels is poor, meaning that other factors should be considered when considering whether symptoms relate to deficiency. However, Dr. Zhu contended that objective evidence of a low level of testosterone is useful in considering the role of hormone deficiency.

“Even if one were to choose a different cutoff, our age-specific normative testosterone ranges still provide young men and their physicians a framework for counseling,” according to Dr. Zhu. Because of the risk of nonspecific symptoms, such as fatigue and diminished physical performance, he called for “a high index of suspicion for testosterone deficiency even when evaluating younger men.”

Considering the diurnal fluctuations, the single measurement employed to calculate normative ranges is a limitation of this study, the authors acknowledged. They cited data suggested that up to 35% of men classified as hypogonadal on the basis of a single testosterone assay will not meet the same criterion even if evaluated in the subsequent 24 hours. It is for this reason that guidelines typically recommend measuring testosterone at least twice or with more than one type of assay.

Up until now, decisions about testosterone deficiency have been with a one-size-fits-all approach, but it has long been known that patient age is a variable in determining average levels of this hormone, Dr. Zhu reported. For this reason, he predicted that these data will have clinical utility.

“We believe that our new cutoffs play an important role in evaluating younger men presenting with symptoms [of testosterone deficiency],” Dr. Zhu said. “However, clinicians should still remember that these symptoms have causes other than low testosterone, so we cannot only focus only on testing testosterone.”

However, given the lack of correlation between symptoms and testosterone levels, this area remains controversial.
 

Value of tertile cutoffs questioned

Two independent experts challenged the methodology and conclusions of this study.

Victor Adlin, MD, an associate professor emeritus at Temple University, Philadelphia, questioned tertile levels as an approach to defining normal.

“The authors propose unusually high cut-points for a definition of low testosterone in young men,” said Dr. Adlin, whose published a comment on age-related low testosterone in response to 2020 guidelines issued by the American College of Physicians. He is concerned that these data could lead to overtreatment.

The authors “imply that [these data] would justify treatment with testosterone in many young men with symptoms such as fatigue, depression, and lack of vigor, whose relation to low testosterone is controversial,” he said in an interview. “Trials in older men have failed to show a clear response of such symptoms to testosterone therapy.”

The first author of the 2018 Endocrine Society guidelines, Shalender Bhasin, MB, BS, director of a research program in aging and metabolism at the Brigham and Women’s Hospital in Boston, was even more skeptical.

“The whole premise of generating cutoffs for a disease or condition based on the middle tertile is just so far off and irrational,” he said. A coauthor of a 2017 study designed to define harmonized testosterone reference ranges by decade of age (that he described as providing “a much larger sample size and a wider age range” than this current study), Dr. Bhasin did not see any value in the NHANES-based analysis.

Rather, he called for an effort “to dispel this ill-conceived idea that could mislead young men to think they need testosterone treatment when they are healthy.”

Dr. Zhu and Dr. Adlin reported no potential conflicts of interest. Dr. Bhasin reported financial relationships with AbbVie, Eli Lilly, Novartis, Regeneron, and Takeda.
 

Normative ranges of testosterone in young men have been identified on the basis of a nationally representative data in a new study, and these data are expected to provide guidance when evaluating younger individuals presenting with signs and symptoms of potential testosterone deficiency, according to the investigators.

It has long been known that the ranges of normal testosterone differ by age, but the authors of this study contend that this is the first large-scale, population-based analysis conducted in the United States of testosterone levels among in men aged 20-44 years.

“These findings will provide valuable information that clinicians can use in the evaluation and management of young men presenting with concerns about testosterone deficiency,” reported a team of investigators led by Alex Zhu, MD, a urology resident at the University of Michigan, Ann Arbor, in the Journal of Urology.

Outside experts, however, disagree, one saying that the conclusions are “far off and irrational.”

A normative range of testosterone is particularly important for the evaluation of hypogonadism because values vary markedly between individuals and within individuals on repeat measurements over a 24-hour period. At least partially because of this variability, many guidelines, including those issued in by the Endocrine Society and the American Urological Association, recommend testosterone assays only in symptomatic individuals in order to reduce risk of detecting low relative levels that are not clinically relevant.
 

NHANES data provide norms

The data for this study were drawn from the National Health and Nutrition Examination Surveys (NHANES), which sample representative United States residents. The analytic cohort included 1,486 men stratified in 5-year age intervals (20-24, 25-29, 30-34, 35-39, and 40-44).

Because of the known diurnal variation in endocrine levels, only morning total testosterone levels were considered, for consistency. Individuals at risk of disturbed testosterone levels, such as those on hormonal therapy or with a history of testicular cancer, were excluded. Unlike previous analyses that have limited measurements to nonobese individuals without major comorbidities, no such restrictions were imposed in this analysis, which included a sample balanced by race.

After dividing the testosterone levels collected in the NHANES data by tertiles, the cutoff for reduced testosterone were defined as the lowest tertile for each of the five age groups studied.

Consistent with previous reports that testosterone levels decline with age, the cutoff for low testosterone declined for each increase in 5-year age interval after the age of 29 years.

Specifically, these cutoffs were, in order of advancing age, 409 ng/dL (middle tertile range, 409-558), 413 ng/dL (range, 413-575), 359 ng/dL (range, 359-498), 352 ng/dL (range, 352-478), and 350 ng/dL (range, 350-473).

As in the AUA guidelines, which define a total testosterone level below 300 ng/dL “as a reasonable cutoff in support of the diagnosis of low testosterone,” these cutoffs were established without correlation with symptoms. In younger men, like older men, testosterone levels must be within a clinical context.

“Per the AUA guidelines, clinician should consider measuring testosterone levels in patients with certain medical conditions or signs or symptoms of testosterone deficiency, such as depression, reduced motivation, infertility, reduced sex drive, and changes in erectile function,” Dr. Zhu said in an interview, adding that it is appropriate to follow the AUA guidelines “regardless of age.”
 

Hormone levels and symptoms not correlated

These recommendations are based on the fact that the correlation between symptomatic hypogonadism and testosterone levels is poor, meaning that other factors should be considered when considering whether symptoms relate to deficiency. However, Dr. Zhu contended that objective evidence of a low level of testosterone is useful in considering the role of hormone deficiency.

“Even if one were to choose a different cutoff, our age-specific normative testosterone ranges still provide young men and their physicians a framework for counseling,” according to Dr. Zhu. Because of the risk of nonspecific symptoms, such as fatigue and diminished physical performance, he called for “a high index of suspicion for testosterone deficiency even when evaluating younger men.”

Considering the diurnal fluctuations, the single measurement employed to calculate normative ranges is a limitation of this study, the authors acknowledged. They cited data suggested that up to 35% of men classified as hypogonadal on the basis of a single testosterone assay will not meet the same criterion even if evaluated in the subsequent 24 hours. It is for this reason that guidelines typically recommend measuring testosterone at least twice or with more than one type of assay.

Up until now, decisions about testosterone deficiency have been with a one-size-fits-all approach, but it has long been known that patient age is a variable in determining average levels of this hormone, Dr. Zhu reported. For this reason, he predicted that these data will have clinical utility.

“We believe that our new cutoffs play an important role in evaluating younger men presenting with symptoms [of testosterone deficiency],” Dr. Zhu said. “However, clinicians should still remember that these symptoms have causes other than low testosterone, so we cannot only focus only on testing testosterone.”

However, given the lack of correlation between symptoms and testosterone levels, this area remains controversial.
 

Value of tertile cutoffs questioned

Two independent experts challenged the methodology and conclusions of this study.

Victor Adlin, MD, an associate professor emeritus at Temple University, Philadelphia, questioned tertile levels as an approach to defining normal.

“The authors propose unusually high cut-points for a definition of low testosterone in young men,” said Dr. Adlin, whose published a comment on age-related low testosterone in response to 2020 guidelines issued by the American College of Physicians. He is concerned that these data could lead to overtreatment.

The authors “imply that [these data] would justify treatment with testosterone in many young men with symptoms such as fatigue, depression, and lack of vigor, whose relation to low testosterone is controversial,” he said in an interview. “Trials in older men have failed to show a clear response of such symptoms to testosterone therapy.”

The first author of the 2018 Endocrine Society guidelines, Shalender Bhasin, MB, BS, director of a research program in aging and metabolism at the Brigham and Women’s Hospital in Boston, was even more skeptical.

“The whole premise of generating cutoffs for a disease or condition based on the middle tertile is just so far off and irrational,” he said. A coauthor of a 2017 study designed to define harmonized testosterone reference ranges by decade of age (that he described as providing “a much larger sample size and a wider age range” than this current study), Dr. Bhasin did not see any value in the NHANES-based analysis.

Rather, he called for an effort “to dispel this ill-conceived idea that could mislead young men to think they need testosterone treatment when they are healthy.”

Dr. Zhu and Dr. Adlin reported no potential conflicts of interest. Dr. Bhasin reported financial relationships with AbbVie, Eli Lilly, Novartis, Regeneron, and Takeda.
 

Normative ranges of testosterone in young men have been identified on the basis of a nationally representative data in a new study, and these data are expected to provide guidance when evaluating younger individuals presenting with signs and symptoms of potential testosterone deficiency, according to the investigators.

It has long been known that the ranges of normal testosterone differ by age, but the authors of this study contend that this is the first large-scale, population-based analysis conducted in the United States of testosterone levels among in men aged 20-44 years.

“These findings will provide valuable information that clinicians can use in the evaluation and management of young men presenting with concerns about testosterone deficiency,” reported a team of investigators led by Alex Zhu, MD, a urology resident at the University of Michigan, Ann Arbor, in the Journal of Urology.

Outside experts, however, disagree, one saying that the conclusions are “far off and irrational.”

A normative range of testosterone is particularly important for the evaluation of hypogonadism because values vary markedly between individuals and within individuals on repeat measurements over a 24-hour period. At least partially because of this variability, many guidelines, including those issued in by the Endocrine Society and the American Urological Association, recommend testosterone assays only in symptomatic individuals in order to reduce risk of detecting low relative levels that are not clinically relevant.
 

NHANES data provide norms

The data for this study were drawn from the National Health and Nutrition Examination Surveys (NHANES), which sample representative United States residents. The analytic cohort included 1,486 men stratified in 5-year age intervals (20-24, 25-29, 30-34, 35-39, and 40-44).

Because of the known diurnal variation in endocrine levels, only morning total testosterone levels were considered, for consistency. Individuals at risk of disturbed testosterone levels, such as those on hormonal therapy or with a history of testicular cancer, were excluded. Unlike previous analyses that have limited measurements to nonobese individuals without major comorbidities, no such restrictions were imposed in this analysis, which included a sample balanced by race.

After dividing the testosterone levels collected in the NHANES data by tertiles, the cutoff for reduced testosterone were defined as the lowest tertile for each of the five age groups studied.

Consistent with previous reports that testosterone levels decline with age, the cutoff for low testosterone declined for each increase in 5-year age interval after the age of 29 years.

Specifically, these cutoffs were, in order of advancing age, 409 ng/dL (middle tertile range, 409-558), 413 ng/dL (range, 413-575), 359 ng/dL (range, 359-498), 352 ng/dL (range, 352-478), and 350 ng/dL (range, 350-473).

As in the AUA guidelines, which define a total testosterone level below 300 ng/dL “as a reasonable cutoff in support of the diagnosis of low testosterone,” these cutoffs were established without correlation with symptoms. In younger men, like older men, testosterone levels must be within a clinical context.

“Per the AUA guidelines, clinician should consider measuring testosterone levels in patients with certain medical conditions or signs or symptoms of testosterone deficiency, such as depression, reduced motivation, infertility, reduced sex drive, and changes in erectile function,” Dr. Zhu said in an interview, adding that it is appropriate to follow the AUA guidelines “regardless of age.”
 

Hormone levels and symptoms not correlated

These recommendations are based on the fact that the correlation between symptomatic hypogonadism and testosterone levels is poor, meaning that other factors should be considered when considering whether symptoms relate to deficiency. However, Dr. Zhu contended that objective evidence of a low level of testosterone is useful in considering the role of hormone deficiency.

“Even if one were to choose a different cutoff, our age-specific normative testosterone ranges still provide young men and their physicians a framework for counseling,” according to Dr. Zhu. Because of the risk of nonspecific symptoms, such as fatigue and diminished physical performance, he called for “a high index of suspicion for testosterone deficiency even when evaluating younger men.”

Considering the diurnal fluctuations, the single measurement employed to calculate normative ranges is a limitation of this study, the authors acknowledged. They cited data suggested that up to 35% of men classified as hypogonadal on the basis of a single testosterone assay will not meet the same criterion even if evaluated in the subsequent 24 hours. It is for this reason that guidelines typically recommend measuring testosterone at least twice or with more than one type of assay.

Up until now, decisions about testosterone deficiency have been with a one-size-fits-all approach, but it has long been known that patient age is a variable in determining average levels of this hormone, Dr. Zhu reported. For this reason, he predicted that these data will have clinical utility.

“We believe that our new cutoffs play an important role in evaluating younger men presenting with symptoms [of testosterone deficiency],” Dr. Zhu said. “However, clinicians should still remember that these symptoms have causes other than low testosterone, so we cannot only focus only on testing testosterone.”

However, given the lack of correlation between symptoms and testosterone levels, this area remains controversial.
 

Value of tertile cutoffs questioned

Two independent experts challenged the methodology and conclusions of this study.

Victor Adlin, MD, an associate professor emeritus at Temple University, Philadelphia, questioned tertile levels as an approach to defining normal.

“The authors propose unusually high cut-points for a definition of low testosterone in young men,” said Dr. Adlin, whose published a comment on age-related low testosterone in response to 2020 guidelines issued by the American College of Physicians. He is concerned that these data could lead to overtreatment.

The authors “imply that [these data] would justify treatment with testosterone in many young men with symptoms such as fatigue, depression, and lack of vigor, whose relation to low testosterone is controversial,” he said in an interview. “Trials in older men have failed to show a clear response of such symptoms to testosterone therapy.”

