Clinical Endocrinology News

This transcript has been edited for clarity. 

Nearly every patient I start on incretin therapy for weight loss asks me the same question, which is, will I have to stay on this forever? The answer is probably yes, but I think it’s much more nuanced than that because A) forever is a long time and B) I think there are various ways to approach this.

I want people to start just saying, let’s see how this works, because not everyone’s going to lose the same amount of weight or respond in the same way. I say let’s try it, but don’t stop it suddenly. If we decide at some point you don’t need quite the same dose, we can reduce the dose and maybe even reduce the frequency of giving it, but you don’t want to stop cold turkey because you may well regain the weight, and that’s obviously not our desired outcome.

There have been multiple clinical trials in which people started on an incretin hormone, either a glucagon-like peptide 1 (GLP-1) receptor agonist or a dual hormone, and they’ve actually shown that stopping it and then continuing patients on a placebo vs active drug results in continued weight gain over time vs either weight maintenance or weight loss when they remain on the incretin hormone. Clearly, on average, people will regain the weight, but that isn’t always true. 

One of the things I think is really important is that, from the get-go on starting on these hormones, people start working with a lifestyle plan, whether it’s working with a coach or an online program. However they approach this, it’s important to start changing habits and increasing exercise.

I can’t say how important this is enough, because people need to increase their physical activity to enhance the benefits of these agents and also to help retain lean body mass. I don’t want people losing a large amount of lean body mass as they go through the process of weight loss. 

I set the stage for the fact that I expect people to adhere to a lifestyle program, and maybe losing weight with the medications is going to help them do even better because they’re going to see positive outcomes.

When they get to the point of weight maintenance, I think we need to reinforce lifestyle. I either go down on the dose given weekly or I start having patients take the dose every other week, for instance, as opposed to every week, and then sometimes every month. Depending on the patient, I get them potentially to a lower dose, and then they’re able to maintain the weight as long as they improved their lifestyle along with the changes in the medication.

I tell people we’ll work with the drug, we’ll work with their metabolic needs, that there are many benefits to being on incretin hormone therapy, but I think it’s important that we can do this on an individualized basis. The thing I don’t want to happen, though, is for people to start on it and then stop it, and then start on it and stop it because they may lose weight, regain weight, get side effects, get used to the side effects, stop it, and start it.

As we know, that’s not the best way to do this, and I think it’s not healthy for people to do that either. I know it’s been somewhat problematic with supply chain issues, but hopefully we’ll be able to start these agents, reach the desired outcome in terms of weight loss, and then help patients maintain that weight with a combination of both medication and lifestyle.

Dr. Peters, professor, Department of Clinical Medicine, Keck School of Medicine; Director, University of Southern California Westside Center for Diabetes, Los Angeles, disclosed ties with Abbott Diabetes Care, Becton Dickinson; Boehringer Ingelheim Pharmaceuticals, Eli Lilly, Lexicon Pharmaceuticals, Livongo; Medscape; Merck, Novo Nordisk, Omada Health, OptumHealth, Sanofi, Zafgen, Dexcom, MannKind, and AstraZeneca.

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

This transcript has been edited for clarity. 

Nearly every patient I start on incretin therapy for weight loss asks me the same question, which is, will I have to stay on this forever? The answer is probably yes, but I think it’s much more nuanced than that because A) forever is a long time and B) I think there are various ways to approach this.

I want people to start just saying, let’s see how this works, because not everyone’s going to lose the same amount of weight or respond in the same way. I say let’s try it, but don’t stop it suddenly. If we decide at some point you don’t need quite the same dose, we can reduce the dose and maybe even reduce the frequency of giving it, but you don’t want to stop cold turkey because you may well regain the weight, and that’s obviously not our desired outcome.

There have been multiple clinical trials in which people started on an incretin hormone, either a glucagon-like peptide 1 (GLP-1) receptor agonist or a dual hormone, and they’ve actually shown that stopping it and then continuing patients on a placebo vs active drug results in continued weight gain over time vs either weight maintenance or weight loss when they remain on the incretin hormone. Clearly, on average, people will regain the weight, but that isn’t always true. 

One of the things I think is really important is that, from the get-go on starting on these hormones, people start working with a lifestyle plan, whether it’s working with a coach or an online program. However they approach this, it’s important to start changing habits and increasing exercise.

I can’t say how important this is enough, because people need to increase their physical activity to enhance the benefits of these agents and also to help retain lean body mass. I don’t want people losing a large amount of lean body mass as they go through the process of weight loss. 

I set the stage for the fact that I expect people to adhere to a lifestyle program, and maybe losing weight with the medications is going to help them do even better because they’re going to see positive outcomes.

When they get to the point of weight maintenance, I think we need to reinforce lifestyle. I either go down on the dose given weekly or I start having patients take the dose every other week, for instance, as opposed to every week, and then sometimes every month. Depending on the patient, I get them potentially to a lower dose, and then they’re able to maintain the weight as long as they improved their lifestyle along with the changes in the medication.

I tell people we’ll work with the drug, we’ll work with their metabolic needs, that there are many benefits to being on incretin hormone therapy, but I think it’s important that we can do this on an individualized basis. The thing I don’t want to happen, though, is for people to start on it and then stop it, and then start on it and stop it because they may lose weight, regain weight, get side effects, get used to the side effects, stop it, and start it.

As we know, that’s not the best way to do this, and I think it’s not healthy for people to do that either. I know it’s been somewhat problematic with supply chain issues, but hopefully we’ll be able to start these agents, reach the desired outcome in terms of weight loss, and then help patients maintain that weight with a combination of both medication and lifestyle.

Dr. Peters, professor, Department of Clinical Medicine, Keck School of Medicine; Director, University of Southern California Westside Center for Diabetes, Los Angeles, disclosed ties with Abbott Diabetes Care, Becton Dickinson; Boehringer Ingelheim Pharmaceuticals, Eli Lilly, Lexicon Pharmaceuticals, Livongo; Medscape; Merck, Novo Nordisk, Omada Health, OptumHealth, Sanofi, Zafgen, Dexcom, MannKind, and AstraZeneca.

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

This transcript has been edited for clarity. 

Nearly every patient I start on incretin therapy for weight loss asks me the same question, which is, will I have to stay on this forever? The answer is probably yes, but I think it’s much more nuanced than that because A) forever is a long time and B) I think there are various ways to approach this.

I want people to start just saying, let’s see how this works, because not everyone’s going to lose the same amount of weight or respond in the same way. I say let’s try it, but don’t stop it suddenly. If we decide at some point you don’t need quite the same dose, we can reduce the dose and maybe even reduce the frequency of giving it, but you don’t want to stop cold turkey because you may well regain the weight, and that’s obviously not our desired outcome.

There have been multiple clinical trials in which people started on an incretin hormone, either a glucagon-like peptide 1 (GLP-1) receptor agonist or a dual hormone, and they’ve actually shown that stopping it and then continuing patients on a placebo vs active drug results in continued weight gain over time vs either weight maintenance or weight loss when they remain on the incretin hormone. Clearly, on average, people will regain the weight, but that isn’t always true. 

One of the things I think is really important is that, from the get-go on starting on these hormones, people start working with a lifestyle plan, whether it’s working with a coach or an online program. However they approach this, it’s important to start changing habits and increasing exercise.

I can’t say how important this is enough, because people need to increase their physical activity to enhance the benefits of these agents and also to help retain lean body mass. I don’t want people losing a large amount of lean body mass as they go through the process of weight loss. 

I set the stage for the fact that I expect people to adhere to a lifestyle program, and maybe losing weight with the medications is going to help them do even better because they’re going to see positive outcomes.

When they get to the point of weight maintenance, I think we need to reinforce lifestyle. I either go down on the dose given weekly or I start having patients take the dose every other week, for instance, as opposed to every week, and then sometimes every month. Depending on the patient, I get them potentially to a lower dose, and then they’re able to maintain the weight as long as they improved their lifestyle along with the changes in the medication.

I tell people we’ll work with the drug, we’ll work with their metabolic needs, that there are many benefits to being on incretin hormone therapy, but I think it’s important that we can do this on an individualized basis. The thing I don’t want to happen, though, is for people to start on it and then stop it, and then start on it and stop it because they may lose weight, regain weight, get side effects, get used to the side effects, stop it, and start it.

As we know, that’s not the best way to do this, and I think it’s not healthy for people to do that either. I know it’s been somewhat problematic with supply chain issues, but hopefully we’ll be able to start these agents, reach the desired outcome in terms of weight loss, and then help patients maintain that weight with a combination of both medication and lifestyle.

Dr. Peters, professor, Department of Clinical Medicine, Keck School of Medicine; Director, University of Southern California Westside Center for Diabetes, Los Angeles, disclosed ties with Abbott Diabetes Care, Becton Dickinson; Boehringer Ingelheim Pharmaceuticals, Eli Lilly, Lexicon Pharmaceuticals, Livongo; Medscape; Merck, Novo Nordisk, Omada Health, OptumHealth, Sanofi, Zafgen, Dexcom, MannKind, and AstraZeneca.

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

TOPLINE:

Exposure to individual or mixed per- and polyfluoroalkyl substances (PFASs) is associated with changes in peripheral rather than central thyroid hormone sensitivity.

METHODOLOGY:

• PFASs are widely recognized for their persistence in the environment and potential endocrine-disrupting effects.
• A cross-sectional study investigated associations between PFAS exposures and thyroid homeostasis parameters in adult participants in two National Health and Nutrition Examination Survey cycles (2007-2008 and 2011-2012).
• Participants were required to have complete thyroid hormone profiles and measurements of PFAS concentration, not be pregnant, and not have thyroid disease or a history of using thyroid drugs such as thyroxine, methimazole, and propylthiouracil.
• Levels of six PFASs were measured in the serum: Perfluorooctanoic acid (PFOA), perfluorooctanesulfonic acid (PFOS), perfluorononanoic acid (PFNA), perfluorodecanoic acid, perfluorohexane sulfonic acid (PFHxS), and 2-(N-methyl-perfluorooctane sulfonamido) acetic acid.
• Thyroid homeostasis parameters were assessed using serum concentrations of thyroid hormones.
• Peripheral sensitivity was calculated using the ratio of free triiodothyronine to free thyroxine (FT3/FT4) and the sum activity of peripheral deiodinases (SPINA-GD).
• Central sensitivity was assessed with thyrotroph thyroxine resistance index, thyroid-stimulating hormone index, thyroid feedback quantile–based index (TFQI), and parametric TFQI.

TAKEAWAY:

• Researchers included 2386 adults (mean age, 47.59 years; 53.94% men; 42.88% White).
• FT3/FT4 and SPINA-GD were positively associated with PFOA, PFOS, PFNA, and PFHxS (P < .05 for all) in an adjusted analysis; however, no link was found between central thyroid sensitivity parameters and PFAS exposures.
• Specifically, higher quartiles of PFOA and PFOS concentrations were associated with an increased FT3/FT4 and SPINA-GD, indicating an increased conversion efficiency of FT4 to FT3 or peripheral deiodinase.
• Exposure to a mixture of different PFASs was also positively correlated with FT3/FT4 (beta, 0.013; P < .001) and SPINA-GD (beta, 1.230; P < .001), with PFOA showing the highest contribution.
• Men and smokers showed higher correlations of PFOA with peripheral thyroid hormone sensitivity indicators than women and nonsmokers, respectively.

IN PRACTICE:

“PFAS exposure, especially PFOA and PFOS, mainly impacted peripheral sensitivity to thyroid hormones, instead of central sensitivity,” the authors wrote, adding that their results may support, “taking more steps to prevent and reduce” the harmful effects of PFASs.

SOURCE:

This study was led by Xinwen Yu and Yufei Liu, Department of Endocrinology, The Second Affiliated Hospital of Air Force Medical University, Xi’an, China. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The cross-sectional design of this study limited the ability to establish causal relationships between PFAS exposure and thyroid function. The assessment of thyroid homeostasis parameters was conducted indirectly by measuring thyroid hormone levels. Inaccuracies in self-reported data on long-term exposure to PFASs and the exclusion of other endocrine-disrupting chemicals may have affected the study’s conclusions.

DISCLOSURES:

This study was supported by grants from the Natural Science Foundation of Shaanxi Province, China; the Key Research and Development Project of Shaanxi Province; and the Clinical Research Program of Air Force Medical University. The authors reported having no relevant conflicts of interest.

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

TOPLINE:

Exposure to individual or mixed per- and polyfluoroalkyl substances (PFASs) is associated with changes in peripheral rather than central thyroid hormone sensitivity.

METHODOLOGY:

• PFASs are widely recognized for their persistence in the environment and potential endocrine-disrupting effects.
• A cross-sectional study investigated associations between PFAS exposures and thyroid homeostasis parameters in adult participants in two National Health and Nutrition Examination Survey cycles (2007-2008 and 2011-2012).
• Participants were required to have complete thyroid hormone profiles and measurements of PFAS concentration, not be pregnant, and not have thyroid disease or a history of using thyroid drugs such as thyroxine, methimazole, and propylthiouracil.
• Levels of six PFASs were measured in the serum: Perfluorooctanoic acid (PFOA), perfluorooctanesulfonic acid (PFOS), perfluorononanoic acid (PFNA), perfluorodecanoic acid, perfluorohexane sulfonic acid (PFHxS), and 2-(N-methyl-perfluorooctane sulfonamido) acetic acid.
• Thyroid homeostasis parameters were assessed using serum concentrations of thyroid hormones.
• Peripheral sensitivity was calculated using the ratio of free triiodothyronine to free thyroxine (FT3/FT4) and the sum activity of peripheral deiodinases (SPINA-GD).
• Central sensitivity was assessed with thyrotroph thyroxine resistance index, thyroid-stimulating hormone index, thyroid feedback quantile–based index (TFQI), and parametric TFQI.

TAKEAWAY:

• Researchers included 2386 adults (mean age, 47.59 years; 53.94% men; 42.88% White).
• FT3/FT4 and SPINA-GD were positively associated with PFOA, PFOS, PFNA, and PFHxS (P < .05 for all) in an adjusted analysis; however, no link was found between central thyroid sensitivity parameters and PFAS exposures.
• Specifically, higher quartiles of PFOA and PFOS concentrations were associated with an increased FT3/FT4 and SPINA-GD, indicating an increased conversion efficiency of FT4 to FT3 or peripheral deiodinase.
• Exposure to a mixture of different PFASs was also positively correlated with FT3/FT4 (beta, 0.013; P < .001) and SPINA-GD (beta, 1.230; P < .001), with PFOA showing the highest contribution.
• Men and smokers showed higher correlations of PFOA with peripheral thyroid hormone sensitivity indicators than women and nonsmokers, respectively.

IN PRACTICE:

“PFAS exposure, especially PFOA and PFOS, mainly impacted peripheral sensitivity to thyroid hormones, instead of central sensitivity,” the authors wrote, adding that their results may support, “taking more steps to prevent and reduce” the harmful effects of PFASs.

