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Mobile devices ‘addictive by design’: Obesity is one of many health effects
Wireless devices, like smart phones and tablets, appear to induce compulsive or even addictive use in many individuals, leading to adverse health consequences that are likely to be curtailed only through often difficult behavior modification, according to a pediatric endocrinologist’s take on the problem.
While the summary was based in part on the analysis of 234 published papers drawn from the medical literature, the lead author, Nidhi Gupta, MD, said the data reinforce her own clinical experience.
“As a pediatric endocrinologist, the trend in smartphone-associated health disorders, such as obesity, sleep, and behavior issues, worries me,” Dr. Gupta, director of KAP Pediatric Endocrinology, Nashville, Tenn., said at the annual meeting of the Endocrine Society.
Based on her search of the medical literature, the available data raise concern. In one study she cited, for example, each hour per day of screen time was found to translate into a body mass index increase of 0.5 to 0.7 kg/m2 (P < .001).
With this type of progressive rise in BMI comes prediabetes, dyslipidemia, and other metabolic disorders associated with major health risks, including cardiovascular disease. And there are others. Dr. Gupta cited data suggesting screen time before bed disturbs sleep, which has its own set of health risks.
“When I say health, it includes physical health, mental health, and emotional health,” said Dr. Gupta.
In the U.S. and other countries with a growing obesity epidemic, lack of physical activity and unhealthy eating are widely considered the major culprits. Excessive screen time contributes to both.
“When we are engaged with our devices, we are often snacking subconsciously and not very mindful that we are making unhealthy choices,” Dr. Gupta said.
The problem is that there is a vicious circle. Compulsive use of devices follows the same loop as other types of addictive behaviors, according to Dr. Gupta. She traced overuse of wireless devices to the dopaminergic system, which is a powerful neuroendocrine-mediated process of craving, response, and reward.
Like fat, sugar, and salt, which provoke a neuroendocrine reward signal, the chimes and buzzes of a cell phone provide their own cues for reward in the form of a dopamine surge. As a result, these become the “triggers of an irresistible and irrational urge to check our device that makes the dopamine go high in our brain,” Dr. Gupta explained.
Although the vicious cycle can be thwarted by turning off the device, Dr. Gupta characterized this as “impractical” when smartphones are so vital to daily communication. Rather, Dr. Gupta advocated a program of moderation, reserving the phone for useful tasks without succumbing to the siren song of apps that waste time.
The most conspicuous culprit is social media, which Dr. Gupta considers to be among the most Pavlovian triggers of cell phone addiction. However, she acknowledged that participation in social media has its justifications.
“I, myself, use social media for my own branding and marketing,” Dr. Gupta said.
The problem that users have is distinguishing between screen time that does and does not have value, according to Dr. Gupta. She indicated that many of those overusing their smart devices are being driven by the dopaminergic reward system, which is generally divorced from the real goals of life, such as personal satisfaction and activity that is rewarding monetarily or in other ways.
“I am not asking for these devices to be thrown out the window. I am advocating for moderation, balance, and real-life engagement,” Dr. Gupta said at the meeting, held in Atlanta and virtually.
She outlined a long list of practical suggestions, including turning off the alarms, chimes, and messages that engage the user into the vicious dopaminergic-reward system loop. She suggested mindfulness so that the user can distinguish between valuable device use and activity that is simply procrastination.
“The devices are designed to be addictive. They are designed to manipulate our brain,” she said. “Eliminate the reward. Let’s try to make our devices boring, unappealing, or enticing so that they only work as tools.”
The medical literature is filled with data that support the potential harms of excessive screen use, leading many others to make some of the same points. In 2017, Thomas N. Robinson, MD, professor of child health at Stanford (Calif.) University, reviewed data showing an association between screen media exposure and obesity in children and adolescents.
“This is an area crying out for more research,” Dr. Robinson said in an interview. The problem of screen time, sedentary behavior, and weight gain has been an issue since the television was invented, which was the point he made in his 2017 paper, but he agreed that the problem is only getting worse.
“Digital technology has become ubiquitous, touching nearly every aspect of people’s lives,” he said. Yet, as evidence grows that overuse of this technology can be harmful, it is creating a problem without a clear solution.