The first author of the 2018 Endocrine Society guidelines, Shalender Bhasin, MB, BS, director of a research program in aging and metabolism at the Brigham and Women’s Hospital in Boston, was even more skeptical.

“The whole premise of generating cutoffs for a disease or condition based on the middle tertile is just so far off and irrational,” he said. A coauthor of a 2017 study designed to define harmonized testosterone reference ranges by decade of age (that he described as providing “a much larger sample size and a wider age range” than this current study), Dr. Bhasin did not see any value in the NHANES-based analysis.

Rather, he called for an effort “to dispel this ill-conceived idea that could mislead young men to think they need testosterone treatment when they are healthy.”

Dr. Zhu and Dr. Adlin reported no potential conflicts of interest. Dr. Bhasin reported financial relationships with AbbVie, Eli Lilly, Novartis, Regeneron, and Takeda.
 

MONTREAL – In the treatment of thyroid nodules with radiofrequency ablation (RFA), the amount of energy delivered per unit volume of the nodule strongly correlates with the extent of nodule volume reduction after 6 and 12 months, suggesting an important indicator of treatment success.

The findings “provide an objective measure or goal energy input to achieve during the [RFA] procedure rather than relying only on the subjective judgment of sonographic changes, and in turn, produce more reliable outcomes for our patients,” first author Samantha A. Wolfe, MD, said in an interview.

Dr. Wolfe, of the department of otolaryngology – head and neck surgery at Johns Hopkins University, Baltimore, presented the findings at the American Thyroid Association annual meeting.

Commenting on the study, Insoo Suh, MD, an associate professor and associate vice chair of Surgical Innovation at New York University Langone Health, agreed that “an accounting of the total amount of energy delivered can be a useful additional data point for the operator when they are determining whether an ablation is successful.”

He noted, however, that the location of a nodule can be an important factor when deciding upon amounts of RF energy.

“Some target areas are too close for comfort to critical structures, such as the trachea or the recurrent laryngeal nerve, so sound judgment would dictate that the energy be dialed down in those areas, even if the price you pay is a slightly lower volume reduction,” he explained. 
 

Analysis of patients given RFA at Johns Hopkins

RFA utilizes RF energy for the reduction of nodule compression and aesthetic symptoms, avoiding the need for thyroid hormone replacement or surgery.

And while decisions regarding RFA treatment location and duration are commonly guided by the operator’s judgment of sonographic changes, those assessments can potentially result in inconsistent outcomes.

In observing a relationship between higher amounts of RF energy and nodule volume reduction, Dr. Wolfe and associates conducted their prospective study of nodules treated by two experienced endocrine surgeons at Johns Hopkins between June 2019 and May 2022 at 6 and 12 months in relation to the amount of total energy delivered during the treatment.

The analysis included 101 nodules, which had a median initial volume of 12.9 mL.

After 6 months, the median volume reduction ratio was 60%, and at 12 months, the median reduction was 64%.

In terms of the goal of achieving 50% or more volume reduction at 6 months, the median energy delivered was significantly higher for nodules that did reach that goal compared with those that had a volume reduction of less than 50% (2,317 vs. 1,912 J/mL, respectively; P = .01).

The figures were similar at 12 months (2,031 vs. 1254 J/mL; P < .01).

In a logistic regression analysis, the amount of energy delivered strongly increased the odds of obtaining a volume reduction ratio of at least 50% (odds ratio, 2.58; P = .048).

“Every twofold increase in energy delivered increases the odds of achieving a 50% volume ratio reduction by 2.58 times,” Dr. Wolfe explained.

Likewise, the same twofold increase in energy delivered also increased the odds of achieving a greater than 80% volume ratio reduction by 2.55 times (OR, 2.55; P = .038), she added.
 

Information may help to decide who needs multiple ablations

Of note, the effect was stronger with smaller nodules. Those with an initial volume of less than 20 mL had a significantly greater volume ratio reduction than nodules that were 20 mL or larger (61% vs. 48%, respectively; P = .05).

The initial volume of nodules that did, and did not, achieve a 50% volume ratio reduction at 6 months were 10.9 mL versus 19.1 mL, and the initial volumes of those that did, and did not, have at least a 50% reduction at 12 months were 10.5 mL and 41.5 mL.

“At 6 and 12 months, the successfully treated nodules had a significantly smaller immediate initial volume than those that did not,” Dr. Wolfe said.

“This information may aid in identifying patients with large nodules that are less likely to achieve a greater than 50% volume reduction ratio and may require multiple treatments,” she added.

Other factors – including the probe tip size and total energy delivered – did not significantly correlate with volume ratio reduction at 6 or 12 months.

There was also no significant difference in terms of thyroid-stimulating hormone levels among nodules that achieved at least a 50% volume reduction and those that did not.

Nodules that did not have a satisfactory volume reduction at 12 months had a relatively large median total energy value delivered during ablation (103,463 J, compared with 25,969 J among those achieving more than 50% volume ratio reduction), which Dr. Wolfe said likely reflects that those nodules had a large initial volume.

“This speaks to the importance of describing the energy utilized per unit of nodule volume rather than just a gross measurement,” she said during her presentation.

Dr. Wolfe added that in terms of strategies for getting more energy into the nodule, a key approach is time.

“Sometimes you will see sonographic changes very quickly in the nodule, and it could be tempting to consider that area ablated and move on if you only rely on sonographic changes,” she said in an interview. “However, our research shows that, by spending more time, and thus inputting more energy into the nodule, we had better volume reduction.”

Dr. Wolfe and Dr. Suh reported no relevant financial relationships.

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

MONTREAL – In the treatment of thyroid nodules with radiofrequency ablation (RFA), the amount of energy delivered per unit volume of the nodule strongly correlates with the extent of nodule volume reduction after 6 and 12 months, suggesting an important indicator of treatment success.

The findings “provide an objective measure or goal energy input to achieve during the [RFA] procedure rather than relying only on the subjective judgment of sonographic changes, and in turn, produce more reliable outcomes for our patients,” first author Samantha A. Wolfe, MD, said in an interview.

Dr. Wolfe, of the department of otolaryngology – head and neck surgery at Johns Hopkins University, Baltimore, presented the findings at the American Thyroid Association annual meeting.

Commenting on the study, Insoo Suh, MD, an associate professor and associate vice chair of Surgical Innovation at New York University Langone Health, agreed that “an accounting of the total amount of energy delivered can be a useful additional data point for the operator when they are determining whether an ablation is successful.”

He noted, however, that the location of a nodule can be an important factor when deciding upon amounts of RF energy.

“Some target areas are too close for comfort to critical structures, such as the trachea or the recurrent laryngeal nerve, so sound judgment would dictate that the energy be dialed down in those areas, even if the price you pay is a slightly lower volume reduction,” he explained. 
 

Analysis of patients given RFA at Johns Hopkins

RFA utilizes RF energy for the reduction of nodule compression and aesthetic symptoms, avoiding the need for thyroid hormone replacement or surgery.

And while decisions regarding RFA treatment location and duration are commonly guided by the operator’s judgment of sonographic changes, those assessments can potentially result in inconsistent outcomes.

In observing a relationship between higher amounts of RF energy and nodule volume reduction, Dr. Wolfe and associates conducted their prospective study of nodules treated by two experienced endocrine surgeons at Johns Hopkins between June 2019 and May 2022 at 6 and 12 months in relation to the amount of total energy delivered during the treatment.

The analysis included 101 nodules, which had a median initial volume of 12.9 mL.

After 6 months, the median volume reduction ratio was 60%, and at 12 months, the median reduction was 64%.

In terms of the goal of achieving 50% or more volume reduction at 6 months, the median energy delivered was significantly higher for nodules that did reach that goal compared with those that had a volume reduction of less than 50% (2,317 vs. 1,912 J/mL, respectively; P = .01).

The figures were similar at 12 months (2,031 vs. 1254 J/mL; P < .01).

In a logistic regression analysis, the amount of energy delivered strongly increased the odds of obtaining a volume reduction ratio of at least 50% (odds ratio, 2.58; P = .048).

“Every twofold increase in energy delivered increases the odds of achieving a 50% volume ratio reduction by 2.58 times,” Dr. Wolfe explained.

Likewise, the same twofold increase in energy delivered also increased the odds of achieving a greater than 80% volume ratio reduction by 2.55 times (OR, 2.55; P = .038), she added.
 

Information may help to decide who needs multiple ablations

Of note, the effect was stronger with smaller nodules. Those with an initial volume of less than 20 mL had a significantly greater volume ratio reduction than nodules that were 20 mL or larger (61% vs. 48%, respectively; P = .05).

The initial volume of nodules that did, and did not, achieve a 50% volume ratio reduction at 6 months were 10.9 mL versus 19.1 mL, and the initial volumes of those that did, and did not, have at least a 50% reduction at 12 months were 10.5 mL and 41.5 mL.

“At 6 and 12 months, the successfully treated nodules had a significantly smaller immediate initial volume than those that did not,” Dr. Wolfe said.

“This information may aid in identifying patients with large nodules that are less likely to achieve a greater than 50% volume reduction ratio and may require multiple treatments,” she added.

Other factors – including the probe tip size and total energy delivered – did not significantly correlate with volume ratio reduction at 6 or 12 months.

There was also no significant difference in terms of thyroid-stimulating hormone levels among nodules that achieved at least a 50% volume reduction and those that did not.

Nodules that did not have a satisfactory volume reduction at 12 months had a relatively large median total energy value delivered during ablation (103,463 J, compared with 25,969 J among those achieving more than 50% volume ratio reduction), which Dr. Wolfe said likely reflects that those nodules had a large initial volume.

“This speaks to the importance of describing the energy utilized per unit of nodule volume rather than just a gross measurement,” she said during her presentation.

Dr. Wolfe added that in terms of strategies for getting more energy into the nodule, a key approach is time.

“Sometimes you will see sonographic changes very quickly in the nodule, and it could be tempting to consider that area ablated and move on if you only rely on sonographic changes,” she said in an interview. “However, our research shows that, by spending more time, and thus inputting more energy into the nodule, we had better volume reduction.”

Dr. Wolfe and Dr. Suh reported no relevant financial relationships.

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

MONTREAL – In the treatment of thyroid nodules with radiofrequency ablation (RFA), the amount of energy delivered per unit volume of the nodule strongly correlates with the extent of nodule volume reduction after 6 and 12 months, suggesting an important indicator of treatment success.

The findings “provide an objective measure or goal energy input to achieve during the [RFA] procedure rather than relying only on the subjective judgment of sonographic changes, and in turn, produce more reliable outcomes for our patients,” first author Samantha A. Wolfe, MD, said in an interview.

Dr. Wolfe, of the department of otolaryngology – head and neck surgery at Johns Hopkins University, Baltimore, presented the findings at the American Thyroid Association annual meeting.

Commenting on the study, Insoo Suh, MD, an associate professor and associate vice chair of Surgical Innovation at New York University Langone Health, agreed that “an accounting of the total amount of energy delivered can be a useful additional data point for the operator when they are determining whether an ablation is successful.”

He noted, however, that the location of a nodule can be an important factor when deciding upon amounts of RF energy.

“Some target areas are too close for comfort to critical structures, such as the trachea or the recurrent laryngeal nerve, so sound judgment would dictate that the energy be dialed down in those areas, even if the price you pay is a slightly lower volume reduction,” he explained. 
 

Analysis of patients given RFA at Johns Hopkins

RFA utilizes RF energy for the reduction of nodule compression and aesthetic symptoms, avoiding the need for thyroid hormone replacement or surgery.

And while decisions regarding RFA treatment location and duration are commonly guided by the operator’s judgment of sonographic changes, those assessments can potentially result in inconsistent outcomes.

In observing a relationship between higher amounts of RF energy and nodule volume reduction, Dr. Wolfe and associates conducted their prospective study of nodules treated by two experienced endocrine surgeons at Johns Hopkins between June 2019 and May 2022 at 6 and 12 months in relation to the amount of total energy delivered during the treatment.

The analysis included 101 nodules, which had a median initial volume of 12.9 mL.

After 6 months, the median volume reduction ratio was 60%, and at 12 months, the median reduction was 64%.

In terms of the goal of achieving 50% or more volume reduction at 6 months, the median energy delivered was significantly higher for nodules that did reach that goal compared with those that had a volume reduction of less than 50% (2,317 vs. 1,912 J/mL, respectively; P = .01).

The figures were similar at 12 months (2,031 vs. 1254 J/mL; P < .01).

In a logistic regression analysis, the amount of energy delivered strongly increased the odds of obtaining a volume reduction ratio of at least 50% (odds ratio, 2.58; P = .048).

“Every twofold increase in energy delivered increases the odds of achieving a 50% volume ratio reduction by 2.58 times,” Dr. Wolfe explained.

Likewise, the same twofold increase in energy delivered also increased the odds of achieving a greater than 80% volume ratio reduction by 2.55 times (OR, 2.55; P = .038), she added.
 

Information may help to decide who needs multiple ablations

Of note, the effect was stronger with smaller nodules. Those with an initial volume of less than 20 mL had a significantly greater volume ratio reduction than nodules that were 20 mL or larger (61% vs. 48%, respectively; P = .05).

The initial volume of nodules that did, and did not, achieve a 50% volume ratio reduction at 6 months were 10.9 mL versus 19.1 mL, and the initial volumes of those that did, and did not, have at least a 50% reduction at 12 months were 10.5 mL and 41.5 mL.

“At 6 and 12 months, the successfully treated nodules had a significantly smaller immediate initial volume than those that did not,” Dr. Wolfe said.

“This information may aid in identifying patients with large nodules that are less likely to achieve a greater than 50% volume reduction ratio and may require multiple treatments,” she added.

Other factors – including the probe tip size and total energy delivered – did not significantly correlate with volume ratio reduction at 6 or 12 months.

There was also no significant difference in terms of thyroid-stimulating hormone levels among nodules that achieved at least a 50% volume reduction and those that did not.