SOURCE:

This study was led by Xinwen Yu and Yufei Liu, Department of Endocrinology, The Second Affiliated Hospital of Air Force Medical University, Xi’an, China. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The cross-sectional design of this study limited the ability to establish causal relationships between PFAS exposure and thyroid function. The assessment of thyroid homeostasis parameters was conducted indirectly by measuring thyroid hormone levels. Inaccuracies in self-reported data on long-term exposure to PFASs and the exclusion of other endocrine-disrupting chemicals may have affected the study’s conclusions.

DISCLOSURES:

This study was supported by grants from the Natural Science Foundation of Shaanxi Province, China; the Key Research and Development Project of Shaanxi Province; and the Clinical Research Program of Air Force Medical University. The authors reported having no relevant conflicts of interest.

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

TOPLINE:

Exposure to individual or mixed per- and polyfluoroalkyl substances (PFASs) is associated with changes in peripheral rather than central thyroid hormone sensitivity.

METHODOLOGY:

• PFASs are widely recognized for their persistence in the environment and potential endocrine-disrupting effects.
• A cross-sectional study investigated associations between PFAS exposures and thyroid homeostasis parameters in adult participants in two National Health and Nutrition Examination Survey cycles (2007-2008 and 2011-2012).
• Participants were required to have complete thyroid hormone profiles and measurements of PFAS concentration, not be pregnant, and not have thyroid disease or a history of using thyroid drugs such as thyroxine, methimazole, and propylthiouracil.
• Levels of six PFASs were measured in the serum: Perfluorooctanoic acid (PFOA), perfluorooctanesulfonic acid (PFOS), perfluorononanoic acid (PFNA), perfluorodecanoic acid, perfluorohexane sulfonic acid (PFHxS), and 2-(N-methyl-perfluorooctane sulfonamido) acetic acid.
• Thyroid homeostasis parameters were assessed using serum concentrations of thyroid hormones.
• Peripheral sensitivity was calculated using the ratio of free triiodothyronine to free thyroxine (FT3/FT4) and the sum activity of peripheral deiodinases (SPINA-GD).
• Central sensitivity was assessed with thyrotroph thyroxine resistance index, thyroid-stimulating hormone index, thyroid feedback quantile–based index (TFQI), and parametric TFQI.

TAKEAWAY:

• Researchers included 2386 adults (mean age, 47.59 years; 53.94% men; 42.88% White).
• FT3/FT4 and SPINA-GD were positively associated with PFOA, PFOS, PFNA, and PFHxS (P < .05 for all) in an adjusted analysis; however, no link was found between central thyroid sensitivity parameters and PFAS exposures.
• Specifically, higher quartiles of PFOA and PFOS concentrations were associated with an increased FT3/FT4 and SPINA-GD, indicating an increased conversion efficiency of FT4 to FT3 or peripheral deiodinase.
• Exposure to a mixture of different PFASs was also positively correlated with FT3/FT4 (beta, 0.013; P < .001) and SPINA-GD (beta, 1.230; P < .001), with PFOA showing the highest contribution.
• Men and smokers showed higher correlations of PFOA with peripheral thyroid hormone sensitivity indicators than women and nonsmokers, respectively.

IN PRACTICE:

“PFAS exposure, especially PFOA and PFOS, mainly impacted peripheral sensitivity to thyroid hormones, instead of central sensitivity,” the authors wrote, adding that their results may support, “taking more steps to prevent and reduce” the harmful effects of PFASs.

SOURCE:

This study was led by Xinwen Yu and Yufei Liu, Department of Endocrinology, The Second Affiliated Hospital of Air Force Medical University, Xi’an, China. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The cross-sectional design of this study limited the ability to establish causal relationships between PFAS exposure and thyroid function. The assessment of thyroid homeostasis parameters was conducted indirectly by measuring thyroid hormone levels. Inaccuracies in self-reported data on long-term exposure to PFASs and the exclusion of other endocrine-disrupting chemicals may have affected the study’s conclusions.

DISCLOSURES:

This study was supported by grants from the Natural Science Foundation of Shaanxi Province, China; the Key Research and Development Project of Shaanxi Province; and the Clinical Research Program of Air Force Medical University. The authors reported having no relevant conflicts of interest.

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

People are living longer in Europe. Life expectancy increased on the continent by around 12 years between 1960 and 2022. And despite slower progress during the COVID-19 pandemic, the trend appears to be continuing.

Not only are Europeans living longer, their fertility rates are declining. This means that the number of people aged 75-84 years is projected to grow in Europe a full 56.1% by 2050, while the population younger than 55 years is expected to fall by 13.5%.

This means that attitudes toward age need to change, and fast — even among healthcare professionals.

 

Healthcare Is Not Exempt From Ageist Attitudes

A systematic review published in the journal PLOS ONE in 2020 found that age was a determinant factor in dictating who received certain medical procedures or treatments. For example, a study of 9105 hospitalized patients found that healthcare providers were significantly more likely to withhold life-sustaining treatments from older patients. Another study found evidence that older people are excluded from clinical trials, even when the trials are for diseases that appear later in life, like Parkinson’s.

“In healthcare, there are different levels of ageism,” explained Hannah Swift, PhD, reader in social and organizational psychology at the University of Kent in the United Kingdom. 

Ageism is embedded in the laws, rules, and practices of institutions, she explained. This became especially obvious during the pandemic, when health professionals had to decide who to treat, possibly using age as a proxy for making some of these decisions, she said. 

“When you categorize people, you might be using stereotypes, assumptions, and expectations about age and that age group to make those decisions, and that’s where errors can occur.”

She added that ageist attitudes also become apparent at the interpersonal level by using patronizing language or offering unnecessary help to older people based on assumptions about their cognitive and physical abilities.

“Older age is often wrongly associated with declining levels of health and activity,” said Ittay Mannheim, PhD, guest postdoctoral researcher on aging and ageism at the Open University of the Netherlands. “However, older adults are a very diverse group, varying widely in many aspects, including health conditions. This stereotype can influence how healthcare professionals interact with them, assuming frailty or memory issues simply based on age. It’s important to recognize that being older doesn’t necessarily mean being ill.” 

Mannheim’s research found that healthcare professionals often stand in the way of older people using technology-based treatments due to negative attitudes towards age. “So, actually, a barrier to using these technologies could be that healthcare professionals don’t think that someone can use it or won’t even offer it because someone looks old or is old,” he said.

 

The Impacts

Discrimination impacts the physical, mental, and social well-being of its victims. This includes attitudes towards age.

The PLOS ONE review of research on the global reach of ageism found that experienced or self-determined ageism was associated with significantly worse health outcomes across all countries examined. The same research team calculated that an estimated 6.3 million cases of depression worldwide are linked to ageism.

Other research has found that exposure to negative age stereotyping impacts willingness to adopt a healthy lifestyle in addition to increasing the risk for cardiovascular events.

 

What Can Be Done?

“Healthcare professionals frequently interact with older adults at their most vulnerable, which can reinforce negative stereotypes of older people being vulnerable or ill,” said Swift. “However, not all older adults fit these stereotypes. Many can live well and independently. Perhaps healthcare education should include reminders of the diverse experiences of older individuals rather than solely focusing on the moments when they require help.”

Research indicates that although progress has been made in geriatric training and the care of older individuals by healthcare education institutions, improved education and training are still needed at all levels of geriatric healthcare, including hospital administrators, physicians, nurses, personal caregivers, and associated health professions.

“Generally speaking, what healthcare professionals learn about aging tends to focus more on the biological aspects,” said Mannheim. “However, they may not fully understand what it means to be old or how to interact with older individuals, especially regarding technology. It is important to raise awareness about ageism because, in my experience working with healthcare professionals, even a single workshop on ageism can have a profound impact. Participants often respond with surprise, saying something like, ‘Wow, I never thought about this before.’”

Mannheim said that training healthcare providers to understand the aging process better could help to reduce any biases they might have and better prepare them to respond more adequately to the needs of older patients.

“We cannot devalue the lives of older people simply because they are older. It is crucial for all of us, especially governments, to acknowledge our responsibility to protect and promote human rights for individuals of all ages. If we fail to do this, the strategies we’ve witnessed during this pandemic will be repeated in the future,” said Nena Georgantzi, PhD, Barcelona-based human rights manager at AGE Platform Europe, an EU network of organizations of and for older people.

 

A version of this article appeared on Medscape.com.

People are living longer in Europe. Life expectancy increased on the continent by around 12 years between 1960 and 2022. And despite slower progress during the COVID-19 pandemic, the trend appears to be continuing.

Not only are Europeans living longer, their fertility rates are declining. This means that the number of people aged 75-84 years is projected to grow in Europe a full 56.1% by 2050, while the population younger than 55 years is expected to fall by 13.5%.

This means that attitudes toward age need to change, and fast — even among healthcare professionals.

 

Healthcare Is Not Exempt From Ageist Attitudes

A systematic review published in the journal PLOS ONE in 2020 found that age was a determinant factor in dictating who received certain medical procedures or treatments. For example, a study of 9105 hospitalized patients found that healthcare providers were significantly more likely to withhold life-sustaining treatments from older patients. Another study found evidence that older people are excluded from clinical trials, even when the trials are for diseases that appear later in life, like Parkinson’s.

“In healthcare, there are different levels of ageism,” explained Hannah Swift, PhD, reader in social and organizational psychology at the University of Kent in the United Kingdom. 

Ageism is embedded in the laws, rules, and practices of institutions, she explained. This became especially obvious during the pandemic, when health professionals had to decide who to treat, possibly using age as a proxy for making some of these decisions, she said. 

“When you categorize people, you might be using stereotypes, assumptions, and expectations about age and that age group to make those decisions, and that’s where errors can occur.”

She added that ageist attitudes also become apparent at the interpersonal level by using patronizing language or offering unnecessary help to older people based on assumptions about their cognitive and physical abilities.

“Older age is often wrongly associated with declining levels of health and activity,” said Ittay Mannheim, PhD, guest postdoctoral researcher on aging and ageism at the Open University of the Netherlands. “However, older adults are a very diverse group, varying widely in many aspects, including health conditions. This stereotype can influence how healthcare professionals interact with them, assuming frailty or memory issues simply based on age. It’s important to recognize that being older doesn’t necessarily mean being ill.” 

Mannheim’s research found that healthcare professionals often stand in the way of older people using technology-based treatments due to negative attitudes towards age. “So, actually, a barrier to using these technologies could be that healthcare professionals don’t think that someone can use it or won’t even offer it because someone looks old or is old,” he said.

 

The Impacts

Discrimination impacts the physical, mental, and social well-being of its victims. This includes attitudes towards age.

The PLOS ONE review of research on the global reach of ageism found that experienced or self-determined ageism was associated with significantly worse health outcomes across all countries examined. The same research team calculated that an estimated 6.3 million cases of depression worldwide are linked to ageism.

Other research has found that exposure to negative age stereotyping impacts willingness to adopt a healthy lifestyle in addition to increasing the risk for cardiovascular events.

 

What Can Be Done?

“Healthcare professionals frequently interact with older adults at their most vulnerable, which can reinforce negative stereotypes of older people being vulnerable or ill,” said Swift. “However, not all older adults fit these stereotypes. Many can live well and independently. Perhaps healthcare education should include reminders of the diverse experiences of older individuals rather than solely focusing on the moments when they require help.”

Research indicates that although progress has been made in geriatric training and the care of older individuals by healthcare education institutions, improved education and training are still needed at all levels of geriatric healthcare, including hospital administrators, physicians, nurses, personal caregivers, and associated health professions.

“Generally speaking, what healthcare professionals learn about aging tends to focus more on the biological aspects,” said Mannheim. “However, they may not fully understand what it means to be old or how to interact with older individuals, especially regarding technology. It is important to raise awareness about ageism because, in my experience working with healthcare professionals, even a single workshop on ageism can have a profound impact. Participants often respond with surprise, saying something like, ‘Wow, I never thought about this before.’”

Mannheim said that training healthcare providers to understand the aging process better could help to reduce any biases they might have and better prepare them to respond more adequately to the needs of older patients.

“We cannot devalue the lives of older people simply because they are older. It is crucial for all of us, especially governments, to acknowledge our responsibility to protect and promote human rights for individuals of all ages. If we fail to do this, the strategies we’ve witnessed during this pandemic will be repeated in the future,” said Nena Georgantzi, PhD, Barcelona-based human rights manager at AGE Platform Europe, an EU network of organizations of and for older people.

 

A version of this article appeared on Medscape.com.

People are living longer in Europe. Life expectancy increased on the continent by around 12 years between 1960 and 2022. And despite slower progress during the COVID-19 pandemic, the trend appears to be continuing.

Not only are Europeans living longer, their fertility rates are declining. This means that the number of people aged 75-84 years is projected to grow in Europe a full 56.1% by 2050, while the population younger than 55 years is expected to fall by 13.5%.

This means that attitudes toward age need to change, and fast — even among healthcare professionals.

 

Healthcare Is Not Exempt From Ageist Attitudes

A systematic review published in the journal PLOS ONE in 2020 found that age was a determinant factor in dictating who received certain medical procedures or treatments. For example, a study of 9105 hospitalized patients found that healthcare providers were significantly more likely to withhold life-sustaining treatments from older patients. Another study found evidence that older people are excluded from clinical trials, even when the trials are for diseases that appear later in life, like Parkinson’s.

“In healthcare, there are different levels of ageism,” explained Hannah Swift, PhD, reader in social and organizational psychology at the University of Kent in the United Kingdom. 

Ageism is embedded in the laws, rules, and practices of institutions, she explained. This became especially obvious during the pandemic, when health professionals had to decide who to treat, possibly using age as a proxy for making some of these decisions, she said. 

“When you categorize people, you might be using stereotypes, assumptions, and expectations about age and that age group to make those decisions, and that’s where errors can occur.”

She added that ageist attitudes also become apparent at the interpersonal level by using patronizing language or offering unnecessary help to older people based on assumptions about their cognitive and physical abilities.

“Older age is often wrongly associated with declining levels of health and activity,” said Ittay Mannheim, PhD, guest postdoctoral researcher on aging and ageism at the Open University of the Netherlands. “However, older adults are a very diverse group, varying widely in many aspects, including health conditions. This stereotype can influence how healthcare professionals interact with them, assuming frailty or memory issues simply based on age. It’s important to recognize that being older doesn’t necessarily mean being ill.” 

Mannheim’s research found that healthcare professionals often stand in the way of older people using technology-based treatments due to negative attitudes towards age. “So, actually, a barrier to using these technologies could be that healthcare professionals don’t think that someone can use it or won’t even offer it because someone looks old or is old,” he said.

 

The Impacts

Discrimination impacts the physical, mental, and social well-being of its victims. This includes attitudes towards age.

The PLOS ONE review of research on the global reach of ageism found that experienced or self-determined ageism was associated with significantly worse health outcomes across all countries examined. The same research team calculated that an estimated 6.3 million cases of depression worldwide are linked to ageism.

Other research has found that exposure to negative age stereotyping impacts willingness to adopt a healthy lifestyle in addition to increasing the risk for cardiovascular events.