“There are few data about the efficacy of specific strategies to reduce harmful impacts of digital screen use,” he said.
While some of the solutions that Dr. Gupta described make sense, they are more easily described than executed. The dopaminergic reward system is strong and largely experienced subconsciously. Recruiting patients to recognize that dopaminergic rewards are not rewards in any true sense is already a challenge. Enlisting patients to take the difficult steps to avoid the behavioral cues might be even more difficult.
Dr. Gupta and Dr. Robinson report no potential conflicts of interest.
Wireless devices, like smart phones and tablets, appear to induce compulsive or even addictive use in many individuals, leading to adverse health consequences that are likely to be curtailed only through often difficult behavior modification, according to a pediatric endocrinologist’s take on the problem.
While the summary was based in part on the analysis of 234 published papers drawn from the medical literature, the lead author, Nidhi Gupta, MD, said the data reinforce her own clinical experience.
“As a pediatric endocrinologist, the trend in smartphone-associated health disorders, such as obesity, sleep, and behavior issues, worries me,” Dr. Gupta, director of KAP Pediatric Endocrinology, Nashville, Tenn., said at the annual meeting of the Endocrine Society.
Based on her search of the medical literature, the available data raise concern. In one study she cited, for example, each hour per day of screen time was found to translate into a body mass index increase of 0.5 to 0.7 kg/m2 (P < .001).
With this type of progressive rise in BMI comes prediabetes, dyslipidemia, and other metabolic disorders associated with major health risks, including cardiovascular disease. And there are others. Dr. Gupta cited data suggesting screen time before bed disturbs sleep, which has its own set of health risks.
“When I say health, it includes physical health, mental health, and emotional health,” said Dr. Gupta.
In the U.S. and other countries with a growing obesity epidemic, lack of physical activity and unhealthy eating are widely considered the major culprits. Excessive screen time contributes to both.
“When we are engaged with our devices, we are often snacking subconsciously and not very mindful that we are making unhealthy choices,” Dr. Gupta said.
The problem is that there is a vicious circle. Compulsive use of devices follows the same loop as other types of addictive behaviors, according to Dr. Gupta. She traced overuse of wireless devices to the dopaminergic system, which is a powerful neuroendocrine-mediated process of craving, response, and reward.
Like fat, sugar, and salt, which provoke a neuroendocrine reward signal, the chimes and buzzes of a cell phone provide their own cues for reward in the form of a dopamine surge. As a result, these become the “triggers of an irresistible and irrational urge to check our device that makes the dopamine go high in our brain,” Dr. Gupta explained.
Although the vicious cycle can be thwarted by turning off the device, Dr. Gupta characterized this as “impractical” when smartphones are so vital to daily communication. Rather, Dr. Gupta advocated a program of moderation, reserving the phone for useful tasks without succumbing to the siren song of apps that waste time.
The most conspicuous culprit is social media, which Dr. Gupta considers to be among the most Pavlovian triggers of cell phone addiction. However, she acknowledged that participation in social media has its justifications.
“I, myself, use social media for my own branding and marketing,” Dr. Gupta said.
The problem that users have is distinguishing between screen time that does and does not have value, according to Dr. Gupta. She indicated that many of those overusing their smart devices are being driven by the dopaminergic reward system, which is generally divorced from the real goals of life, such as personal satisfaction and activity that is rewarding monetarily or in other ways.
“I am not asking for these devices to be thrown out the window. I am advocating for moderation, balance, and real-life engagement,” Dr. Gupta said at the meeting, held in Atlanta and virtually.
She outlined a long list of practical suggestions, including turning off the alarms, chimes, and messages that engage the user into the vicious dopaminergic-reward system loop. She suggested mindfulness so that the user can distinguish between valuable device use and activity that is simply procrastination.
“The devices are designed to be addictive. They are designed to manipulate our brain,” she said. “Eliminate the reward. Let’s try to make our devices boring, unappealing, or enticing so that they only work as tools.”
The medical literature is filled with data that support the potential harms of excessive screen use, leading many others to make some of the same points. In 2017, Thomas N. Robinson, MD, professor of child health at Stanford (Calif.) University, reviewed data showing an association between screen media exposure and obesity in children and adolescents.