Nodules that did not have a satisfactory volume reduction at 12 months had a relatively large median total energy value delivered during ablation (103,463 J, compared with 25,969 J among those achieving more than 50% volume ratio reduction), which Dr. Wolfe said likely reflects that those nodules had a large initial volume.

“This speaks to the importance of describing the energy utilized per unit of nodule volume rather than just a gross measurement,” she said during her presentation.

Dr. Wolfe added that in terms of strategies for getting more energy into the nodule, a key approach is time.

“Sometimes you will see sonographic changes very quickly in the nodule, and it could be tempting to consider that area ablated and move on if you only rely on sonographic changes,” she said in an interview. “However, our research shows that, by spending more time, and thus inputting more energy into the nodule, we had better volume reduction.”

Dr. Wolfe and Dr. Suh reported no relevant financial relationships.

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

Knee and hip replacements can improve how well patients get around and can significantly increase their quality of life. But if a bone near the new joint breaks, the injury can be a major setback for the patient’s mobility, and the consequences can be life-threatening.

The proportion of patients who experience a periprosthetic fracture within 5 years of total hip arthroplasty is 0.9%. After total knee arthroplasty (TKA), the proportion is 0.6%, research shows.

Those rates might seem low. But given that more than a million of these joint replacement surgeries are performed each year in the United States – they are the most common inpatient surgical procedures among people aged 65 and older – thousands of revision surgeries due to periprosthetic fractures occur each year.

Primary care physicians, surgeons, and researchers are trying to identify risk factors, medication regimens, and nondrug approaches to avoid these complications. Primary care clinicians who make their patients’ bone health a priority early on – years before surgery, ideally – may help patients enjoy the benefits of new joints long term.

At the 2022 annual Santa Fe Bone Symposium this summer, Susan V. Bukata, MD, professor and chair of orthopedics at the University of California, San Diego, showed an image of “what we’re trying to avoid” – a patient with a broken bone and infection. Unfortunately, Dr. Bukata said, the patient’s clinicians had not adequately addressed her skeletal health before the injury.

“This is a complete disaster for this person who went in having a total hip to improve their function and now will probably never walk normally on that leg,” Dr. Bukata said at the meeting.

The patient eventually underwent total femur replacement. Five surgeries were required to clear the infection.

Medical and surgical advances have allowed more people – including older patients and those with other medical conditions – to undergo joint replacement surgery, including replacement of knees, hips, and shoulders.

The surgeries often are performed for adults whose bones are thinning. Sometimes surgeons don’t realize just how thin a patient’s bone is until they are operating.
 

Prioritizing bone health

In patients with osteoporosis, the bone surrounding the new joint is weaker than the metal of the prosthesis, and the metal can rip out of the bone, Dr. Bukata told this news organization. A periprosthetic fracture should be recognized as an osteoporotic fracture, too, although these fractures have not typically been categorized that way, she said.

People live with total joints in place for as long as 40 years, and fractures around the implants are “one of the fastest growing injuries that we are seeing in older patients,” Dr. Bukata said. “People don’t think of those as osteoporotic fractures. But a 90-year-old who falls and breaks next to their total knee, if they didn’t have that total knee in place, everybody would be, like, ‘Oh, that’s an osteoporotic fracture.’ ”

Periprosthetic fractures tend not to occur right after surgery but rather after the bone continues to lose density as the patient ages, Dr. Bukata said.
 

Missed chances

One approach to preventing periprosthetic fractures could involve prioritizing bone health earlier in life and diagnosing and treating osteoporosis well before a patient is scheduled for surgery.

A patient’s initial visit to their primary care doctor because of joint pain is an opportunity to check on and promote their bone health, given that they might be a candidate for surgery in the future, Dr. Bukata said.

Ahead of a scheduled surgery, patients can see endocrinologists or rheumatologists to receive medication to try to strengthen bones. Doctors may be limited in how much of a difference they can make in a matter of several weeks or months with these drugs, however. These patients still likely will need to be treated as if they have osteoporosis, Dr. Bukata said.

When surgeons realize that a patient has weaker bones while they are in the middle of an operation, they should emphasize the importance of bone health after the procedure, Dr. Bukata said.

Strengthening, maintaining, and protecting bone should be seen as a long-term investment in the patient’s success after a joint replacement. That said, “There is no clear evidence or protocol for us to follow,” she said. “The mantra at UCSD now is, let’s keep it simple. Get the patient on track. And then we can always refine things as we continue to treat the patient.”

Health systems should establish routines in which bone health is discussed before surgery in the way patient education programs address smoking cessation, nutrition, and weight management, Dr. Bukata said. Another step in the right direction could involve setting electronic medical records to automatically order assessments of bone health when a surgeon books a case.

Linda A. Russell, MD, rheumatologist and director of perioperative medicine at the Hospital for Special Surgery in New York, said periprosthetic fractures are a “complication we fear.”

“It’s a big deal to try to repair it,” Dr. Russell said. “Sometimes you need to revise the joint, or sometimes you need to put lots more hardware in.” Surgeons increasingly appreciate the need to pay attention to the quality of the bone before they operate, she said.

Nevertheless, Dr. Russell does not necessarily say that such cases call for alarm or particularly aggressive treatment regimens – just regular bone health evaluations before and after surgery to see whether patients have osteoporosis and are candidates for treatment.
 

Lifelong effort

In some ways, to address bone health at the time of surgery may be too late.

Bone health “is not something that you can have as an afterthought when you’re 75 years old,” said Elizabeth Matzkin, MD, chief of women’s sports medicine at Brigham and Women’s Hospital, in Boston.

The chance of being able to rebuild bone mass at that age is slim. If patients maximize bone density when they are young, they can afford to lose some bone mass each year as they age.

To that end, a healthy diet, exercise, not smoking, and cutting back on alcohol can help, she said.

For Dr. Matzkin, a fragility fracture is a red flag that the patient’s bone density is probably not optimal. In such cases, she prepares for various scenarios during surgery, such as a screw not holding in a low-density bone.

Recently published research reflects that prior fragility fractures are a significant risk factor for complications after surgery, including periprosthetic fractures.

Edward J. Testa, MD, of Brown University, Providence, R.I., and colleagues analyzed insurance claims to compare outcomes for 24,398 patients who had experienced a fragility fracture – that is, a break caused by low-velocity trauma such as a fall – during the 3 years before their TKA procedure and a matched group of patients who were similar in many respects but who had not had a fragility fracture in the 3 years before surgery.

Dr. Testa’s group found that a history of fragility fracture was associated with higher rates of complications in the year after surgery, including hospital readmissions (hazard ratio = 1.30; 95% CI, 1.22-1.38), periprosthetic fractures (odds ratio = 2.72; 95% CI, 1.89-3.99), and secondary fragility fractures (OR = 4.62; 95% CI, 4.19-5.12). Patients who had previously experienced fragility fractures also experienced dislocated prostheses (OR = 1.76; 95% CI, 1.22-2.56) and periprosthetic infections (OR = 1.49; 95% CI, 1.29-1.71) at higher rates.

The rates of complications were similar regardless of whether patients had filled a prescription for medications used to treat osteoporosis, including bisphosphonates, vitamin D replacement, raloxifene, and denosumab, the researchers reported.

The lack of a clear association between these treatments and patient outcomes could be related to an insufficient duration of pharmacotherapy before or after TKA, poor medication adherence, or small sample sizes, Dr. Testa said.

Given the findings, which were published online in the Journal of Arthroplasty, “patients with a history of fragility fracture should be identified and counseled appropriately for a possible increased risk of the aforementioned complications, and optimized when possible, prior to undergoing TKA,” Dr. Testa told this news organization. “Ultimately, the decision to move forward with surgery is far more complex than the identification of this sole, yet important, risk factor for certain postoperative, implant-related complications.”
 

Treatment gaps

Prior research has shown that women aged 70 years and older are at higher risk for periprosthetic fractures. Many women in this age group who could receive treatment for osteoporosis do not, and major treatment gaps exist worldwide, noted Neil Binkley, MD, with the University of Wisconsin–Madison, in a separate talk at the Santa Fe Bone Symposium.

Ensuring adequate protein intake and addressing the risk of falling are other measures that clinicians can take to promote healthy bones, apart from prescribing drugs, he said.

Unpublished data from one group show that nearly 90% of periprosthetic fractures may result from falls, while about 8% may be spontaneous. “We need to be thinking about falls,” Dr. Binkley said.

Dr. Bukata has consulted for Amgen, Radius, and Solarea Bio and has served on a speakers bureau for Radius. She also is a board member for the Orthopaedic Research Society and the American Academy of Orthopaedic Surgeons Board of Specialty Societies. Dr. Binkley has received research support from Radius and has consulted for Amgen.

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

Knee and hip replacements can improve how well patients get around and can significantly increase their quality of life. But if a bone near the new joint breaks, the injury can be a major setback for the patient’s mobility, and the consequences can be life-threatening.

The proportion of patients who experience a periprosthetic fracture within 5 years of total hip arthroplasty is 0.9%. After total knee arthroplasty (TKA), the proportion is 0.6%, research shows.

Those rates might seem low. But given that more than a million of these joint replacement surgeries are performed each year in the United States – they are the most common inpatient surgical procedures among people aged 65 and older – thousands of revision surgeries due to periprosthetic fractures occur each year.

Primary care physicians, surgeons, and researchers are trying to identify risk factors, medication regimens, and nondrug approaches to avoid these complications. Primary care clinicians who make their patients’ bone health a priority early on – years before surgery, ideally – may help patients enjoy the benefits of new joints long term.

At the 2022 annual Santa Fe Bone Symposium this summer, Susan V. Bukata, MD, professor and chair of orthopedics at the University of California, San Diego, showed an image of “what we’re trying to avoid” – a patient with a broken bone and infection. Unfortunately, Dr. Bukata said, the patient’s clinicians had not adequately addressed her skeletal health before the injury.

“This is a complete disaster for this person who went in having a total hip to improve their function and now will probably never walk normally on that leg,” Dr. Bukata said at the meeting.

The patient eventually underwent total femur replacement. Five surgeries were required to clear the infection.

Medical and surgical advances have allowed more people – including older patients and those with other medical conditions – to undergo joint replacement surgery, including replacement of knees, hips, and shoulders.

The surgeries often are performed for adults whose bones are thinning. Sometimes surgeons don’t realize just how thin a patient’s bone is until they are operating.
 

Prioritizing bone health

In patients with osteoporosis, the bone surrounding the new joint is weaker than the metal of the prosthesis, and the metal can rip out of the bone, Dr. Bukata told this news organization. A periprosthetic fracture should be recognized as an osteoporotic fracture, too, although these fractures have not typically been categorized that way, she said.

People live with total joints in place for as long as 40 years, and fractures around the implants are “one of the fastest growing injuries that we are seeing in older patients,” Dr. Bukata said. “People don’t think of those as osteoporotic fractures. But a 90-year-old who falls and breaks next to their total knee, if they didn’t have that total knee in place, everybody would be, like, ‘Oh, that’s an osteoporotic fracture.’ ”

Periprosthetic fractures tend not to occur right after surgery but rather after the bone continues to lose density as the patient ages, Dr. Bukata said.
 

Missed chances

One approach to preventing periprosthetic fractures could involve prioritizing bone health earlier in life and diagnosing and treating osteoporosis well before a patient is scheduled for surgery.

A patient’s initial visit to their primary care doctor because of joint pain is an opportunity to check on and promote their bone health, given that they might be a candidate for surgery in the future, Dr. Bukata said.

Ahead of a scheduled surgery, patients can see endocrinologists or rheumatologists to receive medication to try to strengthen bones. Doctors may be limited in how much of a difference they can make in a matter of several weeks or months with these drugs, however. These patients still likely will need to be treated as if they have osteoporosis, Dr. Bukata said.

When surgeons realize that a patient has weaker bones while they are in the middle of an operation, they should emphasize the importance of bone health after the procedure, Dr. Bukata said.

Strengthening, maintaining, and protecting bone should be seen as a long-term investment in the patient’s success after a joint replacement. That said, “There is no clear evidence or protocol for us to follow,” she said. “The mantra at UCSD now is, let’s keep it simple. Get the patient on track. And then we can always refine things as we continue to treat the patient.”

Health systems should establish routines in which bone health is discussed before surgery in the way patient education programs address smoking cessation, nutrition, and weight management, Dr. Bukata said. Another step in the right direction could involve setting electronic medical records to automatically order assessments of bone health when a surgeon books a case.

Linda A. Russell, MD, rheumatologist and director of perioperative medicine at the Hospital for Special Surgery in New York, said periprosthetic fractures are a “complication we fear.”

“It’s a big deal to try to repair it,” Dr. Russell said. “Sometimes you need to revise the joint, or sometimes you need to put lots more hardware in.” Surgeons increasingly appreciate the need to pay attention to the quality of the bone before they operate, she said.

Nevertheless, Dr. Russell does not necessarily say that such cases call for alarm or particularly aggressive treatment regimens – just regular bone health evaluations before and after surgery to see whether patients have osteoporosis and are candidates for treatment.
 

Lifelong effort

In some ways, to address bone health at the time of surgery may be too late.

Bone health “is not something that you can have as an afterthought when you’re 75 years old,” said Elizabeth Matzkin, MD, chief of women’s sports medicine at Brigham and Women’s Hospital, in Boston.

The chance of being able to rebuild bone mass at that age is slim. If patients maximize bone density when they are young, they can afford to lose some bone mass each year as they age.

To that end, a healthy diet, exercise, not smoking, and cutting back on alcohol can help, she said.

For Dr. Matzkin, a fragility fracture is a red flag that the patient’s bone density is probably not optimal. In such cases, she prepares for various scenarios during surgery, such as a screw not holding in a low-density bone.

Recently published research reflects that prior fragility fractures are a significant risk factor for complications after surgery, including periprosthetic fractures.