 

What Can Be Done?

“Healthcare professionals frequently interact with older adults at their most vulnerable, which can reinforce negative stereotypes of older people being vulnerable or ill,” said Swift. “However, not all older adults fit these stereotypes. Many can live well and independently. Perhaps healthcare education should include reminders of the diverse experiences of older individuals rather than solely focusing on the moments when they require help.”

Research indicates that although progress has been made in geriatric training and the care of older individuals by healthcare education institutions, improved education and training are still needed at all levels of geriatric healthcare, including hospital administrators, physicians, nurses, personal caregivers, and associated health professions.

“Generally speaking, what healthcare professionals learn about aging tends to focus more on the biological aspects,” said Mannheim. “However, they may not fully understand what it means to be old or how to interact with older individuals, especially regarding technology. It is important to raise awareness about ageism because, in my experience working with healthcare professionals, even a single workshop on ageism can have a profound impact. Participants often respond with surprise, saying something like, ‘Wow, I never thought about this before.’”

Mannheim said that training healthcare providers to understand the aging process better could help to reduce any biases they might have and better prepare them to respond more adequately to the needs of older patients.

“We cannot devalue the lives of older people simply because they are older. It is crucial for all of us, especially governments, to acknowledge our responsibility to protect and promote human rights for individuals of all ages. If we fail to do this, the strategies we’ve witnessed during this pandemic will be repeated in the future,” said Nena Georgantzi, PhD, Barcelona-based human rights manager at AGE Platform Europe, an EU network of organizations of and for older people.

 

A version of this article appeared on Medscape.com.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

Heather K. Schopper, MD, a head and neck surgeon at Penn State Health, Hershey, Pennsylvania, wasn’t long into her career when she began feeling its physical demands. Standing for 12 hours at a time, holding awkward positions for long periods, and working with surgical tables and instruments made for doctors much taller and larger meant severe back, shoulder, and neck pain at the end of every shift.

“You just want to lie down on the floor at the end of the day,” Schopper explained. “The wear and tear of our profession is really challenging.”

Here’s the thing: At the time Schopper wasn’t particularly out of shape. She only knew she needed to build up her body for long days and a long career. What, physically, would that look like?

This was the catalyst for what she calls a “health and fitness journey” that transformed the way she practices.

“Medicine is unique in its physical demands,” said Meghan Wieser, PT, DPT, a doctor of physical therapy at Recharge Health and Fitness in Ellicott City, Maryland. Wieser frequently works with physicians and others in high-stress career environments, and she’s observed the serious toll that physically demanding medical practice can take on the body.

It’s not just about preventing acute or chronic injury, she said. It’s about performing better for longer periods. And every doctor knows the only way to build a more functional body is training.

 

The Fantasy of Physical Perfection vs the Reality of, Well, Reality

Jordan D. Metzl, MD, is a sports medicine physician at Hospital for Special Surgery (HSS) in New York City. He’s also a lifelong triathlete and marathon runner and has parlayed that passion into an online fitness community of more than 10,000 people called Ironstrength. Through that, Metzl has led free exercise classes in Central Park for years. He doesn’t dabble. Three times a year he leads a boot camp class of more than 1000 people on the flight deck of the USS Intrepid on the Hudson River.

“I get it, being a doctor is all about the hours,” he said. “The time sacrifices get brutal and you have to cut something out, sometimes every day. For a lot of us, that’s exercise.”

Metzl understands it so well that he recently began leading twice-monthly boot camp classes just for his HSS physician colleagues on Wednesday mornings. He says those doctors both want and need that extra boost and will be aggressive about making time for it.

“The better shape you’re in, the better job you’ll do as a physician,” he said. “You’ll feel better when the hours get long. In my own career, I have always been a better doctor when I’m active and in shape.”

Knowledge isn’t really the issue for physicians. Reality is. And reality dictates that doctors have just as much issue with achieving consistency as any patient they prescribe exercise to.

Metzl suggests total body functional training to mimic real-world movement, particularly core and lower body to keep you upright for hours at a time. How do you schedule that? He uses early mornings and weekends to train for his races and run his fitness classes, which is why his primary advice is to focus not on the activity, but on time.

“Schedule full workouts when you can and steal the rest,” he said.

Schopper agrees. “You may not be able to fit in 60 minutes of exercise every day, but 20-30 minutes of intentional movement is key,” she explained. “When you have a day off, prioritize a longer session of something you can’t fit in on workdays.”

Those shorter bouts of exercise might include “bookending” the day with 10 minutes of burpees in the morning and then 10 minutes of bodyweight strength moves like planks, push-ups, and air squats in the evening.

“Bodyweight exercises are low-hanging fruit,” said Wieser. “If you’ve got a short window, aim for something that can shoot your heart rate up quickly.”

You can also throw in “movement snacks” throughout the day — skip the elevator and run up a flight of stairs, walk around during a quick lunch break, or throw in a set of jumping jacks between patients. (Don’t worry — you won’t be dripping sweat when they walk in.)

Remember, the rehab room in the orthopedic wing may have a few dumbbells and exercise bands you can utilize when you have 5 extra minutes in your day. “Any way you can squeeze in extra movement counts,” said Wieser.

 

Feats of Strength? Neighborhood Sprints? It All Matters

Kissinger Goldman, DO, a Florida-based ER physician, began his dedication to exercise 17 years ago, after a high-cholesterol diagnosis. “Did I have time to exercise in medical school and residency? Yes,” Goldman admitted. “But I didn’t have the same commitment to my health until I received that number. I set about to change everything.”

Goldman follows the approach of dividing up his exercise routine into short or long sessions, depending on his schedule. “If I’m off, I’ll aim for 30 minutes of cardio and 30 minutes of strength and core work,” he explained. “When I have to work, I’ll do a compressed version of that routine as soon as I wake up, and make sure the cardio is very intense — I’ll sprint in my neighborhood, for instance.”

Matt Klein, a doctor of physical therapy and professor at George Fox University in Newberg, Oregon, who has treated many doctors, says that, when pushed for time, just 20 minutes of “heavy” strength training can deliver good results. “The definition of heavy will vary, but aim for a weight that is challenging, whether a beginner or a more experienced exerciser,” he said. “Most doctors won’t have time to go to the gym, so a simple set of dumbbells or kettlebells will work just fine. The easier it is to access, the more likely you are to do it consistently.”

Klein is a fan of strength training with good reason: “Strength is a predictor of chronic disease, so doing some high-level strength training or power training can go a long way,” he said.

The endorphin high and overall sense of improved well-being are an extra bonus. Goldman credits it with ensuring he rarely misses a workout.

 

Get Hardcore About Sleep

Consider the following passage: “There are clear negative effects of sleep deprivation on performance, including reaction time, accuracy, vigor, submaximal strength, and endurance. Cognitive functions such as judgment and decision-making also suffer.”

Does that sound like how you feel on suboptimal sleep? That’s from an International Journal of Sports Medicine study on the effects of sleep deprivation on athletes.

Athletes aren’t doctors — but when you consider “reaction time, accuracy, endurance, judgment, and decision-making” — doctors could certainly benefit by thinking like athletes.

Schopper is serious about sleep and sets firm boundaries.

“It’s hard,” she admitted. “We want to work, see our families, have fun. But I work hard to say, ‘I’m done,’ and go to bed.”

“Rest is crucial for this job,” agreed Goldman. “If you don’t have adequate sleep, your cortisone levels are going to go up. When you’re exhausted and you’re working, you’re likely to miss something.” Goldman is consistent with early bedtimes around 9:00 or 9:30 PM, and he allows for a bit of “wind-down” time by reading for about 20 minutes before nodding off.

Goldman also sees a link between rest and improved interactions with patients. “There’s a direct correlation between number of hours worked in a row with respect to ‘customer service’ with patients,” he said.

But don’t aim for perfection. Allow some wiggle room for the time you spend asleep, Klein recommends. “We’ve always aimed for 8 hours, but there’s evidence that even 6 or 7 hours can be enough to allow you to recover as needed,” he said. “Optimally, you want that to be uninterrupted, but if not, a 10-minute power nap can help with mental clarity.”

 

Keep Searching, Keep Trying, Keep Training

Schopper was never, nor has she become, a gym rat. Still, “I knew I needed to build upper body strength,” she said. That meant expanding her fitness possibilities beyond the obvious. She discovered aerial arts — intense workouts using straps and other suspension tools to work every muscle in her body while hanging from the ceiling. Increased strength was a given, but she also seriously increased her range of motion.

For Schopper, the improvements to her lifestyle have been game changers. “I still have long days, but I’m no longer sore and tired after them,” she said. “I sleep better and have more energy. I’m proud of myself for putting the effort into this.”

A journey toward health and fitness may look different for everyone, but (as doctors frequently tell their patients) it’s a path anyone can follow.

“Being a doctor is not necessarily good for your health,” said Klein. “The body can handle the job, however, if you train for it.”

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

Heather K. Schopper, MD, a head and neck surgeon at Penn State Health, Hershey, Pennsylvania, wasn’t long into her career when she began feeling its physical demands. Standing for 12 hours at a time, holding awkward positions for long periods, and working with surgical tables and instruments made for doctors much taller and larger meant severe back, shoulder, and neck pain at the end of every shift.

“You just want to lie down on the floor at the end of the day,” Schopper explained. “The wear and tear of our profession is really challenging.”

Here’s the thing: At the time Schopper wasn’t particularly out of shape. She only knew she needed to build up her body for long days and a long career. What, physically, would that look like?

This was the catalyst for what she calls a “health and fitness journey” that transformed the way she practices.

“Medicine is unique in its physical demands,” said Meghan Wieser, PT, DPT, a doctor of physical therapy at Recharge Health and Fitness in Ellicott City, Maryland. Wieser frequently works with physicians and others in high-stress career environments, and she’s observed the serious toll that physically demanding medical practice can take on the body.

It’s not just about preventing acute or chronic injury, she said. It’s about performing better for longer periods. And every doctor knows the only way to build a more functional body is training.

 

The Fantasy of Physical Perfection vs the Reality of, Well, Reality

Jordan D. Metzl, MD, is a sports medicine physician at Hospital for Special Surgery (HSS) in New York City. He’s also a lifelong triathlete and marathon runner and has parlayed that passion into an online fitness community of more than 10,000 people called Ironstrength. Through that, Metzl has led free exercise classes in Central Park for years. He doesn’t dabble. Three times a year he leads a boot camp class of more than 1000 people on the flight deck of the USS Intrepid on the Hudson River.

“I get it, being a doctor is all about the hours,” he said. “The time sacrifices get brutal and you have to cut something out, sometimes every day. For a lot of us, that’s exercise.”

Metzl understands it so well that he recently began leading twice-monthly boot camp classes just for his HSS physician colleagues on Wednesday mornings. He says those doctors both want and need that extra boost and will be aggressive about making time for it.

“The better shape you’re in, the better job you’ll do as a physician,” he said. “You’ll feel better when the hours get long. In my own career, I have always been a better doctor when I’m active and in shape.”

Knowledge isn’t really the issue for physicians. Reality is. And reality dictates that doctors have just as much issue with achieving consistency as any patient they prescribe exercise to.

Metzl suggests total body functional training to mimic real-world movement, particularly core and lower body to keep you upright for hours at a time. How do you schedule that? He uses early mornings and weekends to train for his races and run his fitness classes, which is why his primary advice is to focus not on the activity, but on time.

“Schedule full workouts when you can and steal the rest,” he said.

Schopper agrees. “You may not be able to fit in 60 minutes of exercise every day, but 20-30 minutes of intentional movement is key,” she explained. “When you have a day off, prioritize a longer session of something you can’t fit in on workdays.”

Those shorter bouts of exercise might include “bookending” the day with 10 minutes of burpees in the morning and then 10 minutes of bodyweight strength moves like planks, push-ups, and air squats in the evening.

“Bodyweight exercises are low-hanging fruit,” said Wieser. “If you’ve got a short window, aim for something that can shoot your heart rate up quickly.”

You can also throw in “movement snacks” throughout the day — skip the elevator and run up a flight of stairs, walk around during a quick lunch break, or throw in a set of jumping jacks between patients. (Don’t worry — you won’t be dripping sweat when they walk in.)

Remember, the rehab room in the orthopedic wing may have a few dumbbells and exercise bands you can utilize when you have 5 extra minutes in your day. “Any way you can squeeze in extra movement counts,” said Wieser.

 

Feats of Strength? Neighborhood Sprints? It All Matters

Kissinger Goldman, DO, a Florida-based ER physician, began his dedication to exercise 17 years ago, after a high-cholesterol diagnosis. “Did I have time to exercise in medical school and residency? Yes,” Goldman admitted. “But I didn’t have the same commitment to my health until I received that number. I set about to change everything.”

Goldman follows the approach of dividing up his exercise routine into short or long sessions, depending on his schedule. “If I’m off, I’ll aim for 30 minutes of cardio and 30 minutes of strength and core work,” he explained. “When I have to work, I’ll do a compressed version of that routine as soon as I wake up, and make sure the cardio is very intense — I’ll sprint in my neighborhood, for instance.”

Matt Klein, a doctor of physical therapy and professor at George Fox University in Newberg, Oregon, who has treated many doctors, says that, when pushed for time, just 20 minutes of “heavy” strength training can deliver good results. “The definition of heavy will vary, but aim for a weight that is challenging, whether a beginner or a more experienced exerciser,” he said. “Most doctors won’t have time to go to the gym, so a simple set of dumbbells or kettlebells will work just fine. The easier it is to access, the more likely you are to do it consistently.”

Klein is a fan of strength training with good reason: “Strength is a predictor of chronic disease, so doing some high-level strength training or power training can go a long way,” he said.

The endorphin high and overall sense of improved well-being are an extra bonus. Goldman credits it with ensuring he rarely misses a workout.

 

Get Hardcore About Sleep

Consider the following passage: “There are clear negative effects of sleep deprivation on performance, including reaction time, accuracy, vigor, submaximal strength, and endurance. Cognitive functions such as judgment and decision-making also suffer.”

Does that sound like how you feel on suboptimal sleep? That’s from an International Journal of Sports Medicine study on the effects of sleep deprivation on athletes.

Athletes aren’t doctors — but when you consider “reaction time, accuracy, endurance, judgment, and decision-making” — doctors could certainly benefit by thinking like athletes.

Schopper is serious about sleep and sets firm boundaries.

“It’s hard,” she admitted. “We want to work, see our families, have fun. But I work hard to say, ‘I’m done,’ and go to bed.”

“Rest is crucial for this job,” agreed Goldman. “If you don’t have adequate sleep, your cortisone levels are going to go up. When you’re exhausted and you’re working, you’re likely to miss something.” Goldman is consistent with early bedtimes around 9:00 or 9:30 PM, and he allows for a bit of “wind-down” time by reading for about 20 minutes before nodding off.

Goldman also sees a link between rest and improved interactions with patients. “There’s a direct correlation between number of hours worked in a row with respect to ‘customer service’ with patients,” he said.