“This is an area crying out for more research,” Dr. Robinson said in an interview. The problem of screen time, sedentary behavior, and weight gain has been an issue since the television was invented, which was the point he made in his 2017 paper, but he agreed that the problem is only getting worse.
“Digital technology has become ubiquitous, touching nearly every aspect of people’s lives,” he said. Yet, as evidence grows that overuse of this technology can be harmful, it is creating a problem without a clear solution.
“There are few data about the efficacy of specific strategies to reduce harmful impacts of digital screen use,” he said.
While some of the solutions that Dr. Gupta described make sense, they are more easily described than executed. The dopaminergic reward system is strong and largely experienced subconsciously. Recruiting patients to recognize that dopaminergic rewards are not rewards in any true sense is already a challenge. Enlisting patients to take the difficult steps to avoid the behavioral cues might be even more difficult.
Dr. Gupta and Dr. Robinson report no potential conflicts of interest.
Wireless devices, like smart phones and tablets, appear to induce compulsive or even addictive use in many individuals, leading to adverse health consequences that are likely to be curtailed only through often difficult behavior modification, according to a pediatric endocrinologist’s take on the problem.
While the summary was based in part on the analysis of 234 published papers drawn from the medical literature, the lead author, Nidhi Gupta, MD, said the data reinforce her own clinical experience.
“As a pediatric endocrinologist, the trend in smartphone-associated health disorders, such as obesity, sleep, and behavior issues, worries me,” Dr. Gupta, director of KAP Pediatric Endocrinology, Nashville, Tenn., said at the annual meeting of the Endocrine Society.
Based on her search of the medical literature, the available data raise concern. In one study she cited, for example, each hour per day of screen time was found to translate into a body mass index increase of 0.5 to 0.7 kg/m2 (P < .001).
With this type of progressive rise in BMI comes prediabetes, dyslipidemia, and other metabolic disorders associated with major health risks, including cardiovascular disease. And there are others. Dr. Gupta cited data suggesting screen time before bed disturbs sleep, which has its own set of health risks.
“When I say health, it includes physical health, mental health, and emotional health,” said Dr. Gupta.
In the U.S. and other countries with a growing obesity epidemic, lack of physical activity and unhealthy eating are widely considered the major culprits. Excessive screen time contributes to both.
“When we are engaged with our devices, we are often snacking subconsciously and not very mindful that we are making unhealthy choices,” Dr. Gupta said.
The problem is that there is a vicious circle. Compulsive use of devices follows the same loop as other types of addictive behaviors, according to Dr. Gupta. She traced overuse of wireless devices to the dopaminergic system, which is a powerful neuroendocrine-mediated process of craving, response, and reward.
Like fat, sugar, and salt, which provoke a neuroendocrine reward signal, the chimes and buzzes of a cell phone provide their own cues for reward in the form of a dopamine surge. As a result, these become the “triggers of an irresistible and irrational urge to check our device that makes the dopamine go high in our brain,” Dr. Gupta explained.
Although the vicious cycle can be thwarted by turning off the device, Dr. Gupta characterized this as “impractical” when smartphones are so vital to daily communication. Rather, Dr. Gupta advocated a program of moderation, reserving the phone for useful tasks without succumbing to the siren song of apps that waste time.
The most conspicuous culprit is social media, which Dr. Gupta considers to be among the most Pavlovian triggers of cell phone addiction. However, she acknowledged that participation in social media has its justifications.
“I, myself, use social media for my own branding and marketing,” Dr. Gupta said.
The problem that users have is distinguishing between screen time that does and does not have value, according to Dr. Gupta. She indicated that many of those overusing their smart devices are being driven by the dopaminergic reward system, which is generally divorced from the real goals of life, such as personal satisfaction and activity that is rewarding monetarily or in other ways.
“I am not asking for these devices to be thrown out the window. I am advocating for moderation, balance, and real-life engagement,” Dr. Gupta said at the meeting, held in Atlanta and virtually.