Edward J. Testa, MD, of Brown University, Providence, R.I., and colleagues analyzed insurance claims to compare outcomes for 24,398 patients who had experienced a fragility fracture – that is, a break caused by low-velocity trauma such as a fall – during the 3 years before their TKA procedure and a matched group of patients who were similar in many respects but who had not had a fragility fracture in the 3 years before surgery.

Dr. Testa’s group found that a history of fragility fracture was associated with higher rates of complications in the year after surgery, including hospital readmissions (hazard ratio = 1.30; 95% CI, 1.22-1.38), periprosthetic fractures (odds ratio = 2.72; 95% CI, 1.89-3.99), and secondary fragility fractures (OR = 4.62; 95% CI, 4.19-5.12). Patients who had previously experienced fragility fractures also experienced dislocated prostheses (OR = 1.76; 95% CI, 1.22-2.56) and periprosthetic infections (OR = 1.49; 95% CI, 1.29-1.71) at higher rates.

The rates of complications were similar regardless of whether patients had filled a prescription for medications used to treat osteoporosis, including bisphosphonates, vitamin D replacement, raloxifene, and denosumab, the researchers reported.

The lack of a clear association between these treatments and patient outcomes could be related to an insufficient duration of pharmacotherapy before or after TKA, poor medication adherence, or small sample sizes, Dr. Testa said.

Given the findings, which were published online in the Journal of Arthroplasty, “patients with a history of fragility fracture should be identified and counseled appropriately for a possible increased risk of the aforementioned complications, and optimized when possible, prior to undergoing TKA,” Dr. Testa told this news organization. “Ultimately, the decision to move forward with surgery is far more complex than the identification of this sole, yet important, risk factor for certain postoperative, implant-related complications.”
 

Treatment gaps

Prior research has shown that women aged 70 years and older are at higher risk for periprosthetic fractures. Many women in this age group who could receive treatment for osteoporosis do not, and major treatment gaps exist worldwide, noted Neil Binkley, MD, with the University of Wisconsin–Madison, in a separate talk at the Santa Fe Bone Symposium.

Ensuring adequate protein intake and addressing the risk of falling are other measures that clinicians can take to promote healthy bones, apart from prescribing drugs, he said.

Unpublished data from one group show that nearly 90% of periprosthetic fractures may result from falls, while about 8% may be spontaneous. “We need to be thinking about falls,” Dr. Binkley said.

Dr. Bukata has consulted for Amgen, Radius, and Solarea Bio and has served on a speakers bureau for Radius. She also is a board member for the Orthopaedic Research Society and the American Academy of Orthopaedic Surgeons Board of Specialty Societies. Dr. Binkley has received research support from Radius and has consulted for Amgen.

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

Knee and hip replacements can improve how well patients get around and can significantly increase their quality of life. But if a bone near the new joint breaks, the injury can be a major setback for the patient’s mobility, and the consequences can be life-threatening.

The proportion of patients who experience a periprosthetic fracture within 5 years of total hip arthroplasty is 0.9%. After total knee arthroplasty (TKA), the proportion is 0.6%, research shows.

Those rates might seem low. But given that more than a million of these joint replacement surgeries are performed each year in the United States – they are the most common inpatient surgical procedures among people aged 65 and older – thousands of revision surgeries due to periprosthetic fractures occur each year.

Primary care physicians, surgeons, and researchers are trying to identify risk factors, medication regimens, and nondrug approaches to avoid these complications. Primary care clinicians who make their patients’ bone health a priority early on – years before surgery, ideally – may help patients enjoy the benefits of new joints long term.

At the 2022 annual Santa Fe Bone Symposium this summer, Susan V. Bukata, MD, professor and chair of orthopedics at the University of California, San Diego, showed an image of “what we’re trying to avoid” – a patient with a broken bone and infection. Unfortunately, Dr. Bukata said, the patient’s clinicians had not adequately addressed her skeletal health before the injury.

“This is a complete disaster for this person who went in having a total hip to improve their function and now will probably never walk normally on that leg,” Dr. Bukata said at the meeting.

The patient eventually underwent total femur replacement. Five surgeries were required to clear the infection.

Medical and surgical advances have allowed more people – including older patients and those with other medical conditions – to undergo joint replacement surgery, including replacement of knees, hips, and shoulders.

The surgeries often are performed for adults whose bones are thinning. Sometimes surgeons don’t realize just how thin a patient’s bone is until they are operating.
 

Prioritizing bone health

In patients with osteoporosis, the bone surrounding the new joint is weaker than the metal of the prosthesis, and the metal can rip out of the bone, Dr. Bukata told this news organization. A periprosthetic fracture should be recognized as an osteoporotic fracture, too, although these fractures have not typically been categorized that way, she said.

People live with total joints in place for as long as 40 years, and fractures around the implants are “one of the fastest growing injuries that we are seeing in older patients,” Dr. Bukata said. “People don’t think of those as osteoporotic fractures. But a 90-year-old who falls and breaks next to their total knee, if they didn’t have that total knee in place, everybody would be, like, ‘Oh, that’s an osteoporotic fracture.’ ”

Periprosthetic fractures tend not to occur right after surgery but rather after the bone continues to lose density as the patient ages, Dr. Bukata said.
 

Missed chances

One approach to preventing periprosthetic fractures could involve prioritizing bone health earlier in life and diagnosing and treating osteoporosis well before a patient is scheduled for surgery.

A patient’s initial visit to their primary care doctor because of joint pain is an opportunity to check on and promote their bone health, given that they might be a candidate for surgery in the future, Dr. Bukata said.

Ahead of a scheduled surgery, patients can see endocrinologists or rheumatologists to receive medication to try to strengthen bones. Doctors may be limited in how much of a difference they can make in a matter of several weeks or months with these drugs, however. These patients still likely will need to be treated as if they have osteoporosis, Dr. Bukata said.

When surgeons realize that a patient has weaker bones while they are in the middle of an operation, they should emphasize the importance of bone health after the procedure, Dr. Bukata said.

Strengthening, maintaining, and protecting bone should be seen as a long-term investment in the patient’s success after a joint replacement. That said, “There is no clear evidence or protocol for us to follow,” she said. “The mantra at UCSD now is, let’s keep it simple. Get the patient on track. And then we can always refine things as we continue to treat the patient.”

Health systems should establish routines in which bone health is discussed before surgery in the way patient education programs address smoking cessation, nutrition, and weight management, Dr. Bukata said. Another step in the right direction could involve setting electronic medical records to automatically order assessments of bone health when a surgeon books a case.

Linda A. Russell, MD, rheumatologist and director of perioperative medicine at the Hospital for Special Surgery in New York, said periprosthetic fractures are a “complication we fear.”

“It’s a big deal to try to repair it,” Dr. Russell said. “Sometimes you need to revise the joint, or sometimes you need to put lots more hardware in.” Surgeons increasingly appreciate the need to pay attention to the quality of the bone before they operate, she said.

Nevertheless, Dr. Russell does not necessarily say that such cases call for alarm or particularly aggressive treatment regimens – just regular bone health evaluations before and after surgery to see whether patients have osteoporosis and are candidates for treatment.
 

Lifelong effort

In some ways, to address bone health at the time of surgery may be too late.

Bone health “is not something that you can have as an afterthought when you’re 75 years old,” said Elizabeth Matzkin, MD, chief of women’s sports medicine at Brigham and Women’s Hospital, in Boston.

The chance of being able to rebuild bone mass at that age is slim. If patients maximize bone density when they are young, they can afford to lose some bone mass each year as they age.

To that end, a healthy diet, exercise, not smoking, and cutting back on alcohol can help, she said.

For Dr. Matzkin, a fragility fracture is a red flag that the patient’s bone density is probably not optimal. In such cases, she prepares for various scenarios during surgery, such as a screw not holding in a low-density bone.

Recently published research reflects that prior fragility fractures are a significant risk factor for complications after surgery, including periprosthetic fractures.

Edward J. Testa, MD, of Brown University, Providence, R.I., and colleagues analyzed insurance claims to compare outcomes for 24,398 patients who had experienced a fragility fracture – that is, a break caused by low-velocity trauma such as a fall – during the 3 years before their TKA procedure and a matched group of patients who were similar in many respects but who had not had a fragility fracture in the 3 years before surgery.

Dr. Testa’s group found that a history of fragility fracture was associated with higher rates of complications in the year after surgery, including hospital readmissions (hazard ratio = 1.30; 95% CI, 1.22-1.38), periprosthetic fractures (odds ratio = 2.72; 95% CI, 1.89-3.99), and secondary fragility fractures (OR = 4.62; 95% CI, 4.19-5.12). Patients who had previously experienced fragility fractures also experienced dislocated prostheses (OR = 1.76; 95% CI, 1.22-2.56) and periprosthetic infections (OR = 1.49; 95% CI, 1.29-1.71) at higher rates.

The rates of complications were similar regardless of whether patients had filled a prescription for medications used to treat osteoporosis, including bisphosphonates, vitamin D replacement, raloxifene, and denosumab, the researchers reported.

The lack of a clear association between these treatments and patient outcomes could be related to an insufficient duration of pharmacotherapy before or after TKA, poor medication adherence, or small sample sizes, Dr. Testa said.

Given the findings, which were published online in the Journal of Arthroplasty, “patients with a history of fragility fracture should be identified and counseled appropriately for a possible increased risk of the aforementioned complications, and optimized when possible, prior to undergoing TKA,” Dr. Testa told this news organization. “Ultimately, the decision to move forward with surgery is far more complex than the identification of this sole, yet important, risk factor for certain postoperative, implant-related complications.”
 

Treatment gaps

Prior research has shown that women aged 70 years and older are at higher risk for periprosthetic fractures. Many women in this age group who could receive treatment for osteoporosis do not, and major treatment gaps exist worldwide, noted Neil Binkley, MD, with the University of Wisconsin–Madison, in a separate talk at the Santa Fe Bone Symposium.

Ensuring adequate protein intake and addressing the risk of falling are other measures that clinicians can take to promote healthy bones, apart from prescribing drugs, he said.

Unpublished data from one group show that nearly 90% of periprosthetic fractures may result from falls, while about 8% may be spontaneous. “We need to be thinking about falls,” Dr. Binkley said.

Dr. Bukata has consulted for Amgen, Radius, and Solarea Bio and has served on a speakers bureau for Radius. She also is a board member for the Orthopaedic Research Society and the American Academy of Orthopaedic Surgeons Board of Specialty Societies. Dr. Binkley has received research support from Radius and has consulted for Amgen.

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

The U.S. Preventive Services Task Force moved forward their recommendations for using hormone therapy to prevent chronic conditions in postmenopausal women by keeping them the same.

The central message of the new recommendations, released on Nov. 1 as a statement published in JAMA, remains unchanged from the last update in 2017.

The message also remains simple: Don’t use hormone therapy for preventing chronic conditions, such as cardiovascular disease, cancer, and osteoporosis, or bone fracture.

The USPSTF summarized its recommendations in two brief statements: the group “recommends against the use of combined estrogen and progestin for the primary prevention of chronic conditions in postmenopausal persons” and “recommends against the use of estrogen alone for the primary prevention of chronic conditions in postmenopausal persons who have had a hysterectomy.”

This wording is identical to that used in the 2017 guidance (except it now refers to postmenopausal persons instead of specifically women). The recommendation against use of estrogen and progestin for prevention of chronic conditions in postmenopausal women was first made by the USPSTF in 2002.

An editorial accompanying the 2022 revision notes that the evidence cited by the USPSTF includes “only two additional, modest-sized trials” (that focused on the effects of hormone therapy on cognition and brain structure) compared with 2017, “as well as ancillary analyses of previous trials.”
 

A standard 5-year update

The 2022 revision and revisiting of the evidence base by the Task Force regarding the benefits and risks of postmenopausal hormone therapy occurred “as part of the Task Force’s standard approach, which includes updating each recommendation approximately every 5 years,” explained Carol M. Mangione, MD, who is USPSTF chair and chief of the division of general internal medicine and health services research at the University of California, Los Angeles.

“In our review we again found that while hormone therapy may reduce the risk of some conditions, it can also lead to serious harms such as an increase in the risk of blood clots and stroke,” Dr. Mangione said in an interview. “The harms cancel out any potential benefits overall.”

This new statement only applies to using menopausal hormone treatment for preventing chronic conditions in asymptomatic people but does not speak to using this treatment in managing people with perimenopausal symptoms such as hot flashes or vaginal dryness or treating people with premature or surgical menopause, Dr. Mangione highlighted.
 

No review for treating menopausal symptoms

“The Task Force encourages people who are experiencing symptoms of menopause to talk with their health care professional about the best treatment for them,” explained Dr. Mangione. “The Task Force did not review the evidence on the use of hormone therapy to treat symptoms of menopause.”

Osteoporosis and increased risk for bone fracture were among the conditions that accompany menopause reviewed by the USPSTF. The Task Force concluded that while “hormone therapy was associated with decreased risk of fractures,” after weighing the benefits and harms for preventing this condition, “there is no net benefit at the population level.”

This conclusion seems to contrast with the 2022 hormone therapy position statement of the North American Menopause Society (NAMS), released in July, which states: “For women aged younger than 60 years or who are within 10 years of menopause onset and have no contraindications, the benefit-risk ratio is favorable for treatment of bothersome vasomotor symptoms and prevention of bone loss.”
 

USPSTF, NAMS are ‘completely consistent’

However, Stephanie S. Faubion, MD, medical director of NAMS and director of the women’s health clinic at Mayo Clinic, Rochester, Minn., said the new USPSTF recommendations “are completely consistent” with the recent NAMS statement.

“We are entirely aligned with the recommendation to use hormone therapy for management of menopausal symptoms and not for chronic disease prevention or as an anti-aging strategy,” Dr. Faubion commented in an interview.

Dr. Faubion also stressed that “menopausal hormone therapy remains the most effective treatment for menopausal symptoms,” and that “women should not be reflexively directed to other pharmacologic therapies for management of menopausal symptoms.”

The distinction the USPSTF makes between its recommendations against using hormone therapy to prevent chronic conditions and its deferral of comment on use of the same treatment to manage perimenopausal symptoms is often forgotten, note Alison J. Huang, MD, and Deborah Grady, MD, in their editorial.
 