But don’t aim for perfection. Allow some wiggle room for the time you spend asleep, Klein recommends. “We’ve always aimed for 8 hours, but there’s evidence that even 6 or 7 hours can be enough to allow you to recover as needed,” he said. “Optimally, you want that to be uninterrupted, but if not, a 10-minute power nap can help with mental clarity.”

 

Keep Searching, Keep Trying, Keep Training

Schopper was never, nor has she become, a gym rat. Still, “I knew I needed to build upper body strength,” she said. That meant expanding her fitness possibilities beyond the obvious. She discovered aerial arts — intense workouts using straps and other suspension tools to work every muscle in her body while hanging from the ceiling. Increased strength was a given, but she also seriously increased her range of motion.

For Schopper, the improvements to her lifestyle have been game changers. “I still have long days, but I’m no longer sore and tired after them,” she said. “I sleep better and have more energy. I’m proud of myself for putting the effort into this.”

A journey toward health and fitness may look different for everyone, but (as doctors frequently tell their patients) it’s a path anyone can follow.

“Being a doctor is not necessarily good for your health,” said Klein. “The body can handle the job, however, if you train for it.”

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

Heather K. Schopper, MD, a head and neck surgeon at Penn State Health, Hershey, Pennsylvania, wasn’t long into her career when she began feeling its physical demands. Standing for 12 hours at a time, holding awkward positions for long periods, and working with surgical tables and instruments made for doctors much taller and larger meant severe back, shoulder, and neck pain at the end of every shift.

“You just want to lie down on the floor at the end of the day,” Schopper explained. “The wear and tear of our profession is really challenging.”

Here’s the thing: At the time Schopper wasn’t particularly out of shape. She only knew she needed to build up her body for long days and a long career. What, physically, would that look like?

This was the catalyst for what she calls a “health and fitness journey” that transformed the way she practices.

“Medicine is unique in its physical demands,” said Meghan Wieser, PT, DPT, a doctor of physical therapy at Recharge Health and Fitness in Ellicott City, Maryland. Wieser frequently works with physicians and others in high-stress career environments, and she’s observed the serious toll that physically demanding medical practice can take on the body.

It’s not just about preventing acute or chronic injury, she said. It’s about performing better for longer periods. And every doctor knows the only way to build a more functional body is training.

 

The Fantasy of Physical Perfection vs the Reality of, Well, Reality

Jordan D. Metzl, MD, is a sports medicine physician at Hospital for Special Surgery (HSS) in New York City. He’s also a lifelong triathlete and marathon runner and has parlayed that passion into an online fitness community of more than 10,000 people called Ironstrength. Through that, Metzl has led free exercise classes in Central Park for years. He doesn’t dabble. Three times a year he leads a boot camp class of more than 1000 people on the flight deck of the USS Intrepid on the Hudson River.

“I get it, being a doctor is all about the hours,” he said. “The time sacrifices get brutal and you have to cut something out, sometimes every day. For a lot of us, that’s exercise.”

Metzl understands it so well that he recently began leading twice-monthly boot camp classes just for his HSS physician colleagues on Wednesday mornings. He says those doctors both want and need that extra boost and will be aggressive about making time for it.

“The better shape you’re in, the better job you’ll do as a physician,” he said. “You’ll feel better when the hours get long. In my own career, I have always been a better doctor when I’m active and in shape.”

Knowledge isn’t really the issue for physicians. Reality is. And reality dictates that doctors have just as much issue with achieving consistency as any patient they prescribe exercise to.

Metzl suggests total body functional training to mimic real-world movement, particularly core and lower body to keep you upright for hours at a time. How do you schedule that? He uses early mornings and weekends to train for his races and run his fitness classes, which is why his primary advice is to focus not on the activity, but on time.

“Schedule full workouts when you can and steal the rest,” he said.

Schopper agrees. “You may not be able to fit in 60 minutes of exercise every day, but 20-30 minutes of intentional movement is key,” she explained. “When you have a day off, prioritize a longer session of something you can’t fit in on workdays.”

Those shorter bouts of exercise might include “bookending” the day with 10 minutes of burpees in the morning and then 10 minutes of bodyweight strength moves like planks, push-ups, and air squats in the evening.

“Bodyweight exercises are low-hanging fruit,” said Wieser. “If you’ve got a short window, aim for something that can shoot your heart rate up quickly.”

You can also throw in “movement snacks” throughout the day — skip the elevator and run up a flight of stairs, walk around during a quick lunch break, or throw in a set of jumping jacks between patients. (Don’t worry — you won’t be dripping sweat when they walk in.)

Remember, the rehab room in the orthopedic wing may have a few dumbbells and exercise bands you can utilize when you have 5 extra minutes in your day. “Any way you can squeeze in extra movement counts,” said Wieser.

 

Feats of Strength? Neighborhood Sprints? It All Matters

Kissinger Goldman, DO, a Florida-based ER physician, began his dedication to exercise 17 years ago, after a high-cholesterol diagnosis. “Did I have time to exercise in medical school and residency? Yes,” Goldman admitted. “But I didn’t have the same commitment to my health until I received that number. I set about to change everything.”

Goldman follows the approach of dividing up his exercise routine into short or long sessions, depending on his schedule. “If I’m off, I’ll aim for 30 minutes of cardio and 30 minutes of strength and core work,” he explained. “When I have to work, I’ll do a compressed version of that routine as soon as I wake up, and make sure the cardio is very intense — I’ll sprint in my neighborhood, for instance.”

Matt Klein, a doctor of physical therapy and professor at George Fox University in Newberg, Oregon, who has treated many doctors, says that, when pushed for time, just 20 minutes of “heavy” strength training can deliver good results. “The definition of heavy will vary, but aim for a weight that is challenging, whether a beginner or a more experienced exerciser,” he said. “Most doctors won’t have time to go to the gym, so a simple set of dumbbells or kettlebells will work just fine. The easier it is to access, the more likely you are to do it consistently.”

Klein is a fan of strength training with good reason: “Strength is a predictor of chronic disease, so doing some high-level strength training or power training can go a long way,” he said.

The endorphin high and overall sense of improved well-being are an extra bonus. Goldman credits it with ensuring he rarely misses a workout.

 

Get Hardcore About Sleep

Consider the following passage: “There are clear negative effects of sleep deprivation on performance, including reaction time, accuracy, vigor, submaximal strength, and endurance. Cognitive functions such as judgment and decision-making also suffer.”

Does that sound like how you feel on suboptimal sleep? That’s from an International Journal of Sports Medicine study on the effects of sleep deprivation on athletes.

Athletes aren’t doctors — but when you consider “reaction time, accuracy, endurance, judgment, and decision-making” — doctors could certainly benefit by thinking like athletes.

Schopper is serious about sleep and sets firm boundaries.

“It’s hard,” she admitted. “We want to work, see our families, have fun. But I work hard to say, ‘I’m done,’ and go to bed.”

“Rest is crucial for this job,” agreed Goldman. “If you don’t have adequate sleep, your cortisone levels are going to go up. When you’re exhausted and you’re working, you’re likely to miss something.” Goldman is consistent with early bedtimes around 9:00 or 9:30 PM, and he allows for a bit of “wind-down” time by reading for about 20 minutes before nodding off.

Goldman also sees a link between rest and improved interactions with patients. “There’s a direct correlation between number of hours worked in a row with respect to ‘customer service’ with patients,” he said.

But don’t aim for perfection. Allow some wiggle room for the time you spend asleep, Klein recommends. “We’ve always aimed for 8 hours, but there’s evidence that even 6 or 7 hours can be enough to allow you to recover as needed,” he said. “Optimally, you want that to be uninterrupted, but if not, a 10-minute power nap can help with mental clarity.”

 

Keep Searching, Keep Trying, Keep Training

Schopper was never, nor has she become, a gym rat. Still, “I knew I needed to build upper body strength,” she said. That meant expanding her fitness possibilities beyond the obvious. She discovered aerial arts — intense workouts using straps and other suspension tools to work every muscle in her body while hanging from the ceiling. Increased strength was a given, but she also seriously increased her range of motion.

For Schopper, the improvements to her lifestyle have been game changers. “I still have long days, but I’m no longer sore and tired after them,” she said. “I sleep better and have more energy. I’m proud of myself for putting the effort into this.”

A journey toward health and fitness may look different for everyone, but (as doctors frequently tell their patients) it’s a path anyone can follow.

“Being a doctor is not necessarily good for your health,” said Klein. “The body can handle the job, however, if you train for it.”

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

When a patient signs on to a telehealth portal, there’s little more a provider can do than ask questions. But a new artificial intelligence (AI) technology could allow providers to get feedback about the patient’s blood pressure and diabetes risk just from a video call or a smartphone app.

Researchers at the University of Tokyo in Japan are using AI to determine whether people might have high blood pressure or diabetes based on video data collected with a special sensor. 

The technology relies on photoplethysmography (PPG), which measures changes in blood volume by detecting the amount of light absorbed by blood just below the skin. 

This technology is already used for things like finger pulse oximetry to determine oxygen saturation and heart rate. Wearable devices like Apple Watches and Fitbits also use PPG technologies to detect heart rate and atrial fibrillation.

“If we could detect and accurately measure your blood pressure, heart rate, and oxygen saturation non-invasively that would be fantastic,” said Eugene Yang, MD, professor of medicine in the division of cardiology at the University of Washington School of Medicine in Seattle who was not involved in the study.

 

How Does PPG Work — and Is This New Tech Accurate?

Using PPG, “you’re detecting these small, little blood vessels that sit underneath the surface of your skin,” explained Yang.

“Since both hypertension and diabetes are diseases that damage blood vessels, we thought these diseases might affect blood flow and pulse wave transit times,” said Ryoko Uchida, a project researcher in the cardiology department at the University of Tokyo and one of the leaders of the study.

PPG devices primarily use green light to detect blood flow, as hemoglobin, the oxygen-carrying molecule in blood, absorbs green light most effectively, Yang said. “So, if you extract and remove all the other channels of light and only focus on the green channel, then that’s when you’ll be able to potentially see blood flow and pulsatile blood flow activity,” he noted.

The University of Tokyo researchers used remote or contactless PPG, which requires a short video recording of someone’s face and palms, as the person holds as still as possible. A special sensor collects the video and detects only certain wavelengths of light. Then the researchers developed an AI algorithm to extract data from participants’ skin, such as changes in pulse transit time — the time it takes for the pulse to travel from the palm to the face.

To correlate the video algorithm to blood pressure and diabetes risk, the researchers measured blood participants’ pressure with a continuous sphygmomanometer (an automatic blood pressure cuff) at the same time as they collected the video. They also did a blood A1c test to detect diabetes.

So far, they’ve tested their video algorithm on 215 people. The algorithm applied to a 30-second video was 86% accurate in detecting if blood pressure was above normal, and a 5-second video was 81% accurate in detecting higher blood pressure.

Compared with using hemoglobin A1c blood test results to screen for diabetes, the video algorithm was 75% accurate in identifying people who had subtle blood changes that correlated to diabetes.

“Most of this focus has been on wearable devices, patches, rings, wrist devices,” Yang said, “the facial video stuff is great because you can imagine that there are other ways of applying it.”

Yang, who is also doing research on facial video processing, pointed out it could be helpful not only in telehealth visits, but also for patients in the hospital with highly contagious diseases who need to be in isolation, or just for people using their smartphones. 

“People are tied to their smartphones, so you could imagine that that would be great as a way for people to have awareness about their blood pressure or their diabetes status,” Yang noted.

 

More Work to Do

The study has a few caveats. The special sensor they used in this study isn’t yet integrated into smartphone cameras or other common video recording devices. But Uchida is hopeful that it could be mass-produced and inexpensive to someday add.

Also, the study was done in a Japanese population, and lighter skin may be easier to capture changes in blood flow, Uchida noted. Pulse oximeters, which use the same technology, tend to overestimate blood oxygen in people with darker skin tones.

“It is necessary to test whether the same results are obtained in a variety of subjects other than Japanese and Asians,” Uchida said, in addition to validating the tool with more participants.

The study has also not yet undergone peer review.

And Yang pointed out that this new AI technology provides more of a screening tool to predict who is at high risk for high blood pressure or diabetes, rather than precise measurements for either disease.

There are already some devices that claim to measure blood pressure using PPG technology, like blood pressure monitoring watches. But Yang warns that these kinds of devices aren’t validated, meaning we don’t really know how well they work.

One difficulty in getting any kind of PPG blood pressure monitoring device to market is that the organizations involved in setting medical device standards (like the International Organization for Standards) doesn’t yet have a validation standard for this technology, Yang said, so there’s really no way to consistently verify the technology’s accuracy.

“I am optimistic that we are capable of figuring out how to validate these things. I just think we have so many things we have to iron out before that happens,” Yang explained, noting that it will be at least 3 years before a remote blood monitoring system is widely available.

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

When a patient signs on to a telehealth portal, there’s little more a provider can do than ask questions. But a new artificial intelligence (AI) technology could allow providers to get feedback about the patient’s blood pressure and diabetes risk just from a video call or a smartphone app.

Researchers at the University of Tokyo in Japan are using AI to determine whether people might have high blood pressure or diabetes based on video data collected with a special sensor. 

The technology relies on photoplethysmography (PPG), which measures changes in blood volume by detecting the amount of light absorbed by blood just below the skin. 

This technology is already used for things like finger pulse oximetry to determine oxygen saturation and heart rate. Wearable devices like Apple Watches and Fitbits also use PPG technologies to detect heart rate and atrial fibrillation.

“If we could detect and accurately measure your blood pressure, heart rate, and oxygen saturation non-invasively that would be fantastic,” said Eugene Yang, MD, professor of medicine in the division of cardiology at the University of Washington School of Medicine in Seattle who was not involved in the study.

 

How Does PPG Work — and Is This New Tech Accurate?

Using PPG, “you’re detecting these small, little blood vessels that sit underneath the surface of your skin,” explained Yang.

“Since both hypertension and diabetes are diseases that damage blood vessels, we thought these diseases might affect blood flow and pulse wave transit times,” said Ryoko Uchida, a project researcher in the cardiology department at the University of Tokyo and one of the leaders of the study.

PPG devices primarily use green light to detect blood flow, as hemoglobin, the oxygen-carrying molecule in blood, absorbs green light most effectively, Yang said. “So, if you extract and remove all the other channels of light and only focus on the green channel, then that’s when you’ll be able to potentially see blood flow and pulsatile blood flow activity,” he noted.

The University of Tokyo researchers used remote or contactless PPG, which requires a short video recording of someone’s face and palms, as the person holds as still as possible. A special sensor collects the video and detects only certain wavelengths of light. Then the researchers developed an AI algorithm to extract data from participants’ skin, such as changes in pulse transit time — the time it takes for the pulse to travel from the palm to the face.

To correlate the video algorithm to blood pressure and diabetes risk, the researchers measured blood participants’ pressure with a continuous sphygmomanometer (an automatic blood pressure cuff) at the same time as they collected the video. They also did a blood A1c test to detect diabetes.

So far, they’ve tested their video algorithm on 215 people. The algorithm applied to a 30-second video was 86% accurate in detecting if blood pressure was above normal, and a 5-second video was 81% accurate in detecting higher blood pressure.

Compared with using hemoglobin A1c blood test results to screen for diabetes, the video algorithm was 75% accurate in identifying people who had subtle blood changes that correlated to diabetes.

“Most of this focus has been on wearable devices, patches, rings, wrist devices,” Yang said, “the facial video stuff is great because you can imagine that there are other ways of applying it.”

Yang, who is also doing research on facial video processing, pointed out it could be helpful not only in telehealth visits, but also for patients in the hospital with highly contagious diseases who need to be in isolation, or just for people using their smartphones. 

“People are tied to their smartphones, so you could imagine that that would be great as a way for people to have awareness about their blood pressure or their diabetes status,” Yang noted.

 

More Work to Do

The study has a few caveats. The special sensor they used in this study isn’t yet integrated into smartphone cameras or other common video recording devices. But Uchida is hopeful that it could be mass-produced and inexpensive to someday add.

Also, the study was done in a Japanese population, and lighter skin may be easier to capture changes in blood flow, Uchida noted. Pulse oximeters, which use the same technology, tend to overestimate blood oxygen in people with darker skin tones.

“It is necessary to test whether the same results are obtained in a variety of subjects other than Japanese and Asians,” Uchida said, in addition to validating the tool with more participants.

The study has also not yet undergone peer review.

And Yang pointed out that this new AI technology provides more of a screening tool to predict who is at high risk for high blood pressure or diabetes, rather than precise measurements for either disease.

There are already some devices that claim to measure blood pressure using PPG technology, like blood pressure monitoring watches. But Yang warns that these kinds of devices aren’t validated, meaning we don’t really know how well they work.

One difficulty in getting any kind of PPG blood pressure monitoring device to market is that the organizations involved in setting medical device standards (like the International Organization for Standards) doesn’t yet have a validation standard for this technology, Yang said, so there’s really no way to consistently verify the technology’s accuracy.

“I am optimistic that we are capable of figuring out how to validate these things. I just think we have so many things we have to iron out before that happens,” Yang explained, noting that it will be at least 3 years before a remote blood monitoring system is widely available.

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

When a patient signs on to a telehealth portal, there’s little more a provider can do than ask questions. But a new artificial intelligence (AI) technology could allow providers to get feedback about the patient’s blood pressure and diabetes risk just from a video call or a smartphone app.

Researchers at the University of Tokyo in Japan are using AI to determine whether people might have high blood pressure or diabetes based on video data collected with a special sensor. 

The technology relies on photoplethysmography (PPG), which measures changes in blood volume by detecting the amount of light absorbed by blood just below the skin. 

This technology is already used for things like finger pulse oximetry to determine oxygen saturation and heart rate. Wearable devices like Apple Watches and Fitbits also use PPG technologies to detect heart rate and atrial fibrillation.

“If we could detect and accurately measure your blood pressure, heart rate, and oxygen saturation non-invasively that would be fantastic,” said Eugene Yang, MD, professor of medicine in the division of cardiology at the University of Washington School of Medicine in Seattle who was not involved in the study.

 

How Does PPG Work — and Is This New Tech Accurate?

Using PPG, “you’re detecting these small, little blood vessels that sit underneath the surface of your skin,” explained Yang.

“Since both hypertension and diabetes are diseases that damage blood vessels, we thought these diseases might affect blood flow and pulse wave transit times,” said Ryoko Uchida, a project researcher in the cardiology department at the University of Tokyo and one of the leaders of the study.

PPG devices primarily use green light to detect blood flow, as hemoglobin, the oxygen-carrying molecule in blood, absorbs green light most effectively, Yang said. “So, if you extract and remove all the other channels of light and only focus on the green channel, then that’s when you’ll be able to potentially see blood flow and pulsatile blood flow activity,” he noted.

The University of Tokyo researchers used remote or contactless PPG, which requires a short video recording of someone’s face and palms, as the person holds as still as possible. A special sensor collects the video and detects only certain wavelengths of light. Then the researchers developed an AI algorithm to extract data from participants’ skin, such as changes in pulse transit time — the time it takes for the pulse to travel from the palm to the face.

To correlate the video algorithm to blood pressure and diabetes risk, the researchers measured blood participants’ pressure with a continuous sphygmomanometer (an automatic blood pressure cuff) at the same time as they collected the video. They also did a blood A1c test to detect diabetes.

So far, they’ve tested their video algorithm on 215 people. The algorithm applied to a 30-second video was 86% accurate in detecting if blood pressure was above normal, and a 5-second video was 81% accurate in detecting higher blood pressure.

Compared with using hemoglobin A1c blood test results to screen for diabetes, the video algorithm was 75% accurate in identifying people who had subtle blood changes that correlated to diabetes.

“Most of this focus has been on wearable devices, patches, rings, wrist devices,” Yang said, “the facial video stuff is great because you can imagine that there are other ways of applying it.”

Yang, who is also doing research on facial video processing, pointed out it could be helpful not only in telehealth visits, but also for patients in the hospital with highly contagious diseases who need to be in isolation, or just for people using their smartphones. 

“People are tied to their smartphones, so you could imagine that that would be great as a way for people to have awareness about their blood pressure or their diabetes status,” Yang noted.

 

More Work to Do

The study has a few caveats. The special sensor they used in this study isn’t yet integrated into smartphone cameras or other common video recording devices. But Uchida is hopeful that it could be mass-produced and inexpensive to someday add.

Also, the study was done in a Japanese population, and lighter skin may be easier to capture changes in blood flow, Uchida noted. Pulse oximeters, which use the same technology, tend to overestimate blood oxygen in people with darker skin tones.

“It is necessary to test whether the same results are obtained in a variety of subjects other than Japanese and Asians,” Uchida said, in addition to validating the tool with more participants.

The study has also not yet undergone peer review.

And Yang pointed out that this new AI technology provides more of a screening tool to predict who is at high risk for high blood pressure or diabetes, rather than precise measurements for either disease.

There are already some devices that claim to measure blood pressure using PPG technology, like blood pressure monitoring watches. But Yang warns that these kinds of devices aren’t validated, meaning we don’t really know how well they work.

One difficulty in getting any kind of PPG blood pressure monitoring device to market is that the organizations involved in setting medical device standards (like the International Organization for Standards) doesn’t yet have a validation standard for this technology, Yang said, so there’s really no way to consistently verify the technology’s accuracy.

“I am optimistic that we are capable of figuring out how to validate these things. I just think we have so many things we have to iron out before that happens,” Yang explained, noting that it will be at least 3 years before a remote blood monitoring system is widely available.

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

TOPLINE:

Use of the glucagon-like peptide 1 (GLP-1) receptor agonists semaglutide and liraglutide is linked to a lower risk for alcohol use disorder (AUD)–related hospitalizations, compared with traditional AUD medications, a new study suggested.

METHODOLOGY:

• Researchers conducted a nationwide cohort study from 2006 to 2023 in Sweden that included more than 220,000 individuals with AUD (mean age, 40 years; 64% men).
• Data were obtained from registers of inpatient and specialized outpatient care, sickness absence, and disability pension, with a median follow-up period of 8.8 years.
• The primary exposure measured was the use of individual GLP-1 receptor agonists — commonly used to treat type 2 diabetes and obesity — compared with nonuse.
• The secondary exposure examined was the use of medications indicated for AUD.
• The primary outcome was AUD-related hospitalization; secondary outcomes included hospitalization due to substance use disorder (SUD), somatic hospitalization, and suicide attempts.

TAKEAWAY:

• About 59% of participants experienced AUD-related hospitalization.
• Semaglutide users (n = 4321) had the lowest risk for hospitalization related to AUD (adjusted hazard ratio [aHR], 0.64; 95% CI, 0.50-0.83) and to any SUD (aHR, 0.68; 95% CI, 0.54-0.85).
• Liraglutide users (n = 2509) had the second lowest risk for both AUD-related (aHR, 0.72; 95% CI, 0.57-0.92) and SUD-related (aHR, 0.78; 95% CI, 0.64-0.97) hospitalizations.
• The use of both semaglutide (aHR, 0.78; 95% CI, 0.68-0.90) and liraglutide (aHR, 0.79; 95% CI, 0.69-0.91) was linked to a reduced risk for hospitalization because of somatic reasons but was not associated with the risk of suicide attempts.
• Traditional AUD medications showed modest effectiveness with a slightly decreased but nonsignificant risk for AUD-related hospitalization (aHR, 0.98).

IN PRACTICE:

“AUDs and SUDs are undertreated pharmacologically, despite the availability of effective treatments. However, novel treatments are also needed because existing treatments may not be suitable for all patients. Semaglutide and liraglutide may be effective in the treatment of AUD, and clinical trials are urgently needed to confirm these findings,” the investigators wrote.

SOURCE:

This study was led by Markku Lähteenvuo, MD, PhD, University of Eastern Finland, Niuvanniemi Hospital, Kuopio. It was published online on November 13 in JAMA Psychiatry.

LIMITATIONS:

The observational nature of this study limited causal inferences.

DISCLOSURES:

The data used in this study were obtained from the REWHARD consortium, supported by the Swedish Research Council. Four of the six authors reported receiving grants or personal fees from various sources outside the submitted work, which are fully listed in the original article.

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

TOPLINE:

Use of the glucagon-like peptide 1 (GLP-1) receptor agonists semaglutide and liraglutide is linked to a lower risk for alcohol use disorder (AUD)–related hospitalizations, compared with traditional AUD medications, a new study suggested.

METHODOLOGY:

• Researchers conducted a nationwide cohort study from 2006 to 2023 in Sweden that included more than 220,000 individuals with AUD (mean age, 40 years; 64% men).
• Data were obtained from registers of inpatient and specialized outpatient care, sickness absence, and disability pension, with a median follow-up period of 8.8 years.
• The primary exposure measured was the use of individual GLP-1 receptor agonists — commonly used to treat type 2 diabetes and obesity — compared with nonuse.
• The secondary exposure examined was the use of medications indicated for AUD.
• The primary outcome was AUD-related hospitalization; secondary outcomes included hospitalization due to substance use disorder (SUD), somatic hospitalization, and suicide attempts.

TAKEAWAY:

• About 59% of participants experienced AUD-related hospitalization.
• Semaglutide users (n = 4321) had the lowest risk for hospitalization related to AUD (adjusted hazard ratio [aHR], 0.64; 95% CI, 0.50-0.83) and to any SUD (aHR, 0.68; 95% CI, 0.54-0.85).
• Liraglutide users (n = 2509) had the second lowest risk for both AUD-related (aHR, 0.72; 95% CI, 0.57-0.92) and SUD-related (aHR, 0.78; 95% CI, 0.64-0.97) hospitalizations.
• The use of both semaglutide (aHR, 0.78; 95% CI, 0.68-0.90) and liraglutide (aHR, 0.79; 95% CI, 0.69-0.91) was linked to a reduced risk for hospitalization because of somatic reasons but was not associated with the risk of suicide attempts.
• Traditional AUD medications showed modest effectiveness with a slightly decreased but nonsignificant risk for AUD-related hospitalization (aHR, 0.98).

IN PRACTICE:

“AUDs and SUDs are undertreated pharmacologically, despite the availability of effective treatments. However, novel treatments are also needed because existing treatments may not be suitable for all patients. Semaglutide and liraglutide may be effective in the treatment of AUD, and clinical trials are urgently needed to confirm these findings,” the investigators wrote.

SOURCE:

This study was led by Markku Lähteenvuo, MD, PhD, University of Eastern Finland, Niuvanniemi Hospital, Kuopio. It was published online on November 13 in JAMA Psychiatry.

LIMITATIONS:

The observational nature of this study limited causal inferences.

DISCLOSURES:

The data used in this study were obtained from the REWHARD consortium, supported by the Swedish Research Council. Four of the six authors reported receiving grants or personal fees from various sources outside the submitted work, which are fully listed in the original article.

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

TOPLINE:

Use of the glucagon-like peptide 1 (GLP-1) receptor agonists semaglutide and liraglutide is linked to a lower risk for alcohol use disorder (AUD)–related hospitalizations, compared with traditional AUD medications, a new study suggested.

METHODOLOGY:

• Researchers conducted a nationwide cohort study from 2006 to 2023 in Sweden that included more than 220,000 individuals with AUD (mean age, 40 years; 64% men).
• Data were obtained from registers of inpatient and specialized outpatient care, sickness absence, and disability pension, with a median follow-up period of 8.8 years.
• The primary exposure measured was the use of individual GLP-1 receptor agonists — commonly used to treat type 2 diabetes and obesity — compared with nonuse.
• The secondary exposure examined was the use of medications indicated for AUD.
• The primary outcome was AUD-related hospitalization; secondary outcomes included hospitalization due to substance use disorder (SUD), somatic hospitalization, and suicide attempts.

TAKEAWAY:

• About 59% of participants experienced AUD-related hospitalization.
• Semaglutide users (n = 4321) had the lowest risk for hospitalization related to AUD (adjusted hazard ratio [aHR], 0.64; 95% CI, 0.50-0.83) and to any SUD (aHR, 0.68; 95% CI, 0.54-0.85).
• Liraglutide users (n = 2509) had the second lowest risk for both AUD-related (aHR, 0.72; 95% CI, 0.57-0.92) and SUD-related (aHR, 0.78; 95% CI, 0.64-0.97) hospitalizations.
• The use of both semaglutide (aHR, 0.78; 95% CI, 0.68-0.90) and liraglutide (aHR, 0.79; 95% CI, 0.69-0.91) was linked to a reduced risk for hospitalization because of somatic reasons but was not associated with the risk of suicide attempts.
• Traditional AUD medications showed modest effectiveness with a slightly decreased but nonsignificant risk for AUD-related hospitalization (aHR, 0.98).

IN PRACTICE:

“AUDs and SUDs are undertreated pharmacologically, despite the availability of effective treatments. However, novel treatments are also needed because existing treatments may not be suitable for all patients. Semaglutide and liraglutide may be effective in the treatment of AUD, and clinical trials are urgently needed to confirm these findings,” the investigators wrote.

SOURCE:

This study was led by Markku Lähteenvuo, MD, PhD, University of Eastern Finland, Niuvanniemi Hospital, Kuopio. It was published online on November 13 in JAMA Psychiatry.

LIMITATIONS:

The observational nature of this study limited causal inferences.

DISCLOSURES:

The data used in this study were obtained from the REWHARD consortium, supported by the Swedish Research Council. Four of the six authors reported receiving grants or personal fees from various sources outside the submitted work, which are fully listed in the original article.

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

WASHINGTON — Glucagon-like peptide 1 receptor agonist (GLP-1 RA) medications appear beneficial for people with systemic lupus erythematosus (SLE) and lupus nephritis, two new studies suggest. 