A problem of conflation

“Many patients and clinicians conflate these two different indications,” they write.

The notion that the net harms of menopausal hormone therapy outweigh the benefits “is now widely adopted as a rationale for foregoing menopausal hormone therapy for symptomatic treatment,” even though “nonhormonal treatments that are as effective as menopausal hormone therapy have not yet been identified,” say Dr. Huang and Dr. Grady, both physicians at the University of California, San Francisco.

In addition, alternative, nonhormonal options for treating perimenopausal symptoms have not received the same level of scrutiny as hormonal treatment, they say.

“It is arguably problematic to avoid menopausal hormone therapy and favor potentially less effective treatments, when the longer-term implications of those treatments for health have not been evaluated,” Dr. Huang and Dr. Grady write in their editorial.

In short, during menopause, people are at risk of being “frightened away from considering using menopausal hormone therapy for distressing symptoms,” they say.

“We can’t speak to whether or how often clinicians might be conflating the role of hormone therapy in treating symptoms and preventing chronic conditions,” answered Dr. Mangione.

“We hope to ensure that health professionals know that hormone therapy is not a beneficial way to reduce the risk of chronic conditions such as heart disease, cancer, and strokes,” she added. The new recommendations are an effort to “raise awareness about the value of considering other safe and effective ways for people to reduce their risk of chronic health problems as they age.”
 

The issue of timing

Another critique offered by Dr. Huang and Dr. Grady in their editorial is that “the scientific and medical community should let go of the past,” and should no longer invest additional resources in “trying to parse out subsets of menopausal patients who may derive some preventive benefit from menopausal hormone therapy for a limited amount of time.”

But Dr. Mangione disagreed.

The USPSTF “calls for more research that can help us understand whether health outcomes – both benefits and harms – differ depending on a person’s age or when they started hormone therapy related to when they went through menopause,” she said.

Dr. Mangione also highlighted the need for additional research on whether the benefits and risks of menopausal hormone therapy vary across racial and ethnic groups.

USPSTF receives no commercial funding. Dr. Mangione, Dr. Huang, and Dr. Grady have reported no relevant financial relationships.

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

The U.S. Preventive Services Task Force moved forward their recommendations for using hormone therapy to prevent chronic conditions in postmenopausal women by keeping them the same.

The central message of the new recommendations, released on Nov. 1 as a statement published in JAMA, remains unchanged from the last update in 2017.

The message also remains simple: Don’t use hormone therapy for preventing chronic conditions, such as cardiovascular disease, cancer, and osteoporosis, or bone fracture.

The USPSTF summarized its recommendations in two brief statements: the group “recommends against the use of combined estrogen and progestin for the primary prevention of chronic conditions in postmenopausal persons” and “recommends against the use of estrogen alone for the primary prevention of chronic conditions in postmenopausal persons who have had a hysterectomy.”

This wording is identical to that used in the 2017 guidance (except it now refers to postmenopausal persons instead of specifically women). The recommendation against use of estrogen and progestin for prevention of chronic conditions in postmenopausal women was first made by the USPSTF in 2002.

An editorial accompanying the 2022 revision notes that the evidence cited by the USPSTF includes “only two additional, modest-sized trials” (that focused on the effects of hormone therapy on cognition and brain structure) compared with 2017, “as well as ancillary analyses of previous trials.”
 

A standard 5-year update

The 2022 revision and revisiting of the evidence base by the Task Force regarding the benefits and risks of postmenopausal hormone therapy occurred “as part of the Task Force’s standard approach, which includes updating each recommendation approximately every 5 years,” explained Carol M. Mangione, MD, who is USPSTF chair and chief of the division of general internal medicine and health services research at the University of California, Los Angeles.

“In our review we again found that while hormone therapy may reduce the risk of some conditions, it can also lead to serious harms such as an increase in the risk of blood clots and stroke,” Dr. Mangione said in an interview. “The harms cancel out any potential benefits overall.”

This new statement only applies to using menopausal hormone treatment for preventing chronic conditions in asymptomatic people but does not speak to using this treatment in managing people with perimenopausal symptoms such as hot flashes or vaginal dryness or treating people with premature or surgical menopause, Dr. Mangione highlighted.
 

No review for treating menopausal symptoms

“The Task Force encourages people who are experiencing symptoms of menopause to talk with their health care professional about the best treatment for them,” explained Dr. Mangione. “The Task Force did not review the evidence on the use of hormone therapy to treat symptoms of menopause.”

Osteoporosis and increased risk for bone fracture were among the conditions that accompany menopause reviewed by the USPSTF. The Task Force concluded that while “hormone therapy was associated with decreased risk of fractures,” after weighing the benefits and harms for preventing this condition, “there is no net benefit at the population level.”

This conclusion seems to contrast with the 2022 hormone therapy position statement of the North American Menopause Society (NAMS), released in July, which states: “For women aged younger than 60 years or who are within 10 years of menopause onset and have no contraindications, the benefit-risk ratio is favorable for treatment of bothersome vasomotor symptoms and prevention of bone loss.”
 

USPSTF, NAMS are ‘completely consistent’

However, Stephanie S. Faubion, MD, medical director of NAMS and director of the women’s health clinic at Mayo Clinic, Rochester, Minn., said the new USPSTF recommendations “are completely consistent” with the recent NAMS statement.

“We are entirely aligned with the recommendation to use hormone therapy for management of menopausal symptoms and not for chronic disease prevention or as an anti-aging strategy,” Dr. Faubion commented in an interview.

Dr. Faubion also stressed that “menopausal hormone therapy remains the most effective treatment for menopausal symptoms,” and that “women should not be reflexively directed to other pharmacologic therapies for management of menopausal symptoms.”

The distinction the USPSTF makes between its recommendations against using hormone therapy to prevent chronic conditions and its deferral of comment on use of the same treatment to manage perimenopausal symptoms is often forgotten, note Alison J. Huang, MD, and Deborah Grady, MD, in their editorial.
 

A problem of conflation

“Many patients and clinicians conflate these two different indications,” they write.

The notion that the net harms of menopausal hormone therapy outweigh the benefits “is now widely adopted as a rationale for foregoing menopausal hormone therapy for symptomatic treatment,” even though “nonhormonal treatments that are as effective as menopausal hormone therapy have not yet been identified,” say Dr. Huang and Dr. Grady, both physicians at the University of California, San Francisco.

In addition, alternative, nonhormonal options for treating perimenopausal symptoms have not received the same level of scrutiny as hormonal treatment, they say.

“It is arguably problematic to avoid menopausal hormone therapy and favor potentially less effective treatments, when the longer-term implications of those treatments for health have not been evaluated,” Dr. Huang and Dr. Grady write in their editorial.

In short, during menopause, people are at risk of being “frightened away from considering using menopausal hormone therapy for distressing symptoms,” they say.

“We can’t speak to whether or how often clinicians might be conflating the role of hormone therapy in treating symptoms and preventing chronic conditions,” answered Dr. Mangione.

“We hope to ensure that health professionals know that hormone therapy is not a beneficial way to reduce the risk of chronic conditions such as heart disease, cancer, and strokes,” she added. The new recommendations are an effort to “raise awareness about the value of considering other safe and effective ways for people to reduce their risk of chronic health problems as they age.”
 

The issue of timing

Another critique offered by Dr. Huang and Dr. Grady in their editorial is that “the scientific and medical community should let go of the past,” and should no longer invest additional resources in “trying to parse out subsets of menopausal patients who may derive some preventive benefit from menopausal hormone therapy for a limited amount of time.”

But Dr. Mangione disagreed.

The USPSTF “calls for more research that can help us understand whether health outcomes – both benefits and harms – differ depending on a person’s age or when they started hormone therapy related to when they went through menopause,” she said.

Dr. Mangione also highlighted the need for additional research on whether the benefits and risks of menopausal hormone therapy vary across racial and ethnic groups.

USPSTF receives no commercial funding. Dr. Mangione, Dr. Huang, and Dr. Grady have reported no relevant financial relationships.

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

The U.S. Preventive Services Task Force moved forward their recommendations for using hormone therapy to prevent chronic conditions in postmenopausal women by keeping them the same.

The central message of the new recommendations, released on Nov. 1 as a statement published in JAMA, remains unchanged from the last update in 2017.

The message also remains simple: Don’t use hormone therapy for preventing chronic conditions, such as cardiovascular disease, cancer, and osteoporosis, or bone fracture.

The USPSTF summarized its recommendations in two brief statements: the group “recommends against the use of combined estrogen and progestin for the primary prevention of chronic conditions in postmenopausal persons” and “recommends against the use of estrogen alone for the primary prevention of chronic conditions in postmenopausal persons who have had a hysterectomy.”

This wording is identical to that used in the 2017 guidance (except it now refers to postmenopausal persons instead of specifically women). The recommendation against use of estrogen and progestin for prevention of chronic conditions in postmenopausal women was first made by the USPSTF in 2002.

An editorial accompanying the 2022 revision notes that the evidence cited by the USPSTF includes “only two additional, modest-sized trials” (that focused on the effects of hormone therapy on cognition and brain structure) compared with 2017, “as well as ancillary analyses of previous trials.”
 

A standard 5-year update

The 2022 revision and revisiting of the evidence base by the Task Force regarding the benefits and risks of postmenopausal hormone therapy occurred “as part of the Task Force’s standard approach, which includes updating each recommendation approximately every 5 years,” explained Carol M. Mangione, MD, who is USPSTF chair and chief of the division of general internal medicine and health services research at the University of California, Los Angeles.

“In our review we again found that while hormone therapy may reduce the risk of some conditions, it can also lead to serious harms such as an increase in the risk of blood clots and stroke,” Dr. Mangione said in an interview. “The harms cancel out any potential benefits overall.”

This new statement only applies to using menopausal hormone treatment for preventing chronic conditions in asymptomatic people but does not speak to using this treatment in managing people with perimenopausal symptoms such as hot flashes or vaginal dryness or treating people with premature or surgical menopause, Dr. Mangione highlighted.
 

No review for treating menopausal symptoms

“The Task Force encourages people who are experiencing symptoms of menopause to talk with their health care professional about the best treatment for them,” explained Dr. Mangione. “The Task Force did not review the evidence on the use of hormone therapy to treat symptoms of menopause.”

Osteoporosis and increased risk for bone fracture were among the conditions that accompany menopause reviewed by the USPSTF. The Task Force concluded that while “hormone therapy was associated with decreased risk of fractures,” after weighing the benefits and harms for preventing this condition, “there is no net benefit at the population level.”

This conclusion seems to contrast with the 2022 hormone therapy position statement of the North American Menopause Society (NAMS), released in July, which states: “For women aged younger than 60 years or who are within 10 years of menopause onset and have no contraindications, the benefit-risk ratio is favorable for treatment of bothersome vasomotor symptoms and prevention of bone loss.”
 

USPSTF, NAMS are ‘completely consistent’

However, Stephanie S. Faubion, MD, medical director of NAMS and director of the women’s health clinic at Mayo Clinic, Rochester, Minn., said the new USPSTF recommendations “are completely consistent” with the recent NAMS statement.

“We are entirely aligned with the recommendation to use hormone therapy for management of menopausal symptoms and not for chronic disease prevention or as an anti-aging strategy,” Dr. Faubion commented in an interview.

Dr. Faubion also stressed that “menopausal hormone therapy remains the most effective treatment for menopausal symptoms,” and that “women should not be reflexively directed to other pharmacologic therapies for management of menopausal symptoms.”

The distinction the USPSTF makes between its recommendations against using hormone therapy to prevent chronic conditions and its deferral of comment on use of the same treatment to manage perimenopausal symptoms is often forgotten, note Alison J. Huang, MD, and Deborah Grady, MD, in their editorial.
 

A problem of conflation

“Many patients and clinicians conflate these two different indications,” they write.

The notion that the net harms of menopausal hormone therapy outweigh the benefits “is now widely adopted as a rationale for foregoing menopausal hormone therapy for symptomatic treatment,” even though “nonhormonal treatments that are as effective as menopausal hormone therapy have not yet been identified,” say Dr. Huang and Dr. Grady, both physicians at the University of California, San Francisco.

In addition, alternative, nonhormonal options for treating perimenopausal symptoms have not received the same level of scrutiny as hormonal treatment, they say.

“It is arguably problematic to avoid menopausal hormone therapy and favor potentially less effective treatments, when the longer-term implications of those treatments for health have not been evaluated,” Dr. Huang and Dr. Grady write in their editorial.

In short, during menopause, people are at risk of being “frightened away from considering using menopausal hormone therapy for distressing symptoms,” they say.

“We can’t speak to whether or how often clinicians might be conflating the role of hormone therapy in treating symptoms and preventing chronic conditions,” answered Dr. Mangione.

“We hope to ensure that health professionals know that hormone therapy is not a beneficial way to reduce the risk of chronic conditions such as heart disease, cancer, and strokes,” she added. The new recommendations are an effort to “raise awareness about the value of considering other safe and effective ways for people to reduce their risk of chronic health problems as they age.”
 

The issue of timing

Another critique offered by Dr. Huang and Dr. Grady in their editorial is that “the scientific and medical community should let go of the past,” and should no longer invest additional resources in “trying to parse out subsets of menopausal patients who may derive some preventive benefit from menopausal hormone therapy for a limited amount of time.”

But Dr. Mangione disagreed.

The USPSTF “calls for more research that can help us understand whether health outcomes – both benefits and harms – differ depending on a person’s age or when they started hormone therapy related to when they went through menopause,” she said.

Dr. Mangione also highlighted the need for additional research on whether the benefits and risks of menopausal hormone therapy vary across racial and ethnic groups.

USPSTF receives no commercial funding. Dr. Mangione, Dr. Huang, and Dr. Grady have reported no relevant financial relationships.

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

VIENNA – The production of estrogen in the thalamus appears to be curtailed by just one dose of nicotine, equivalent to that in a cigarette, reveals a whole brain analysis of healthy women in the first study of its kind.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.