“The risk of cardiovascular disease is thought to be at least double that for people with lupus ... and we know the risk of progressing to end-stage renal disease [ESKD] for patients with lupus nephritis can be as high as 10%-30%, so there’s clearly a major unmet need for new treatments and approaches to improve these outcomes, perhaps with adjunctive treatment beyond our typical immunosuppressive therapy,” April Jorge, MD, of Massachusetts General Hospital, Boston, said at the annual meeting of the American College of Rheumatology (ACR). 

The GLP-1 RAs are approved for the treatment of type 2 diabetes (T2D) and obesity. They also have proven cardiovascular benefit, along with emerging data suggesting kidney protection independent of glucose lowering. Jorge presented findings from a study using data from the US multicenter electronic health record database TriNetX, showing that, among patients who had both T2D and SLE, those using GLP-1 RAs had lower risks for major adverse cardiac events (MACE), venous thrombosis, kidney disease progression, and all-cause mortality, compared with those using a different class of T2D medication. 

A second study using TriNetX, presented at the same ACR meeting session by Anna-Kay Palmer, MD, a third-year internal medicine resident at Jefferson Einstein Hospital, Philadelphia, Pennsylvania, showed that GLP-1 RAs reduced the risk of progression to ESKD in patients with lupus nephritis, possibly caused by reductions in pro-inflammatory mediators.

Asked to comment, session moderator Diane L. Kamen, MD, professor of medicine at the Medical University of South Carolina Division of Rheumatology, Charleston, said in an interview that she definitely supports the use of GLP-1 RAs for patients who have SLE and/or lupus nephritis and also a drug label indication, either T2D or obesity. “[The GLP-1 RA prescriber] will usually run it by rheumatology to make sure that it doesn’t conflict with any of their other medical treatment, and it’s very reassuring to know that they could actually get a win-win.” 

But as far as prescribing off-label for those with SLE/lupus nephritis who don’t have other GLP-1 RA indications, Kamen said, “that’s a black hole at this point. We need to do those prospective studies. But if they have another indication, yes.”

 

Cardiovascular, Kidney Benefits of GLP-1 RAs

Jorge noted that patients with lupus were excluded from the randomized clinical trials of GLP-1 RAs, so the current study was designed to investigate the potential impact of these medications on cardiovascular and kidney outcomes in patients with SLE and lupus nephritis. 

From TriNetX data for 46 healthcare organizations nationwide, a total of 96,511 patients with both SLE and T2D but not ESKD had initiated either a GLP-1 RA or another diabetes drug class, dipeptidyl peptidase 4 inhibitors (DPP4i), between October 2006 and August 2021. Of those, 29,177 had lupus nephritis. 

Propensity score matching for factors such as demographics, lupus severity, comorbidities, and medication use was used to emulate a randomized trial. This yielded 25,838 with SLE and T2D, of whom 910 initiated a GLP-1 RA and 1004 started a DPP4i, and 12,387 with lupus nephritis and T2D, including 267 on a GLP-1 RA and 324 on a DPP4i. After matching, the mean age was 55 years, more than 90% were women, and just under half were White individuals. About one third had chronic kidney disease stages ≥ 3, and about 15% had heart failure. 

Over an average follow-up time of 1.2-1.4 years among those with SLE, the hazard ratio (HR) for MACE (a composite of myocardial infarction, stroke, and heart failure) for those taking a GLP-1 RA vs a DPP4i was 0.66, a significant difference. And for venous thrombosis, the HR was also significant at 0.49.

Kidney disease progression, defined as an estimated glomerular filtration rate decline of 30% or more or new ESKD, was significantly less likely in the GLP-1 RA group, with a HR of 0.77. All-cause mortality also was dramatically reduced (HR, 0.26). As expected, there was no difference in control outcome, genital infections (HR, 1.02). 

In the subgroup with lupus nephritis, there were also lower risks for both MACE (HR, 0.64) and for renal progression (HR, 0.70). “The findings suggest similar cardiac and kidney benefits among patients with SLE and lupus nephritis as have been observed in other populations,” Jorge concluded. 

Kamen commented that the study design “was pretty brilliant, because you wouldn’t be able to do a placebo-controlled trial since the indication was diabetes ... but the fact is you do see that the GLP-1 RA gets the benefit whereas the other drug does not.”

Next steps, Jorge said, will be mechanistic studies to better understand the effects of GLP-1 RAs in lupus and other rheumatic diseases, prospective studies of GLP-1 RAs in SLE and lupus nephritis without diabetes, and clarification of ideal timing for GLP-1 RA use in SLE and lupus nephritis. 

“Ideally, with our prospective studies with these patients we can try to isolate the effect on patients with lupus and also better understand whether there might be an impact on disease activity through the anti-inflammatory effects of these medications, rather than just the cardioprotective and nephroprotective benefits,” she said. 

 

In Those With Lupus Nephritis, Kidney Protection Seen

In her presentation, Palmer noted that, despite immunosuppressive therapies for SLE, 10%-20% of patients who develop lupus nephritis will progress to ESKD within 5 years of diagnosis. 

She added that GLP-1 RAs have been shown to reduce albuminuria in people with diabetes and have been hypothesized to reduce inflammation through multiple pathways, thereby potentially reducing kidney disease independently of the presence of diabetes or weight loss. These pathways include modulating immune cell signaling and reducing pro-inflammatory cytokines. 

Based on all this, Palmer and colleagues used International Classification of Diseases – 10th edition diagnostic codes in TriNetX to identify 839 patients who had been diagnosed with lupus nephritis between 2014 and 2024 and who were prescribed liraglutide, dulaglutide, semaglutide, or exenatide for any time after the lupus nephritis diagnosis. Another 29,840 patients with lupus nephritis had not used GLP-1 RAs. 

After 1:1 propensity score matching for age, sex, race, ethnicity, presence of hypertension, diabetes, use of immunosuppressive and diabetes medication, smoking, obesity, and statin use, there were 735 individuals in each group. About two thirds in each had diabetes, whereas the rest had been prescribed the GLP-1 RAs for other indications. 

Patients who were not on GLP-1 RAs were twice as likely to develop ESKD or dialysis (8.88% vs 3.971%; odds ratio, 2.35; P = .001). 

Kamen pointed out that not including the use of angiotensin-converting enzyme inhibitors and angiotensin receptor blockers was a study flaw. On the other hand, the fact that not everyone in this study had diabetes was an advantage.

Jorge received grant/research support from Bristol-Myers Squibb, Cabaletta Bio, and the Lupus Clinical Investigator Network. Kamen is an adviser/review panel member for Alpine Immune Sciences. Palmer had no disclosures.

A version of this article appeared on Medscape.com.

WASHINGTON — Glucagon-like peptide 1 receptor agonist (GLP-1 RA) medications appear beneficial for people with systemic lupus erythematosus (SLE) and lupus nephritis, two new studies suggest. 

“The risk of cardiovascular disease is thought to be at least double that for people with lupus ... and we know the risk of progressing to end-stage renal disease [ESKD] for patients with lupus nephritis can be as high as 10%-30%, so there’s clearly a major unmet need for new treatments and approaches to improve these outcomes, perhaps with adjunctive treatment beyond our typical immunosuppressive therapy,” April Jorge, MD, of Massachusetts General Hospital, Boston, said at the annual meeting of the American College of Rheumatology (ACR). 

The GLP-1 RAs are approved for the treatment of type 2 diabetes (T2D) and obesity. They also have proven cardiovascular benefit, along with emerging data suggesting kidney protection independent of glucose lowering. Jorge presented findings from a study using data from the US multicenter electronic health record database TriNetX, showing that, among patients who had both T2D and SLE, those using GLP-1 RAs had lower risks for major adverse cardiac events (MACE), venous thrombosis, kidney disease progression, and all-cause mortality, compared with those using a different class of T2D medication. 

A second study using TriNetX, presented at the same ACR meeting session by Anna-Kay Palmer, MD, a third-year internal medicine resident at Jefferson Einstein Hospital, Philadelphia, Pennsylvania, showed that GLP-1 RAs reduced the risk of progression to ESKD in patients with lupus nephritis, possibly caused by reductions in pro-inflammatory mediators.

Asked to comment, session moderator Diane L. Kamen, MD, professor of medicine at the Medical University of South Carolina Division of Rheumatology, Charleston, said in an interview that she definitely supports the use of GLP-1 RAs for patients who have SLE and/or lupus nephritis and also a drug label indication, either T2D or obesity. “[The GLP-1 RA prescriber] will usually run it by rheumatology to make sure that it doesn’t conflict with any of their other medical treatment, and it’s very reassuring to know that they could actually get a win-win.” 

But as far as prescribing off-label for those with SLE/lupus nephritis who don’t have other GLP-1 RA indications, Kamen said, “that’s a black hole at this point. We need to do those prospective studies. But if they have another indication, yes.”

 

Cardiovascular, Kidney Benefits of GLP-1 RAs

Jorge noted that patients with lupus were excluded from the randomized clinical trials of GLP-1 RAs, so the current study was designed to investigate the potential impact of these medications on cardiovascular and kidney outcomes in patients with SLE and lupus nephritis. 

From TriNetX data for 46 healthcare organizations nationwide, a total of 96,511 patients with both SLE and T2D but not ESKD had initiated either a GLP-1 RA or another diabetes drug class, dipeptidyl peptidase 4 inhibitors (DPP4i), between October 2006 and August 2021. Of those, 29,177 had lupus nephritis. 

Propensity score matching for factors such as demographics, lupus severity, comorbidities, and medication use was used to emulate a randomized trial. This yielded 25,838 with SLE and T2D, of whom 910 initiated a GLP-1 RA and 1004 started a DPP4i, and 12,387 with lupus nephritis and T2D, including 267 on a GLP-1 RA and 324 on a DPP4i. After matching, the mean age was 55 years, more than 90% were women, and just under half were White individuals. About one third had chronic kidney disease stages ≥ 3, and about 15% had heart failure. 

Over an average follow-up time of 1.2-1.4 years among those with SLE, the hazard ratio (HR) for MACE (a composite of myocardial infarction, stroke, and heart failure) for those taking a GLP-1 RA vs a DPP4i was 0.66, a significant difference. And for venous thrombosis, the HR was also significant at 0.49.

Kidney disease progression, defined as an estimated glomerular filtration rate decline of 30% or more or new ESKD, was significantly less likely in the GLP-1 RA group, with a HR of 0.77. All-cause mortality also was dramatically reduced (HR, 0.26). As expected, there was no difference in control outcome, genital infections (HR, 1.02). 

In the subgroup with lupus nephritis, there were also lower risks for both MACE (HR, 0.64) and for renal progression (HR, 0.70). “The findings suggest similar cardiac and kidney benefits among patients with SLE and lupus nephritis as have been observed in other populations,” Jorge concluded. 

Kamen commented that the study design “was pretty brilliant, because you wouldn’t be able to do a placebo-controlled trial since the indication was diabetes ... but the fact is you do see that the GLP-1 RA gets the benefit whereas the other drug does not.”

Next steps, Jorge said, will be mechanistic studies to better understand the effects of GLP-1 RAs in lupus and other rheumatic diseases, prospective studies of GLP-1 RAs in SLE and lupus nephritis without diabetes, and clarification of ideal timing for GLP-1 RA use in SLE and lupus nephritis. 

“Ideally, with our prospective studies with these patients we can try to isolate the effect on patients with lupus and also better understand whether there might be an impact on disease activity through the anti-inflammatory effects of these medications, rather than just the cardioprotective and nephroprotective benefits,” she said. 

 

In Those With Lupus Nephritis, Kidney Protection Seen

In her presentation, Palmer noted that, despite immunosuppressive therapies for SLE, 10%-20% of patients who develop lupus nephritis will progress to ESKD within 5 years of diagnosis. 

She added that GLP-1 RAs have been shown to reduce albuminuria in people with diabetes and have been hypothesized to reduce inflammation through multiple pathways, thereby potentially reducing kidney disease independently of the presence of diabetes or weight loss. These pathways include modulating immune cell signaling and reducing pro-inflammatory cytokines. 

Based on all this, Palmer and colleagues used International Classification of Diseases – 10th edition diagnostic codes in TriNetX to identify 839 patients who had been diagnosed with lupus nephritis between 2014 and 2024 and who were prescribed liraglutide, dulaglutide, semaglutide, or exenatide for any time after the lupus nephritis diagnosis. Another 29,840 patients with lupus nephritis had not used GLP-1 RAs. 

After 1:1 propensity score matching for age, sex, race, ethnicity, presence of hypertension, diabetes, use of immunosuppressive and diabetes medication, smoking, obesity, and statin use, there were 735 individuals in each group. About two thirds in each had diabetes, whereas the rest had been prescribed the GLP-1 RAs for other indications. 

Patients who were not on GLP-1 RAs were twice as likely to develop ESKD or dialysis (8.88% vs 3.971%; odds ratio, 2.35; P = .001). 

Kamen pointed out that not including the use of angiotensin-converting enzyme inhibitors and angiotensin receptor blockers was a study flaw. On the other hand, the fact that not everyone in this study had diabetes was an advantage.

Jorge received grant/research support from Bristol-Myers Squibb, Cabaletta Bio, and the Lupus Clinical Investigator Network. Kamen is an adviser/review panel member for Alpine Immune Sciences. Palmer had no disclosures.

A version of this article appeared on Medscape.com.

WASHINGTON — Glucagon-like peptide 1 receptor agonist (GLP-1 RA) medications appear beneficial for people with systemic lupus erythematosus (SLE) and lupus nephritis, two new studies suggest. 

“The risk of cardiovascular disease is thought to be at least double that for people with lupus ... and we know the risk of progressing to end-stage renal disease [ESKD] for patients with lupus nephritis can be as high as 10%-30%, so there’s clearly a major unmet need for new treatments and approaches to improve these outcomes, perhaps with adjunctive treatment beyond our typical immunosuppressive therapy,” April Jorge, MD, of Massachusetts General Hospital, Boston, said at the annual meeting of the American College of Rheumatology (ACR). 

The GLP-1 RAs are approved for the treatment of type 2 diabetes (T2D) and obesity. They also have proven cardiovascular benefit, along with emerging data suggesting kidney protection independent of glucose lowering. Jorge presented findings from a study using data from the US multicenter electronic health record database TriNetX, showing that, among patients who had both T2D and SLE, those using GLP-1 RAs had lower risks for major adverse cardiac events (MACE), venous thrombosis, kidney disease progression, and all-cause mortality, compared with those using a different class of T2D medication. 

A second study using TriNetX, presented at the same ACR meeting session by Anna-Kay Palmer, MD, a third-year internal medicine resident at Jefferson Einstein Hospital, Philadelphia, Pennsylvania, showed that GLP-1 RAs reduced the risk of progression to ESKD in patients with lupus nephritis, possibly caused by reductions in pro-inflammatory mediators.

Asked to comment, session moderator Diane L. Kamen, MD, professor of medicine at the Medical University of South Carolina Division of Rheumatology, Charleston, said in an interview that she definitely supports the use of GLP-1 RAs for patients who have SLE and/or lupus nephritis and also a drug label indication, either T2D or obesity. “[The GLP-1 RA prescriber] will usually run it by rheumatology to make sure that it doesn’t conflict with any of their other medical treatment, and it’s very reassuring to know that they could actually get a win-win.” 

But as far as prescribing off-label for those with SLE/lupus nephritis who don’t have other GLP-1 RA indications, Kamen said, “that’s a black hole at this point. We need to do those prospective studies. But if they have another indication, yes.”

 

Cardiovascular, Kidney Benefits of GLP-1 RAs

Jorge noted that patients with lupus were excluded from the randomized clinical trials of GLP-1 RAs, so the current study was designed to investigate the potential impact of these medications on cardiovascular and kidney outcomes in patients with SLE and lupus nephritis. 

From TriNetX data for 46 healthcare organizations nationwide, a total of 96,511 patients with both SLE and T2D but not ESKD had initiated either a GLP-1 RA or another diabetes drug class, dipeptidyl peptidase 4 inhibitors (DPP4i), between October 2006 and August 2021. Of those, 29,177 had lupus nephritis. 

Propensity score matching for factors such as demographics, lupus severity, comorbidities, and medication use was used to emulate a randomized trial. This yielded 25,838 with SLE and T2D, of whom 910 initiated a GLP-1 RA and 1004 started a DPP4i, and 12,387 with lupus nephritis and T2D, including 267 on a GLP-1 RA and 324 on a DPP4i. After matching, the mean age was 55 years, more than 90% were women, and just under half were White individuals. About one third had chronic kidney disease stages ≥ 3, and about 15% had heart failure. 

Over an average follow-up time of 1.2-1.4 years among those with SLE, the hazard ratio (HR) for MACE (a composite of myocardial infarction, stroke, and heart failure) for those taking a GLP-1 RA vs a DPP4i was 0.66, a significant difference. And for venous thrombosis, the HR was also significant at 0.49.

Kidney disease progression, defined as an estimated glomerular filtration rate decline of 30% or more or new ESKD, was significantly less likely in the GLP-1 RA group, with a HR of 0.77. All-cause mortality also was dramatically reduced (HR, 0.26). As expected, there was no difference in control outcome, genital infections (HR, 1.02). 

In the subgroup with lupus nephritis, there were also lower risks for both MACE (HR, 0.64) and for renal progression (HR, 0.70). “The findings suggest similar cardiac and kidney benefits among patients with SLE and lupus nephritis as have been observed in other populations,” Jorge concluded. 

Kamen commented that the study design “was pretty brilliant, because you wouldn’t be able to do a placebo-controlled trial since the indication was diabetes ... but the fact is you do see that the GLP-1 RA gets the benefit whereas the other drug does not.”

Next steps, Jorge said, will be mechanistic studies to better understand the effects of GLP-1 RAs in lupus and other rheumatic diseases, prospective studies of GLP-1 RAs in SLE and lupus nephritis without diabetes, and clarification of ideal timing for GLP-1 RA use in SLE and lupus nephritis. 

“Ideally, with our prospective studies with these patients we can try to isolate the effect on patients with lupus and also better understand whether there might be an impact on disease activity through the anti-inflammatory effects of these medications, rather than just the cardioprotective and nephroprotective benefits,” she said. 

 

In Those With Lupus Nephritis, Kidney Protection Seen

In her presentation, Palmer noted that, despite immunosuppressive therapies for SLE, 10%-20% of patients who develop lupus nephritis will progress to ESKD within 5 years of diagnosis. 

She added that GLP-1 RAs have been shown to reduce albuminuria in people with diabetes and have been hypothesized to reduce inflammation through multiple pathways, thereby potentially reducing kidney disease independently of the presence of diabetes or weight loss. These pathways include modulating immune cell signaling and reducing pro-inflammatory cytokines. 

Based on all this, Palmer and colleagues used International Classification of Diseases – 10th edition diagnostic codes in TriNetX to identify 839 patients who had been diagnosed with lupus nephritis between 2014 and 2024 and who were prescribed liraglutide, dulaglutide, semaglutide, or exenatide for any time after the lupus nephritis diagnosis. Another 29,840 patients with lupus nephritis had not used GLP-1 RAs. 

After 1:1 propensity score matching for age, sex, race, ethnicity, presence of hypertension, diabetes, use of immunosuppressive and diabetes medication, smoking, obesity, and statin use, there were 735 individuals in each group. About two thirds in each had diabetes, whereas the rest had been prescribed the GLP-1 RAs for other indications. 

Patients who were not on GLP-1 RAs were twice as likely to develop ESKD or dialysis (8.88% vs 3.971%; odds ratio, 2.35; P = .001). 

Kamen pointed out that not including the use of angiotensin-converting enzyme inhibitors and angiotensin receptor blockers was a study flaw. On the other hand, the fact that not everyone in this study had diabetes was an advantage.

Jorge received grant/research support from Bristol-Myers Squibb, Cabaletta Bio, and the Lupus Clinical Investigator Network. Kamen is an adviser/review panel member for Alpine Immune Sciences. Palmer had no disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

In older postmenopausal women with type 2 diabetes (T2D), pyridoxamine treatment has potential to prevent fractures and protect bone tissue by targeting advanced glycation end products and also lowers levels of A1c, an early glycation product.

METHODOLOGY:

• Despite greater bone density and low bone turnover, people with T2D have increased fractures risk and higher associated mortality, but previous research linking advanced glycation end products (AGEs) to bone fragility suggests an AGE inhibitor could be a novel therapeutic strategy to prevent the accumulation of AGE in bone tissue.
• This randomized clinical trial, conducted at the Metabolic Bone Disease Unit of Columbia University Irving Medical Center, New York City, from December 2017 to February 2021, assessed the efficacy of the vitamin B6 metabolite pyridoxamine, an AGE inhibitor, in promoting bone formation in 55 older postmenopausal women with T2D.
• The participants received either 200 mg of oral pyridoxamine dihydrochloride (n = 27; mean age, 75.6 years) or matching placebo tablets (n = 28; mean age, 73.1 years) twice daily for 1 year.
• The primary outcome was the change in the levels of the bone formation marker Procollagen Type I Intact N-terminal Propeptide (P1NP) from baseline to after 12 months of treatment.
• Other outcomes included changes in bone mineral density measured at the lumbar spine, total hip, femoral neck, and 1/3 radius using dual energy x-ray absorptiometry; A1c levels; and skin autofluorescence at 12 months, a surrogate for bone AGEs. The safety of pyridoxamine was evaluated by monitoring neurologic findings and adverse events because high doses of the parent vitamin B6 have been reported to cause neurotoxicity.

TAKEAWAY:

• At 12 months, pyridoxamine treatment increased P1NP levels by 23% (P = .028) compared with 4.1% with placebo (P = .576), a “nearly significant difference.”
• Bone mineral density at the femoral neck increased by 2.64% with pyridoxamine but decreased by 0.91% with placebo (P = .007), with no changes at the lumbar spine, total hip, or 1/3 radius. The levels of bone resorption markers or skin autofluorescence were not significantly different between the groups.
• A1c levels decreased by 0.38% in the pyridoxamine group and correlated with increased P1NP levels, compared with a 0.05% increase in the placebo group (P = .04).
• Pyridoxamine was well tolerated. Four serious adverse events were reported in the pyridoxamine group and seven in the placebo group; none of these were related to the trial treatment.

IN PRACTICE:

“[The study] findings suggest that AGE inhibition might clinically improve the low bone formation state of T2D, and that PM [pyridoxamine] might warrant further investigation as a potential disease mechanism-directed approach for the therapy of T2D bone fragility,” the authors wrote.

SOURCE:

The study was led by Aiden V. Brossfield, Metabolic Bone Disease Unit, Vagelos College of Physicians and Surgeons, Columbia University Irving Medical Center. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The study findings were preliminary. The study’s small sample size and individual variability led to a lack of statistical significance. The exclusion of men may have limited the generalizability of the findings. The short duration of 1 year may have been insufficient for detecting changes in skin AGEs. The levels of circulating AGEs or pyridoxamine were not measured, which could have provided additional insights.

DISCLOSURES:

The study was supported by a grant from the US National Institute on Aging. The authors declared no conflicts of interest.

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

TOPLINE:

In older postmenopausal women with type 2 diabetes (T2D), pyridoxamine treatment has potential to prevent fractures and protect bone tissue by targeting advanced glycation end products and also lowers levels of A1c, an early glycation product.

METHODOLOGY:

• Despite greater bone density and low bone turnover, people with T2D have increased fractures risk and higher associated mortality, but previous research linking advanced glycation end products (AGEs) to bone fragility suggests an AGE inhibitor could be a novel therapeutic strategy to prevent the accumulation of AGE in bone tissue.
• This randomized clinical trial, conducted at the Metabolic Bone Disease Unit of Columbia University Irving Medical Center, New York City, from December 2017 to February 2021, assessed the efficacy of the vitamin B6 metabolite pyridoxamine, an AGE inhibitor, in promoting bone formation in 55 older postmenopausal women with T2D.
• The participants received either 200 mg of oral pyridoxamine dihydrochloride (n = 27; mean age, 75.6 years) or matching placebo tablets (n = 28; mean age, 73.1 years) twice daily for 1 year.
• The primary outcome was the change in the levels of the bone formation marker Procollagen Type I Intact N-terminal Propeptide (P1NP) from baseline to after 12 months of treatment.
• Other outcomes included changes in bone mineral density measured at the lumbar spine, total hip, femoral neck, and 1/3 radius using dual energy x-ray absorptiometry; A1c levels; and skin autofluorescence at 12 months, a surrogate for bone AGEs. The safety of pyridoxamine was evaluated by monitoring neurologic findings and adverse events because high doses of the parent vitamin B6 have been reported to cause neurotoxicity.

TAKEAWAY:

• At 12 months, pyridoxamine treatment increased P1NP levels by 23% (P = .028) compared with 4.1% with placebo (P = .576), a “nearly significant difference.”
• Bone mineral density at the femoral neck increased by 2.64% with pyridoxamine but decreased by 0.91% with placebo (P = .007), with no changes at the lumbar spine, total hip, or 1/3 radius. The levels of bone resorption markers or skin autofluorescence were not significantly different between the groups.
• A1c levels decreased by 0.38% in the pyridoxamine group and correlated with increased P1NP levels, compared with a 0.05% increase in the placebo group (P = .04).
• Pyridoxamine was well tolerated. Four serious adverse events were reported in the pyridoxamine group and seven in the placebo group; none of these were related to the trial treatment.

IN PRACTICE:

“[The study] findings suggest that AGE inhibition might clinically improve the low bone formation state of T2D, and that PM [pyridoxamine] might warrant further investigation as a potential disease mechanism-directed approach for the therapy of T2D bone fragility,” the authors wrote.

SOURCE:

The study was led by Aiden V. Brossfield, Metabolic Bone Disease Unit, Vagelos College of Physicians and Surgeons, Columbia University Irving Medical Center. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The study findings were preliminary. The study’s small sample size and individual variability led to a lack of statistical significance. The exclusion of men may have limited the generalizability of the findings. The short duration of 1 year may have been insufficient for detecting changes in skin AGEs. The levels of circulating AGEs or pyridoxamine were not measured, which could have provided additional insights.

DISCLOSURES:

The study was supported by a grant from the US National Institute on Aging. The authors declared no conflicts of interest.

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

TOPLINE:

In older postmenopausal women with type 2 diabetes (T2D), pyridoxamine treatment has potential to prevent fractures and protect bone tissue by targeting advanced glycation end products and also lowers levels of A1c, an early glycation product.

METHODOLOGY:

• Despite greater bone density and low bone turnover, people with T2D have increased fractures risk and higher associated mortality, but previous research linking advanced glycation end products (AGEs) to bone fragility suggests an AGE inhibitor could be a novel therapeutic strategy to prevent the accumulation of AGE in bone tissue.
• This randomized clinical trial, conducted at the Metabolic Bone Disease Unit of Columbia University Irving Medical Center, New York City, from December 2017 to February 2021, assessed the efficacy of the vitamin B6 metabolite pyridoxamine, an AGE inhibitor, in promoting bone formation in 55 older postmenopausal women with T2D.
• The participants received either 200 mg of oral pyridoxamine dihydrochloride (n = 27; mean age, 75.6 years) or matching placebo tablets (n = 28; mean age, 73.1 years) twice daily for 1 year.
• The primary outcome was the change in the levels of the bone formation marker Procollagen Type I Intact N-terminal Propeptide (P1NP) from baseline to after 12 months of treatment.
• Other outcomes included changes in bone mineral density measured at the lumbar spine, total hip, femoral neck, and 1/3 radius using dual energy x-ray absorptiometry; A1c levels; and skin autofluorescence at 12 months, a surrogate for bone AGEs. The safety of pyridoxamine was evaluated by monitoring neurologic findings and adverse events because high doses of the parent vitamin B6 have been reported to cause neurotoxicity.

TAKEAWAY:

• At 12 months, pyridoxamine treatment increased P1NP levels by 23% (P = .028) compared with 4.1% with placebo (P = .576), a “nearly significant difference.”
• Bone mineral density at the femoral neck increased by 2.64% with pyridoxamine but decreased by 0.91% with placebo (P = .007), with no changes at the lumbar spine, total hip, or 1/3 radius. The levels of bone resorption markers or skin autofluorescence were not significantly different between the groups.
• A1c levels decreased by 0.38% in the pyridoxamine group and correlated with increased P1NP levels, compared with a 0.05% increase in the placebo group (P = .04).
• Pyridoxamine was well tolerated. Four serious adverse events were reported in the pyridoxamine group and seven in the placebo group; none of these were related to the trial treatment.

IN PRACTICE:

“[The study] findings suggest that AGE inhibition might clinically improve the low bone formation state of T2D, and that PM [pyridoxamine] might warrant further investigation as a potential disease mechanism-directed approach for the therapy of T2D bone fragility,” the authors wrote.

SOURCE:

The study was led by Aiden V. Brossfield, Metabolic Bone Disease Unit, Vagelos College of Physicians and Surgeons, Columbia University Irving Medical Center. It was published online in The Journal of Clinical Endocrinology & Metabolism.

LIMITATIONS:

The study findings were preliminary. The study’s small sample size and individual variability led to a lack of statistical significance. The exclusion of men may have limited the generalizability of the findings. The short duration of 1 year may have been insufficient for detecting changes in skin AGEs. The levels of circulating AGEs or pyridoxamine were not measured, which could have provided additional insights.

DISCLOSURES:

The study was supported by a grant from the US National Institute on Aging. The authors declared no conflicts of interest.

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

President-elect Donald Trump’s vision for the nation’s top health agencies is coming into focus with three nominations announced Nov. 22 that drew both criticism and praise:

• Surgeon and health researcher Martin A. Makary, MD, MPH, to lead the US Food and Drug Administration (FDA).
• Former Republican congressman and physician David J. Weldon, MD, for director of the US Centers for Disease Control and Prevention (CDC).
• Fox News contributor Janette Nesheiwat, MD, for surgeon general.