The researchers performed both MRI and positron emission tomography (PET) scans in 10 healthy women using a tracer that binds to aromatase, also known as estrogen synthase.

They found that, following an intranasal spray delivering 1 mg of nicotine, there was a significant reduction in estrogen synthase in both the right and left thalamus.

“For the first time, we can see that nicotine works to shut down the estrogen production mechanism in the brains of women,” said lead researcher Erika Comasco, PhD, department of neuroscience, Uppsala University, Sweden, in a release.

“We were surprised to see that this effect could be seen even with a single dose of nicotine, equivalent to just one cigarette, showing how powerful the effects of smoking are on a woman’s brain.”

Emphasizing the preliminary nature of the study and the need for a larger sample, she added: “We’re still not sure what the behavioral or cognitive outcomes are, only that nicotine acts on this area of the brain.

“However, we note that the affected brain system is a target for addictive drugs, such as nicotine.”

Previous research has revealed that women are less successful at quitting smoking than men, and appear to be more resistant to nicotine replacement therapy, and experience more relapses.

There is evidence to suggest that there is a complex interaction between sex and steroid hormones and the reward effect of nicotine, modulated by the dopaminergic system.

Moreover, women who smoke enter menopause earlier than nonsmokers, and have lower plasma estrogen levels, Dr. Camasco told this news organization.

Dr. Comasco explained that “besides its role in reproductive function and sexual behavior, estrogen has an impact on the brain wherever there are receptors, which is basically regions that are related to emotional regulation, cognitive function, and so on.”

Estrogen, she continued, has two main mechanisms of action, via dopaminergic and serotonergic signaling. However, levels of the hormone cannot be measured directly in the brain.

The researchers therefore turned to estrogen synthase, which regulates the synthesis of estrogen, and is highly expressed in the limbic system, a brain region associated with addiction.

Moreover, estrogen synthase levels can be measured in vivo, and previous animal studies have indicated that nicotine inhibits estrogen synthase.

To investigate its impact in humans, the researchers performed structural MRI and two ¹¹C-cetrozole PET scans in 10 healthy women.

The assessments were performed before and after the nasal administration of 1 mg of nicotine, the dose contained in one cigarette, via two sprays of a nasal spray each containing 0.5 mg of nicotine.

A whole brain analysis was then used to determine changes in nondisplaceable binding potential of ¹¹C-cetrozole to estrogen synthase between the two scans to indicate the availability of the enzyme at the two time points.

The results showed that, at baseline, high availability of estrogen synthase was observed in the thalamus, hypothalamus, and amygdala, with the highest levels in the right and left thalamus.

However, nicotine exposure was associated with a significant reduction in estrogen binding bilaterally in the thalamus when averaged across the participants (P < .01).

Region-of-interest analysis using within-individual voxel-wise comparison confirmed reduced estrogen synthase levels in both the right and left thalamus (P < .05), as well as in the subthalamic area.

Next, Dr. Comasco would like to test the impact of nicotine on estrogen synthase in men.

While men have lower levels of estrogen then women, “the reaction will take place anyway,” she said, although the “impact would be different.”

She would also like to look at the behavioral effects of reductions in estrogen synthase, and look at the effect of nicotine from a functional point of view.

Wim van den Brink, MD, PhD, professor of psychiatry and addiction at the Academic Medical Center, University of Amsterdam, commented that this is an “important first finding.”

“Smoking has many adverse effects in men and in women, but this particular effect of nicotine on the reduction of estrogen production in women was not known before,” he added in the release.

However, he underlined that tobacco addition is a “complex disorder” and it is “unlikely that this specific effect of nicotine on the thalamus explains all the observed differences in the development, treatment, and outcomes between male and female smokers.”

“It is still a long way from a nicotine-induced reduction in estrogen production to a reduced risk of nicotine addiction and negative effects of treatment and relapse in female cigarette smokers, but this work merits further investigation,” Dr. van den Brink said.

The study was funded by the Science for Life Laboratory/Uppsala University.

No relevant financial relationships were declared.

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

VIENNA – The production of estrogen in the thalamus appears to be curtailed by just one dose of nicotine, equivalent to that in a cigarette, reveals a whole brain analysis of healthy women in the first study of its kind.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.

The researchers performed both MRI and positron emission tomography (PET) scans in 10 healthy women using a tracer that binds to aromatase, also known as estrogen synthase.

They found that, following an intranasal spray delivering 1 mg of nicotine, there was a significant reduction in estrogen synthase in both the right and left thalamus.

“For the first time, we can see that nicotine works to shut down the estrogen production mechanism in the brains of women,” said lead researcher Erika Comasco, PhD, department of neuroscience, Uppsala University, Sweden, in a release.

“We were surprised to see that this effect could be seen even with a single dose of nicotine, equivalent to just one cigarette, showing how powerful the effects of smoking are on a woman’s brain.”

Emphasizing the preliminary nature of the study and the need for a larger sample, she added: “We’re still not sure what the behavioral or cognitive outcomes are, only that nicotine acts on this area of the brain.

“However, we note that the affected brain system is a target for addictive drugs, such as nicotine.”

Previous research has revealed that women are less successful at quitting smoking than men, and appear to be more resistant to nicotine replacement therapy, and experience more relapses.

There is evidence to suggest that there is a complex interaction between sex and steroid hormones and the reward effect of nicotine, modulated by the dopaminergic system.

Moreover, women who smoke enter menopause earlier than nonsmokers, and have lower plasma estrogen levels, Dr. Camasco told this news organization.

Dr. Comasco explained that “besides its role in reproductive function and sexual behavior, estrogen has an impact on the brain wherever there are receptors, which is basically regions that are related to emotional regulation, cognitive function, and so on.”

Estrogen, she continued, has two main mechanisms of action, via dopaminergic and serotonergic signaling. However, levels of the hormone cannot be measured directly in the brain.

The researchers therefore turned to estrogen synthase, which regulates the synthesis of estrogen, and is highly expressed in the limbic system, a brain region associated with addiction.

Moreover, estrogen synthase levels can be measured in vivo, and previous animal studies have indicated that nicotine inhibits estrogen synthase.

To investigate its impact in humans, the researchers performed structural MRI and two ¹¹C-cetrozole PET scans in 10 healthy women.

The assessments were performed before and after the nasal administration of 1 mg of nicotine, the dose contained in one cigarette, via two sprays of a nasal spray each containing 0.5 mg of nicotine.

A whole brain analysis was then used to determine changes in nondisplaceable binding potential of ¹¹C-cetrozole to estrogen synthase between the two scans to indicate the availability of the enzyme at the two time points.

The results showed that, at baseline, high availability of estrogen synthase was observed in the thalamus, hypothalamus, and amygdala, with the highest levels in the right and left thalamus.

However, nicotine exposure was associated with a significant reduction in estrogen binding bilaterally in the thalamus when averaged across the participants (P < .01).

Region-of-interest analysis using within-individual voxel-wise comparison confirmed reduced estrogen synthase levels in both the right and left thalamus (P < .05), as well as in the subthalamic area.

Next, Dr. Comasco would like to test the impact of nicotine on estrogen synthase in men.

While men have lower levels of estrogen then women, “the reaction will take place anyway,” she said, although the “impact would be different.”

She would also like to look at the behavioral effects of reductions in estrogen synthase, and look at the effect of nicotine from a functional point of view.

Wim van den Brink, MD, PhD, professor of psychiatry and addiction at the Academic Medical Center, University of Amsterdam, commented that this is an “important first finding.”

“Smoking has many adverse effects in men and in women, but this particular effect of nicotine on the reduction of estrogen production in women was not known before,” he added in the release.

However, he underlined that tobacco addition is a “complex disorder” and it is “unlikely that this specific effect of nicotine on the thalamus explains all the observed differences in the development, treatment, and outcomes between male and female smokers.”

“It is still a long way from a nicotine-induced reduction in estrogen production to a reduced risk of nicotine addiction and negative effects of treatment and relapse in female cigarette smokers, but this work merits further investigation,” Dr. van den Brink said.

The study was funded by the Science for Life Laboratory/Uppsala University.

No relevant financial relationships were declared.

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

VIENNA – The production of estrogen in the thalamus appears to be curtailed by just one dose of nicotine, equivalent to that in a cigarette, reveals a whole brain analysis of healthy women in the first study of its kind.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.

The researchers performed both MRI and positron emission tomography (PET) scans in 10 healthy women using a tracer that binds to aromatase, also known as estrogen synthase.

They found that, following an intranasal spray delivering 1 mg of nicotine, there was a significant reduction in estrogen synthase in both the right and left thalamus.

“For the first time, we can see that nicotine works to shut down the estrogen production mechanism in the brains of women,” said lead researcher Erika Comasco, PhD, department of neuroscience, Uppsala University, Sweden, in a release.

“We were surprised to see that this effect could be seen even with a single dose of nicotine, equivalent to just one cigarette, showing how powerful the effects of smoking are on a woman’s brain.”

Emphasizing the preliminary nature of the study and the need for a larger sample, she added: “We’re still not sure what the behavioral or cognitive outcomes are, only that nicotine acts on this area of the brain.

“However, we note that the affected brain system is a target for addictive drugs, such as nicotine.”

Previous research has revealed that women are less successful at quitting smoking than men, and appear to be more resistant to nicotine replacement therapy, and experience more relapses.

There is evidence to suggest that there is a complex interaction between sex and steroid hormones and the reward effect of nicotine, modulated by the dopaminergic system.

Moreover, women who smoke enter menopause earlier than nonsmokers, and have lower plasma estrogen levels, Dr. Camasco told this news organization.

Dr. Comasco explained that “besides its role in reproductive function and sexual behavior, estrogen has an impact on the brain wherever there are receptors, which is basically regions that are related to emotional regulation, cognitive function, and so on.”

Estrogen, she continued, has two main mechanisms of action, via dopaminergic and serotonergic signaling. However, levels of the hormone cannot be measured directly in the brain.

The researchers therefore turned to estrogen synthase, which regulates the synthesis of estrogen, and is highly expressed in the limbic system, a brain region associated with addiction.

Moreover, estrogen synthase levels can be measured in vivo, and previous animal studies have indicated that nicotine inhibits estrogen synthase.

To investigate its impact in humans, the researchers performed structural MRI and two ¹¹C-cetrozole PET scans in 10 healthy women.

The assessments were performed before and after the nasal administration of 1 mg of nicotine, the dose contained in one cigarette, via two sprays of a nasal spray each containing 0.5 mg of nicotine.

A whole brain analysis was then used to determine changes in nondisplaceable binding potential of ¹¹C-cetrozole to estrogen synthase between the two scans to indicate the availability of the enzyme at the two time points.

The results showed that, at baseline, high availability of estrogen synthase was observed in the thalamus, hypothalamus, and amygdala, with the highest levels in the right and left thalamus.

However, nicotine exposure was associated with a significant reduction in estrogen binding bilaterally in the thalamus when averaged across the participants (P < .01).

Region-of-interest analysis using within-individual voxel-wise comparison confirmed reduced estrogen synthase levels in both the right and left thalamus (P < .05), as well as in the subthalamic area.

Next, Dr. Comasco would like to test the impact of nicotine on estrogen synthase in men.

While men have lower levels of estrogen then women, “the reaction will take place anyway,” she said, although the “impact would be different.”

She would also like to look at the behavioral effects of reductions in estrogen synthase, and look at the effect of nicotine from a functional point of view.

Wim van den Brink, MD, PhD, professor of psychiatry and addiction at the Academic Medical Center, University of Amsterdam, commented that this is an “important first finding.”

“Smoking has many adverse effects in men and in women, but this particular effect of nicotine on the reduction of estrogen production in women was not known before,” he added in the release.

However, he underlined that tobacco addition is a “complex disorder” and it is “unlikely that this specific effect of nicotine on the thalamus explains all the observed differences in the development, treatment, and outcomes between male and female smokers.”

“It is still a long way from a nicotine-induced reduction in estrogen production to a reduced risk of nicotine addiction and negative effects of treatment and relapse in female cigarette smokers, but this work merits further investigation,” Dr. van den Brink said.

The study was funded by the Science for Life Laboratory/Uppsala University.

No relevant financial relationships were declared.

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

MONTREAL – Patients hospitalized with severe COVID-19 and no prior history of thyroid dysfunction show signs of thyroiditis that, although asymptomatic, continue to persist for up to a year after infection, according to research that adds to evidence on the complex involvement of the thyroid in COVID-19.

“To our knowledge these findings are novel,” first author Ilaria Muller, MD, PhD, an assistant professor in endocrinology in the department of clinical sciences and community health, University of Milan, told this news organization.

“Little has been written about the long-term follow-up of thyroid function after severe COVID-19 disease, and we have followed patients up to 1 year after infection.”

The effects are seen in about 10%-15% of patients, and “[while] the thyroid dysfunction is transient, ultrasound areas of thyroiditis may persist after 1 year, even if they progressively shrink,” said Dr. Muller, who presented the findings at the American Thyroid Association annual meeting.
 

Immunological scars? Clinical implications unclear

The nature and implications of the persistent thyroiditis areas are uncertain, Dr. Muller noted. “These areas of thyroiditis are likely a sort of ‘immunologic scar’ of the previous SARS-CoV-2 infection,” she explained. “We still don’t know if there are clinical implications, even if they seem unlikely.”

Of note, increases in autoimmune processes or a higher incidence of thyroid dysfunction after COVID-19 have not been observed, and the shrinkage of the areas of thyroiditis over time is encouraging, she said.

The reasons why some patients develop atypical thyroiditis and others don’t are also unclear, with Dr. Muller’s team investigating further. Importantly, similar effects have been associated with other severe infections, not just COVID-19. “It is well known that in classic subacute thyroiditis due to other viral infections, the areas of thyroiditis persist for months, so this phenomenon might not be unique to COVID-19,” she explained.

Commenting on the story, Jeffrey R. Garber, MD, also noted that such thyroiditis areas stemming from other types of infection may persist – but go unnoticed.