Earlier in November, Trump nominated vaccine skeptic and former presidential candidate Robert F. Kennedy Jr. to lead the US Department of Health and Human Services (HHS). 

Here’s what to know about the latest nominees, who, like Kennedy, must be confirmed by the US Senate.

 

Martin A. Makary

Currently a professor at the Johns Hopkins School of Medicine and chief of islet transplant surgery at Johns Hopkins Hospital, Makary co-invented in 2006 a surgery checklist that became a widely-used patient safety tool. 

As a US FDA commissioner, Makary would preside over a $6.5 billion agency with more than 18,000 employees. The agency, part of HHS, oversees human and animal drugs and vaccines, medical devices, food, tobacco and other products. Some of Makary’s views align closely with those of HHS nominee Kennedy. 

Makary is also chief medical officer of telehealth platform Sesame.

Makary was primarily known as a health researcher and author of books about price transparency and the cost of health care until the COVID-19 pandemic, when he became an outspoken critic of the federal response, lambasting restrictions and mandates advocated by the CDC and other public health officials. 

In 2023, Makary told the House Select Subcommittee on the COVID Pandemic that federal officials had ignored what he called “natural immunity.” Studies have shown that natural immunity is “at least as effective as vaccinated immunity, and probably better,” testified Makary.

Makary called for an overhaul of the US FDA in a 2021 Fox News opinion, saying that its culture was “defined by counterproductive rigidity and a refusal to adapt.”

Blind Spots, his most recent book, takes on what he calls “medical dogma” and challenges conventional views on subjects ranging from the microbiome to marijuana to cancer prevention, hormone replacement therapy, antibiotics and peanut allergies.

In an interview he posted to X, Makary blames inappropriate use of antibiotics for a variety of childhood illnesses. He cites increases in obesity, learning disabilities, attention deficit disorder, asthma, celiac disease, ulcerative colitis and Crohn’s disease as all potentially causally related to antibiotics given in childhood.

Makary is an advisor to two conservative think tanks, the Foundation for Research on Equal Opportunity, and to Paragon Health Institute, begun in 2021 by two former top officials in the previous Trump administration.

Makary would “cut the bureaucratic red tape at the agency to make sure Americans get the medical cures and treatments they deserve,” Trump said on his social media platform, Truth Social, and in a press release.

While Los Angeles Times owner and physician-entrepreneur Patrick Soon-Shiong, MBBCh, MSc, praised the nomination of Makary (and the two other nominees) as “inspired,” other physicians criticized Makary for his anti-COVID mandate views and “fear-mongering” over COVID vaccine side effects.

 

Janette Nesheiwat

As surgeon general, Nesheiwat would serve as the top “health communicator in chief” and oversee the 6000 member US Public Health Service Commissioned Corps.

She is a frequent medical contributor to Fox News and serves as a medical director for a group of urgent care clinics in New York. She received her medical degree from the American University of the Caribbean School of Medicine and completed a family medicine residency at the University of Arkansas for Medical Sciences. She is board-certified in family medicine.

Nesheiwat sells vitamin supplements on her website and in December will publish a book on “miracles in medicine” and her Christian faith. 

Trump said in a statement that Nesheiwat “is a fierce advocate and strong communicator for preventive medicine and public health. She is committed to ensuring that Americans have access to affordable, quality healthcare, and believes in empowering individuals to take charge of their health to live longer, healthier lives.”

While Nesheiwat was critical of COVID mandates, she voiced more support for COVID vaccines and mask-wearing during the pandemic than her fellow nominees, leading some Trump supporters to criticize her nomination. 

“A good appointment, happy about this: I got to know @DoctorJanette during the pandemic, exchanging information. She is very smart, thoughtful, interested in learning, and a compassionate doctor, and…a truly nice person,” noted vaccine researcher Peter Hotez, MD, PhD, said on X.

 

David J. Weldon

If confirmed, former congressman Weldon would oversee the sprawling CDC, an agency with a roughly $17 billion budget, 15,000 employees or contractors, and numerous centers covering everything from health statistics to vaccines to epidemiology.

After earning his medical degree from the University at Buffalo School of Medicine, Weldon served in the US Army and US Army reserve. The Republican later served for 14 years in Congress representing Florida’s 15th district, which covers the Tampa region.

He now practices as an internist in Brevard County, Florida.

In Congress, Weldon raised concerns about the safety of some vaccines and promoted the false narrative that a former vaccine ingredient, thimerosal, caused autism, the Washington Post reported. Thimerosal has not been used in child vaccines for more than two decades. He also introduced a bill to move vaccine safety oversight from the CDC to an independent agency within HHS.

Trump said in a statement that Weldon “will proudly restore the CDC to its true purpose, and will work to end the Chronic Disease Epidemic.” 

But some physicians criticized Weldon for what they called his anti-vaccine views.

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

President-elect Donald Trump’s vision for the nation’s top health agencies is coming into focus with three nominations announced Nov. 22 that drew both criticism and praise:

• Surgeon and health researcher Martin A. Makary, MD, MPH, to lead the US Food and Drug Administration (FDA).
• Former Republican congressman and physician David J. Weldon, MD, for director of the US Centers for Disease Control and Prevention (CDC).
• Fox News contributor Janette Nesheiwat, MD, for surgeon general.

Earlier in November, Trump nominated vaccine skeptic and former presidential candidate Robert F. Kennedy Jr. to lead the US Department of Health and Human Services (HHS). 

Here’s what to know about the latest nominees, who, like Kennedy, must be confirmed by the US Senate.

 

Martin A. Makary

Currently a professor at the Johns Hopkins School of Medicine and chief of islet transplant surgery at Johns Hopkins Hospital, Makary co-invented in 2006 a surgery checklist that became a widely-used patient safety tool. 

As a US FDA commissioner, Makary would preside over a $6.5 billion agency with more than 18,000 employees. The agency, part of HHS, oversees human and animal drugs and vaccines, medical devices, food, tobacco and other products. Some of Makary’s views align closely with those of HHS nominee Kennedy. 

Makary is also chief medical officer of telehealth platform Sesame.

Makary was primarily known as a health researcher and author of books about price transparency and the cost of health care until the COVID-19 pandemic, when he became an outspoken critic of the federal response, lambasting restrictions and mandates advocated by the CDC and other public health officials. 

In 2023, Makary told the House Select Subcommittee on the COVID Pandemic that federal officials had ignored what he called “natural immunity.” Studies have shown that natural immunity is “at least as effective as vaccinated immunity, and probably better,” testified Makary.

Makary called for an overhaul of the US FDA in a 2021 Fox News opinion, saying that its culture was “defined by counterproductive rigidity and a refusal to adapt.”

Blind Spots, his most recent book, takes on what he calls “medical dogma” and challenges conventional views on subjects ranging from the microbiome to marijuana to cancer prevention, hormone replacement therapy, antibiotics and peanut allergies.

In an interview he posted to X, Makary blames inappropriate use of antibiotics for a variety of childhood illnesses. He cites increases in obesity, learning disabilities, attention deficit disorder, asthma, celiac disease, ulcerative colitis and Crohn’s disease as all potentially causally related to antibiotics given in childhood.

Makary is an advisor to two conservative think tanks, the Foundation for Research on Equal Opportunity, and to Paragon Health Institute, begun in 2021 by two former top officials in the previous Trump administration.

Makary would “cut the bureaucratic red tape at the agency to make sure Americans get the medical cures and treatments they deserve,” Trump said on his social media platform, Truth Social, and in a press release.

While Los Angeles Times owner and physician-entrepreneur Patrick Soon-Shiong, MBBCh, MSc, praised the nomination of Makary (and the two other nominees) as “inspired,” other physicians criticized Makary for his anti-COVID mandate views and “fear-mongering” over COVID vaccine side effects.

 

Janette Nesheiwat

As surgeon general, Nesheiwat would serve as the top “health communicator in chief” and oversee the 6000 member US Public Health Service Commissioned Corps.

She is a frequent medical contributor to Fox News and serves as a medical director for a group of urgent care clinics in New York. She received her medical degree from the American University of the Caribbean School of Medicine and completed a family medicine residency at the University of Arkansas for Medical Sciences. She is board-certified in family medicine.

Nesheiwat sells vitamin supplements on her website and in December will publish a book on “miracles in medicine” and her Christian faith. 

Trump said in a statement that Nesheiwat “is a fierce advocate and strong communicator for preventive medicine and public health. She is committed to ensuring that Americans have access to affordable, quality healthcare, and believes in empowering individuals to take charge of their health to live longer, healthier lives.”

While Nesheiwat was critical of COVID mandates, she voiced more support for COVID vaccines and mask-wearing during the pandemic than her fellow nominees, leading some Trump supporters to criticize her nomination. 

“A good appointment, happy about this: I got to know @DoctorJanette during the pandemic, exchanging information. She is very smart, thoughtful, interested in learning, and a compassionate doctor, and…a truly nice person,” noted vaccine researcher Peter Hotez, MD, PhD, said on X.

 

David J. Weldon

If confirmed, former congressman Weldon would oversee the sprawling CDC, an agency with a roughly $17 billion budget, 15,000 employees or contractors, and numerous centers covering everything from health statistics to vaccines to epidemiology.

After earning his medical degree from the University at Buffalo School of Medicine, Weldon served in the US Army and US Army reserve. The Republican later served for 14 years in Congress representing Florida’s 15th district, which covers the Tampa region.

He now practices as an internist in Brevard County, Florida.

In Congress, Weldon raised concerns about the safety of some vaccines and promoted the false narrative that a former vaccine ingredient, thimerosal, caused autism, the Washington Post reported. Thimerosal has not been used in child vaccines for more than two decades. He also introduced a bill to move vaccine safety oversight from the CDC to an independent agency within HHS.

Trump said in a statement that Weldon “will proudly restore the CDC to its true purpose, and will work to end the Chronic Disease Epidemic.” 

But some physicians criticized Weldon for what they called his anti-vaccine views.

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

President-elect Donald Trump’s vision for the nation’s top health agencies is coming into focus with three nominations announced Nov. 22 that drew both criticism and praise:

• Surgeon and health researcher Martin A. Makary, MD, MPH, to lead the US Food and Drug Administration (FDA).
• Former Republican congressman and physician David J. Weldon, MD, for director of the US Centers for Disease Control and Prevention (CDC).
• Fox News contributor Janette Nesheiwat, MD, for surgeon general.

Earlier in November, Trump nominated vaccine skeptic and former presidential candidate Robert F. Kennedy Jr. to lead the US Department of Health and Human Services (HHS). 

Here’s what to know about the latest nominees, who, like Kennedy, must be confirmed by the US Senate.

 

Martin A. Makary

Currently a professor at the Johns Hopkins School of Medicine and chief of islet transplant surgery at Johns Hopkins Hospital, Makary co-invented in 2006 a surgery checklist that became a widely-used patient safety tool. 

As a US FDA commissioner, Makary would preside over a $6.5 billion agency with more than 18,000 employees. The agency, part of HHS, oversees human and animal drugs and vaccines, medical devices, food, tobacco and other products. Some of Makary’s views align closely with those of HHS nominee Kennedy. 

Makary is also chief medical officer of telehealth platform Sesame.

Makary was primarily known as a health researcher and author of books about price transparency and the cost of health care until the COVID-19 pandemic, when he became an outspoken critic of the federal response, lambasting restrictions and mandates advocated by the CDC and other public health officials. 

In 2023, Makary told the House Select Subcommittee on the COVID Pandemic that federal officials had ignored what he called “natural immunity.” Studies have shown that natural immunity is “at least as effective as vaccinated immunity, and probably better,” testified Makary.

Makary called for an overhaul of the US FDA in a 2021 Fox News opinion, saying that its culture was “defined by counterproductive rigidity and a refusal to adapt.”

Blind Spots, his most recent book, takes on what he calls “medical dogma” and challenges conventional views on subjects ranging from the microbiome to marijuana to cancer prevention, hormone replacement therapy, antibiotics and peanut allergies.

In an interview he posted to X, Makary blames inappropriate use of antibiotics for a variety of childhood illnesses. He cites increases in obesity, learning disabilities, attention deficit disorder, asthma, celiac disease, ulcerative colitis and Crohn’s disease as all potentially causally related to antibiotics given in childhood.

Makary is an advisor to two conservative think tanks, the Foundation for Research on Equal Opportunity, and to Paragon Health Institute, begun in 2021 by two former top officials in the previous Trump administration.

Makary would “cut the bureaucratic red tape at the agency to make sure Americans get the medical cures and treatments they deserve,” Trump said on his social media platform, Truth Social, and in a press release.

While Los Angeles Times owner and physician-entrepreneur Patrick Soon-Shiong, MBBCh, MSc, praised the nomination of Makary (and the two other nominees) as “inspired,” other physicians criticized Makary for his anti-COVID mandate views and “fear-mongering” over COVID vaccine side effects.

 

Janette Nesheiwat

As surgeon general, Nesheiwat would serve as the top “health communicator in chief” and oversee the 6000 member US Public Health Service Commissioned Corps.

She is a frequent medical contributor to Fox News and serves as a medical director for a group of urgent care clinics in New York. She received her medical degree from the American University of the Caribbean School of Medicine and completed a family medicine residency at the University of Arkansas for Medical Sciences. She is board-certified in family medicine.

Nesheiwat sells vitamin supplements on her website and in December will publish a book on “miracles in medicine” and her Christian faith. 

Trump said in a statement that Nesheiwat “is a fierce advocate and strong communicator for preventive medicine and public health. She is committed to ensuring that Americans have access to affordable, quality healthcare, and believes in empowering individuals to take charge of their health to live longer, healthier lives.”

While Nesheiwat was critical of COVID mandates, she voiced more support for COVID vaccines and mask-wearing during the pandemic than her fellow nominees, leading some Trump supporters to criticize her nomination. 

“A good appointment, happy about this: I got to know @DoctorJanette during the pandemic, exchanging information. She is very smart, thoughtful, interested in learning, and a compassionate doctor, and…a truly nice person,” noted vaccine researcher Peter Hotez, MD, PhD, said on X.

 

David J. Weldon

If confirmed, former congressman Weldon would oversee the sprawling CDC, an agency with a roughly $17 billion budget, 15,000 employees or contractors, and numerous centers covering everything from health statistics to vaccines to epidemiology.

After earning his medical degree from the University at Buffalo School of Medicine, Weldon served in the US Army and US Army reserve. The Republican later served for 14 years in Congress representing Florida’s 15th district, which covers the Tampa region.

He now practices as an internist in Brevard County, Florida.

In Congress, Weldon raised concerns about the safety of some vaccines and promoted the false narrative that a former vaccine ingredient, thimerosal, caused autism, the Washington Post reported. Thimerosal has not been used in child vaccines for more than two decades. He also introduced a bill to move vaccine safety oversight from the CDC to an independent agency within HHS.

Trump said in a statement that Weldon “will proudly restore the CDC to its true purpose, and will work to end the Chronic Disease Epidemic.” 

But some physicians criticized Weldon for what they called his anti-vaccine views.

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