“Resolution is the clinical rule, [and] we generally do not restudy in detail those who clinically recover,” he said in an interview. “However, there is evidence of impaired thyroid reserve in those who recover from viral thyroiditis due to other sources.”

“Thyroid symptoms are often not specific, so ‘atypical’ [cases] are common, [and] resolution with restoring thyroid status to normal is mixed,” noted Dr. Garber, an associate professor of medicine at Harvard Medical School and chief of the division of endocrinology at Atrius Health, Boston.

In terms of clinical practice, while such issues should be kept in mind when evaluating abnormal thyroid tests during severe COVID-19, “it is not a call for routinely checking it in the absence of clinical suspicion,” he observed.
 

Study details

Dr. Muller and her team previously observed that patients hospitalized in intensive care with COVID-19 often had low or suppressed serum thyroid-stimulating hormone (TSH) levels, with and without elevated free thyroxine (FT₄) concentrations, suggestive of thyrotoxicosis.

Upon investigating those cases, they found, as in their previous study reported by this news organization, that a painless, atypical thyroiditis occurs with nonthyroidal illness syndrome among patients hospitalized with severe COVID-19. The atypical thyroiditis was slightly more common in men and was associated with lymphopenia.

To further investigate those cases and follow patients up to 1 year, the team conducted a longitudinal study of 183 patients hospitalized with severe COVID-19 in Italy. The patients, who had no known prior history of thyroid dysfunction, were assessed for serum thyroid function, autoantibodies, and inflammatory markers.

At baseline, 10% of the patients were found to have thyrotoxicosis, and ultrasound performed within 2-3 months postinfection on 65 patients showed that 18 (28%) had areas of thyroiditis.

Importantly, 60% of those patients with the areas of thyroiditis had low TSH levels, while 25% had normal TSH levels (P = .034).

In addition, those showing the presence of thyroiditis on ultrasound at 23 months were more likely to have elevated serum concentrations of FT₄ (P = .018) and higher levels of interleukin-26 (P = .016), compared with those with normal ultrasound readings.

In a longitudinal analysis further following patients post infection, among 15 patients who were evaluated at 6 months, most, 13 (87%), still had areas of thyroiditis, and 6 of 12 (50%) had thyroiditis areas that, though reduced in size, still persisted even at 12 months.

In terms of thyroid uptake, at 3 months, 14 of 17 patients (82%) had diffused or focal areas of a reduction of uptake. After 6 months, there was a recovery, with a median of 28% of thyroid uptake recovered, however, 67% of patients still had some focal or diffused reduction in thyroid uptake.

Of note, the indications of thyroiditis on imaging persisted even though patients’ TSH levels had quickly normalized at the end of infection and remained normal up to 1 year of follow-up.

The patients showed no apparent development of thyroglobulin antibody, thyroid peroxidase antibodies, or TSH receptor antibodies.

A further fine needle aspiration analysis of eight patients with atypical thyroiditis at 3 months after infection showed that those patients had tissue resident memory T cells (CD4+/CD8+/CD103+/CD69+) within the thyroid, but not in the blood as expected.

Additional assessments at 8 months after infection showed those tissue resident memory T cells continued to be present on imaging.

The results showed “SARS-CoV-2–specific T cells were enriched within the thyroid compared with the blood, many with a tissue resident phenotype,” Dr. Muller explained.

The findings are notable in that “such an in-depth characterization of areas of thyroiditis triggered by SARS-CoV-2 infection combining ultrasound, scintigraphy, and immunological phenotyping has not been performed so far,” she said.

“In particular, SARS-CoV-2–specific tissue-resident memory T lymphocytes have not been described before in the thyroid gland.”

Dr. Muller and Dr. Garber have reported no relevant financial relationships.

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

MONTREAL – Patients hospitalized with severe COVID-19 and no prior history of thyroid dysfunction show signs of thyroiditis that, although asymptomatic, continue to persist for up to a year after infection, according to research that adds to evidence on the complex involvement of the thyroid in COVID-19.

“To our knowledge these findings are novel,” first author Ilaria Muller, MD, PhD, an assistant professor in endocrinology in the department of clinical sciences and community health, University of Milan, told this news organization.

“Little has been written about the long-term follow-up of thyroid function after severe COVID-19 disease, and we have followed patients up to 1 year after infection.”

The effects are seen in about 10%-15% of patients, and “[while] the thyroid dysfunction is transient, ultrasound areas of thyroiditis may persist after 1 year, even if they progressively shrink,” said Dr. Muller, who presented the findings at the American Thyroid Association annual meeting.
 

Immunological scars? Clinical implications unclear

The nature and implications of the persistent thyroiditis areas are uncertain, Dr. Muller noted. “These areas of thyroiditis are likely a sort of ‘immunologic scar’ of the previous SARS-CoV-2 infection,” she explained. “We still don’t know if there are clinical implications, even if they seem unlikely.”

Of note, increases in autoimmune processes or a higher incidence of thyroid dysfunction after COVID-19 have not been observed, and the shrinkage of the areas of thyroiditis over time is encouraging, she said.

The reasons why some patients develop atypical thyroiditis and others don’t are also unclear, with Dr. Muller’s team investigating further. Importantly, similar effects have been associated with other severe infections, not just COVID-19. “It is well known that in classic subacute thyroiditis due to other viral infections, the areas of thyroiditis persist for months, so this phenomenon might not be unique to COVID-19,” she explained.

Commenting on the story, Jeffrey R. Garber, MD, also noted that such thyroiditis areas stemming from other types of infection may persist – but go unnoticed.

“Resolution is the clinical rule, [and] we generally do not restudy in detail those who clinically recover,” he said in an interview. “However, there is evidence of impaired thyroid reserve in those who recover from viral thyroiditis due to other sources.”

“Thyroid symptoms are often not specific, so ‘atypical’ [cases] are common, [and] resolution with restoring thyroid status to normal is mixed,” noted Dr. Garber, an associate professor of medicine at Harvard Medical School and chief of the division of endocrinology at Atrius Health, Boston.

In terms of clinical practice, while such issues should be kept in mind when evaluating abnormal thyroid tests during severe COVID-19, “it is not a call for routinely checking it in the absence of clinical suspicion,” he observed.
 

Study details

Dr. Muller and her team previously observed that patients hospitalized in intensive care with COVID-19 often had low or suppressed serum thyroid-stimulating hormone (TSH) levels, with and without elevated free thyroxine (FT₄) concentrations, suggestive of thyrotoxicosis.

Upon investigating those cases, they found, as in their previous study reported by this news organization, that a painless, atypical thyroiditis occurs with nonthyroidal illness syndrome among patients hospitalized with severe COVID-19. The atypical thyroiditis was slightly more common in men and was associated with lymphopenia.

To further investigate those cases and follow patients up to 1 year, the team conducted a longitudinal study of 183 patients hospitalized with severe COVID-19 in Italy. The patients, who had no known prior history of thyroid dysfunction, were assessed for serum thyroid function, autoantibodies, and inflammatory markers.

At baseline, 10% of the patients were found to have thyrotoxicosis, and ultrasound performed within 2-3 months postinfection on 65 patients showed that 18 (28%) had areas of thyroiditis.

Importantly, 60% of those patients with the areas of thyroiditis had low TSH levels, while 25% had normal TSH levels (P = .034).

In addition, those showing the presence of thyroiditis on ultrasound at 23 months were more likely to have elevated serum concentrations of FT₄ (P = .018) and higher levels of interleukin-26 (P = .016), compared with those with normal ultrasound readings.

In a longitudinal analysis further following patients post infection, among 15 patients who were evaluated at 6 months, most, 13 (87%), still had areas of thyroiditis, and 6 of 12 (50%) had thyroiditis areas that, though reduced in size, still persisted even at 12 months.

In terms of thyroid uptake, at 3 months, 14 of 17 patients (82%) had diffused or focal areas of a reduction of uptake. After 6 months, there was a recovery, with a median of 28% of thyroid uptake recovered, however, 67% of patients still had some focal or diffused reduction in thyroid uptake.

Of note, the indications of thyroiditis on imaging persisted even though patients’ TSH levels had quickly normalized at the end of infection and remained normal up to 1 year of follow-up.

The patients showed no apparent development of thyroglobulin antibody, thyroid peroxidase antibodies, or TSH receptor antibodies.

A further fine needle aspiration analysis of eight patients with atypical thyroiditis at 3 months after infection showed that those patients had tissue resident memory T cells (CD4+/CD8+/CD103+/CD69+) within the thyroid, but not in the blood as expected.

Additional assessments at 8 months after infection showed those tissue resident memory T cells continued to be present on imaging.

The results showed “SARS-CoV-2–specific T cells were enriched within the thyroid compared with the blood, many with a tissue resident phenotype,” Dr. Muller explained.

The findings are notable in that “such an in-depth characterization of areas of thyroiditis triggered by SARS-CoV-2 infection combining ultrasound, scintigraphy, and immunological phenotyping has not been performed so far,” she said.

“In particular, SARS-CoV-2–specific tissue-resident memory T lymphocytes have not been described before in the thyroid gland.”

Dr. Muller and Dr. Garber have reported no relevant financial relationships.

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

MONTREAL – Patients hospitalized with severe COVID-19 and no prior history of thyroid dysfunction show signs of thyroiditis that, although asymptomatic, continue to persist for up to a year after infection, according to research that adds to evidence on the complex involvement of the thyroid in COVID-19.

“To our knowledge these findings are novel,” first author Ilaria Muller, MD, PhD, an assistant professor in endocrinology in the department of clinical sciences and community health, University of Milan, told this news organization.

“Little has been written about the long-term follow-up of thyroid function after severe COVID-19 disease, and we have followed patients up to 1 year after infection.”

The effects are seen in about 10%-15% of patients, and “[while] the thyroid dysfunction is transient, ultrasound areas of thyroiditis may persist after 1 year, even if they progressively shrink,” said Dr. Muller, who presented the findings at the American Thyroid Association annual meeting.
 

Immunological scars? Clinical implications unclear

The nature and implications of the persistent thyroiditis areas are uncertain, Dr. Muller noted. “These areas of thyroiditis are likely a sort of ‘immunologic scar’ of the previous SARS-CoV-2 infection,” she explained. “We still don’t know if there are clinical implications, even if they seem unlikely.”

Of note, increases in autoimmune processes or a higher incidence of thyroid dysfunction after COVID-19 have not been observed, and the shrinkage of the areas of thyroiditis over time is encouraging, she said.

The reasons why some patients develop atypical thyroiditis and others don’t are also unclear, with Dr. Muller’s team investigating further. Importantly, similar effects have been associated with other severe infections, not just COVID-19. “It is well known that in classic subacute thyroiditis due to other viral infections, the areas of thyroiditis persist for months, so this phenomenon might not be unique to COVID-19,” she explained.

Commenting on the story, Jeffrey R. Garber, MD, also noted that such thyroiditis areas stemming from other types of infection may persist – but go unnoticed.

“Resolution is the clinical rule, [and] we generally do not restudy in detail those who clinically recover,” he said in an interview. “However, there is evidence of impaired thyroid reserve in those who recover from viral thyroiditis due to other sources.”

“Thyroid symptoms are often not specific, so ‘atypical’ [cases] are common, [and] resolution with restoring thyroid status to normal is mixed,” noted Dr. Garber, an associate professor of medicine at Harvard Medical School and chief of the division of endocrinology at Atrius Health, Boston.

In terms of clinical practice, while such issues should be kept in mind when evaluating abnormal thyroid tests during severe COVID-19, “it is not a call for routinely checking it in the absence of clinical suspicion,” he observed.
 

Study details

Dr. Muller and her team previously observed that patients hospitalized in intensive care with COVID-19 often had low or suppressed serum thyroid-stimulating hormone (TSH) levels, with and without elevated free thyroxine (FT₄) concentrations, suggestive of thyrotoxicosis.

Upon investigating those cases, they found, as in their previous study reported by this news organization, that a painless, atypical thyroiditis occurs with nonthyroidal illness syndrome among patients hospitalized with severe COVID-19. The atypical thyroiditis was slightly more common in men and was associated with lymphopenia.

To further investigate those cases and follow patients up to 1 year, the team conducted a longitudinal study of 183 patients hospitalized with severe COVID-19 in Italy. The patients, who had no known prior history of thyroid dysfunction, were assessed for serum thyroid function, autoantibodies, and inflammatory markers.

At baseline, 10% of the patients were found to have thyrotoxicosis, and ultrasound performed within 2-3 months postinfection on 65 patients showed that 18 (28%) had areas of thyroiditis.

Importantly, 60% of those patients with the areas of thyroiditis had low TSH levels, while 25% had normal TSH levels (P = .034).

In addition, those showing the presence of thyroiditis on ultrasound at 23 months were more likely to have elevated serum concentrations of FT₄ (P = .018) and higher levels of interleukin-26 (P = .016), compared with those with normal ultrasound readings.

In a longitudinal analysis further following patients post infection, among 15 patients who were evaluated at 6 months, most, 13 (87%), still had areas of thyroiditis, and 6 of 12 (50%) had thyroiditis areas that, though reduced in size, still persisted even at 12 months.

In terms of thyroid uptake, at 3 months, 14 of 17 patients (82%) had diffused or focal areas of a reduction of uptake. After 6 months, there was a recovery, with a median of 28% of thyroid uptake recovered, however, 67% of patients still had some focal or diffused reduction in thyroid uptake.

Of note, the indications of thyroiditis on imaging persisted even though patients’ TSH levels had quickly normalized at the end of infection and remained normal up to 1 year of follow-up.

The patients showed no apparent development of thyroglobulin antibody, thyroid peroxidase antibodies, or TSH receptor antibodies.

A further fine needle aspiration analysis of eight patients with atypical thyroiditis at 3 months after infection showed that those patients had tissue resident memory T cells (CD4+/CD8+/CD103+/CD69+) within the thyroid, but not in the blood as expected.

Additional assessments at 8 months after infection showed those tissue resident memory T cells continued to be present on imaging.

The results showed “SARS-CoV-2–specific T cells were enriched within the thyroid compared with the blood, many with a tissue resident phenotype,” Dr. Muller explained.

The findings are notable in that “such an in-depth characterization of areas of thyroiditis triggered by SARS-CoV-2 infection combining ultrasound, scintigraphy, and immunological phenotyping has not been performed so far,” she said.

“In particular, SARS-CoV-2–specific tissue-resident memory T lymphocytes have not been described before in the thyroid gland.”

Dr. Muller and Dr. Garber have reported no relevant financial relationships.

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

MONTREAL – Pediatric patients with low-risk differentiated thyroid cancer (DTC) who are spared radioactive iodine (RAI) therapy show no increases in the risk of remission, compared with those who do receive it, supporting guidelines that recommend against use of RAI in such patients.

“In 2015, when the American Thyroid Association [ATA] created their pediatric guidelines [on RAI therapy in DTC], they were taking a leap of faith that these [pediatric DTC] patients would be able to achieve remission without RAI,” said first author Mya Bojarsky, Children’s Hospital of Philadelphia (CHOP), when presenting the findings at the American Thyroid Association annual meeting.

“This is the first study to validate those guidelines and support the sentiment that for ATA low-risk pediatric thyroid cancer patients, withholding RAI therapy is clinically beneficial as it reduces exposure to radiation while having no negative impact on remission,” she said.

Prior to 2015, thyroidectomy in combination with RAI was the standard treatment for DTC in pediatric patients. However, data showing that radiation exposure in children increases the risk of secondary hematologic malignancies by 51% and solid malignancies by 23% over a lifetime raised concerns and led to a push to change the treatment approach.

In response, the 2015 ATA pediatric guidelines recommended that patients not receive RAI for the treatment of DTC that was mostly confined to the thyroid (N0 or minimal N1a disease).

Senior author Andrew J. Bauer, MD, noted that, in addition to being the first study to confirm that withholding RAI in low-risk patients is associated with the same rate of achieving remission as patients treated with RAI, the study also endorses that assessments at 1 year can be reliable predictors of remission.

“For these patients, the 1-year mark post-initial treatment (thyroidectomy) is an early and accurate time point for initial assessment of remission, with increasing rates of remission with continued surveillance (at last clinical follow-up) of approximately 90% 2 years post initial treatment,” said Dr. Bauer, medical director, CHOP, and professor of pediatrics, Perelman School of Medicine, University of Pennsylvania, Philadelphia.

“This approach has recently been validated through a prospective study in adult patients,” he added. A large recent study of 730 patients, published in the New England Journal of Medicine, supported the omission of RAI in low-risk DTC in adults, showing that, compared with those who received RAI, the no-RAI group was noninferior in the occurrence of functional, structural, and biologic events at 3 years.
 

Safe to eliminate RAI therapy in low-risk DTC in children

With limited data on how or if the change in treatment had an impact on rates of remission in pediatric patients, Ms. Bojarsky and colleagues conducted a retrospective cohort study of patients under the age of 19 years with ATA low-risk DTC who had undergone a total thyroidectomy at CHOP between 2010 and 2020.

Overall, they identified 95 patients, including 50 who had been treated with RAI in addition to thyroidectomy and 45 who did not receive RAI. Among those who did receive RAI, 31 were treated prior to 2015, and 19 were treated after 2019.

For the study, remission was defined as having undetectable thyroglobulin levels as well as no evidence of disease by ultrasound, Ms. Bojarsky said.

“This is important to show, because we want to ensure that as we are reducing our RAI use in the pediatric population, we were not negatively impacting their ability to achieve remission,” she explained.

The percentage of low-risk pediatric patients with DTC treated with RAI had already dropped from 100% in 2010 down to 38% by 2015 when the guidelines were issued, and after a slight rise to 50% by 2018, the practice plummeted to 0% by 2020, the study shows.

In terms of remission, at 1 year post-treatment, 80% of patients who received RAI were in remission, and the rate was even slightly higher, at 84%, among those who did not receive RAI, for a difference that was not significant.

Further looking at disease status as of the last clinical evaluation, 90% in the group treated with RAI had no evidence of disease at a median of 4.9 years of follow-up, and the rate was 87% in the group not receiving RAI, which had a median of 2.7 years of follow-up.

“In ATA low-risk patients, there is no detriment in achieving remission if RAI therapy is withheld,” say investigators.   

The median tumor size in the RAI group was larger (19.5 mm vs. 12.0 mm; P < .001), and the primary tumor was T1 in 44% of the RAI group but 82% in the no-RAI group (P < .001).

The lymph node status was N0 in 72% of those receiving RAI and 76% in the no RAI group, which was not significantly different.

The leading risk factors associated with treatment with RAI included larger primary tumor size (OR, 1.07; P = .003), lymph node metastasis (OR, 3.72; P = .036), and surgery pre-2015 (OR, 9.83; P < .001).

RAI administration, N1a disease, and surgery prior to 2015 were not independent risk factors for evidence of persistent disease or indeterminate status.

Ms. Bojarsky has reported no relevant financial relationships.

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

MONTREAL – Pediatric patients with low-risk differentiated thyroid cancer (DTC) who are spared radioactive iodine (RAI) therapy show no increases in the risk of remission, compared with those who do receive it, supporting guidelines that recommend against use of RAI in such patients.

“In 2015, when the American Thyroid Association [ATA] created their pediatric guidelines [on RAI therapy in DTC], they were taking a leap of faith that these [pediatric DTC] patients would be able to achieve remission without RAI,” said first author Mya Bojarsky, Children’s Hospital of Philadelphia (CHOP), when presenting the findings at the American Thyroid Association annual meeting.

“This is the first study to validate those guidelines and support the sentiment that for ATA low-risk pediatric thyroid cancer patients, withholding RAI therapy is clinically beneficial as it reduces exposure to radiation while having no negative impact on remission,” she said.

Prior to 2015, thyroidectomy in combination with RAI was the standard treatment for DTC in pediatric patients. However, data showing that radiation exposure in children increases the risk of secondary hematologic malignancies by 51% and solid malignancies by 23% over a lifetime raised concerns and led to a push to change the treatment approach.

In response, the 2015 ATA pediatric guidelines recommended that patients not receive RAI for the treatment of DTC that was mostly confined to the thyroid (N0 or minimal N1a disease).

Senior author Andrew J. Bauer, MD, noted that, in addition to being the first study to confirm that withholding RAI in low-risk patients is associated with the same rate of achieving remission as patients treated with RAI, the study also endorses that assessments at 1 year can be reliable predictors of remission.

“For these patients, the 1-year mark post-initial treatment (thyroidectomy) is an early and accurate time point for initial assessment of remission, with increasing rates of remission with continued surveillance (at last clinical follow-up) of approximately 90% 2 years post initial treatment,” said Dr. Bauer, medical director, CHOP, and professor of pediatrics, Perelman School of Medicine, University of Pennsylvania, Philadelphia.

“This approach has recently been validated through a prospective study in adult patients,” he added. A large recent study of 730 patients, published in the New England Journal of Medicine, supported the omission of RAI in low-risk DTC in adults, showing that, compared with those who received RAI, the no-RAI group was noninferior in the occurrence of functional, structural, and biologic events at 3 years.
 

Safe to eliminate RAI therapy in low-risk DTC in children

With limited data on how or if the change in treatment had an impact on rates of remission in pediatric patients, Ms. Bojarsky and colleagues conducted a retrospective cohort study of patients under the age of 19 years with ATA low-risk DTC who had undergone a total thyroidectomy at CHOP between 2010 and 2020.

Overall, they identified 95 patients, including 50 who had been treated with RAI in addition to thyroidectomy and 45 who did not receive RAI. Among those who did receive RAI, 31 were treated prior to 2015, and 19 were treated after 2019.

For the study, remission was defined as having undetectable thyroglobulin levels as well as no evidence of disease by ultrasound, Ms. Bojarsky said.

“This is important to show, because we want to ensure that as we are reducing our RAI use in the pediatric population, we were not negatively impacting their ability to achieve remission,” she explained.

The percentage of low-risk pediatric patients with DTC treated with RAI had already dropped from 100% in 2010 down to 38% by 2015 when the guidelines were issued, and after a slight rise to 50% by 2018, the practice plummeted to 0% by 2020, the study shows.

In terms of remission, at 1 year post-treatment, 80% of patients who received RAI were in remission, and the rate was even slightly higher, at 84%, among those who did not receive RAI, for a difference that was not significant.

Further looking at disease status as of the last clinical evaluation, 90% in the group treated with RAI had no evidence of disease at a median of 4.9 years of follow-up, and the rate was 87% in the group not receiving RAI, which had a median of 2.7 years of follow-up.

“In ATA low-risk patients, there is no detriment in achieving remission if RAI therapy is withheld,” say investigators.   

The median tumor size in the RAI group was larger (19.5 mm vs. 12.0 mm; P < .001), and the primary tumor was T1 in 44% of the RAI group but 82% in the no-RAI group (P < .001).

The lymph node status was N0 in 72% of those receiving RAI and 76% in the no RAI group, which was not significantly different.

The leading risk factors associated with treatment with RAI included larger primary tumor size (OR, 1.07; P = .003), lymph node metastasis (OR, 3.72; P = .036), and surgery pre-2015 (OR, 9.83; P < .001).

RAI administration, N1a disease, and surgery prior to 2015 were not independent risk factors for evidence of persistent disease or indeterminate status.

Ms. Bojarsky has reported no relevant financial relationships.

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

MONTREAL – Pediatric patients with low-risk differentiated thyroid cancer (DTC) who are spared radioactive iodine (RAI) therapy show no increases in the risk of remission, compared with those who do receive it, supporting guidelines that recommend against use of RAI in such patients.

“In 2015, when the American Thyroid Association [ATA] created their pediatric guidelines [on RAI therapy in DTC], they were taking a leap of faith that these [pediatric DTC] patients would be able to achieve remission without RAI,” said first author Mya Bojarsky, Children’s Hospital of Philadelphia (CHOP), when presenting the findings at the American Thyroid Association annual meeting.

“This is the first study to validate those guidelines and support the sentiment that for ATA low-risk pediatric thyroid cancer patients, withholding RAI therapy is clinically beneficial as it reduces exposure to radiation while having no negative impact on remission,” she said.

Prior to 2015, thyroidectomy in combination with RAI was the standard treatment for DTC in pediatric patients. However, data showing that radiation exposure in children increases the risk of secondary hematologic malignancies by 51% and solid malignancies by 23% over a lifetime raised concerns and led to a push to change the treatment approach.

In response, the 2015 ATA pediatric guidelines recommended that patients not receive RAI for the treatment of DTC that was mostly confined to the thyroid (N0 or minimal N1a disease).

Senior author Andrew J. Bauer, MD, noted that, in addition to being the first study to confirm that withholding RAI in low-risk patients is associated with the same rate of achieving remission as patients treated with RAI, the study also endorses that assessments at 1 year can be reliable predictors of remission.

“For these patients, the 1-year mark post-initial treatment (thyroidectomy) is an early and accurate time point for initial assessment of remission, with increasing rates of remission with continued surveillance (at last clinical follow-up) of approximately 90% 2 years post initial treatment,” said Dr. Bauer, medical director, CHOP, and professor of pediatrics, Perelman School of Medicine, University of Pennsylvania, Philadelphia.

“This approach has recently been validated through a prospective study in adult patients,” he added. A large recent study of 730 patients, published in the New England Journal of Medicine, supported the omission of RAI in low-risk DTC in adults, showing that, compared with those who received RAI, the no-RAI group was noninferior in the occurrence of functional, structural, and biologic events at 3 years.
 

Safe to eliminate RAI therapy in low-risk DTC in children

With limited data on how or if the change in treatment had an impact on rates of remission in pediatric patients, Ms. Bojarsky and colleagues conducted a retrospective cohort study of patients under the age of 19 years with ATA low-risk DTC who had undergone a total thyroidectomy at CHOP between 2010 and 2020.

Overall, they identified 95 patients, including 50 who had been treated with RAI in addition to thyroidectomy and 45 who did not receive RAI. Among those who did receive RAI, 31 were treated prior to 2015, and 19 were treated after 2019.

For the study, remission was defined as having undetectable thyroglobulin levels as well as no evidence of disease by ultrasound, Ms. Bojarsky said.

“This is important to show, because we want to ensure that as we are reducing our RAI use in the pediatric population, we were not negatively impacting their ability to achieve remission,” she explained.

The percentage of low-risk pediatric patients with DTC treated with RAI had already dropped from 100% in 2010 down to 38% by 2015 when the guidelines were issued, and after a slight rise to 50% by 2018, the practice plummeted to 0% by 2020, the study shows.

In terms of remission, at 1 year post-treatment, 80% of patients who received RAI were in remission, and the rate was even slightly higher, at 84%, among those who did not receive RAI, for a difference that was not significant.

Further looking at disease status as of the last clinical evaluation, 90% in the group treated with RAI had no evidence of disease at a median of 4.9 years of follow-up, and the rate was 87% in the group not receiving RAI, which had a median of 2.7 years of follow-up.

“In ATA low-risk patients, there is no detriment in achieving remission if RAI therapy is withheld,” say investigators.   

The median tumor size in the RAI group was larger (19.5 mm vs. 12.0 mm; P < .001), and the primary tumor was T1 in 44% of the RAI group but 82% in the no-RAI group (P < .001).

The lymph node status was N0 in 72% of those receiving RAI and 76% in the no RAI group, which was not significantly different.

The leading risk factors associated with treatment with RAI included larger primary tumor size (OR, 1.07; P = .003), lymph node metastasis (OR, 3.72; P = .036), and surgery pre-2015 (OR, 9.83; P < .001).

RAI administration, N1a disease, and surgery prior to 2015 were not independent risk factors for evidence of persistent disease or indeterminate status.

Ms. Bojarsky has reported no relevant financial relationships.

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