She outlined a long list of practical suggestions, including turning off the alarms, chimes, and messages that engage the user into the vicious dopaminergic-reward system loop. She suggested mindfulness so that the user can distinguish between valuable device use and activity that is simply procrastination.
“The devices are designed to be addictive. They are designed to manipulate our brain,” she said. “Eliminate the reward. Let’s try to make our devices boring, unappealing, or enticing so that they only work as tools.”
The medical literature is filled with data that support the potential harms of excessive screen use, leading many others to make some of the same points. In 2017, Thomas N. Robinson, MD, professor of child health at Stanford (Calif.) University, reviewed data showing an association between screen media exposure and obesity in children and adolescents.
“This is an area crying out for more research,” Dr. Robinson said in an interview. The problem of screen time, sedentary behavior, and weight gain has been an issue since the television was invented, which was the point he made in his 2017 paper, but he agreed that the problem is only getting worse.
“Digital technology has become ubiquitous, touching nearly every aspect of people’s lives,” he said. Yet, as evidence grows that overuse of this technology can be harmful, it is creating a problem without a clear solution.
“There are few data about the efficacy of specific strategies to reduce harmful impacts of digital screen use,” he said.
While some of the solutions that Dr. Gupta described make sense, they are more easily described than executed. The dopaminergic reward system is strong and largely experienced subconsciously. Recruiting patients to recognize that dopaminergic rewards are not rewards in any true sense is already a challenge. Enlisting patients to take the difficult steps to avoid the behavioral cues might be even more difficult.
Dr. Gupta and Dr. Robinson report no potential conflicts of interest.
FROM ENDO 2022
Obesity linked to smaller testes and possible infertility
new data suggest.
Testicular volume is a fertility marker directly related to sperm count that has halved in the past 40 years worldwide for unknown reasons. At the same time, childhood obesity has risen dramatically and infertility appears to have risen as well, Rossella Cannarella, MD, of the department of endocrinology and andrology, University of Catania (Italy), said at the annual meeting of the Endocrine Society.
According to recent Italian studies, between 14% and 23% of young men aged 18-19 had testicular hypotrophy. “Worryingly, we don’t know the reason for this hypotrophy. And therefore, they are at risk for future infertility,” Dr. Cannarella said during a press briefing.
Her study, which included a total of 264 male children and adolescents, also linked lower testicular volume to hyperinsulinemia and insulin resistance. “The testis is not quiescent in childhood and is sensitive to the hormone insulin. Obesity and metabolic impairment actually can have an effect and negative impact on Sertoli cell proliferation,” Dr. Cannarella said.
Screen testicular volume at all visits
If other studies confirm these results, she said that pediatricians should begin routinely assessing testicular volume at all visits as is now done with height and weight to identify early deflection of the testicular growth curve.
In addition, “include male infertility as a possible consequence of obesity in counseling of male obese children,” she advised.
Asked to comment, Amin Sedaghat Herati, MD, director of male infertility and men’s health at Johns Hopkins Hospital, and assistant professor of urology at Johns Hopkins Medicine, both in Baltimore, said in an interview: “I think what’s really interesting about this study is the association that they’ve made between testicular volume and obesity.”
But, he noted, “it does not implicate necessarily the development of infertility. It’s an extrapolation. So it’s a step towards the link between obesity and infertility, and it’s an important study to establish the association, but changes in testicular volume and even changes in semen panel don’t necessarily indicate fertility or infertility.”
The findings are “consistent with what we know as far as what obesity can potentially do to the activity of the cells in the testes. The authors are postulating that it’s more the support cells, called Sertoli cells, but I would say it’s probably all of the cells that are being affected by obesity and specifically elevated leptin levels,” Dr. Herati said.
He agrees with the recommendation that pediatricians screen all boys for testicular volume. “I agree it’s a good idea so they don’t miss any cases in which the testes don’t develop the way they should or any other conditions,” Dr. Herati said. “I think in general it’s a good practice, especially in the peripubertal stage, to make sure that kids are on the same growth curve and that they’re meeting their Tanner staging. [Pediatricians] should be looking at the size of the testes and tracking, maybe not at every visit, but at least on an annual basis.”
And, he noted, “I think any study that establishes a link that we can point to when we’re educating patients and parents is important.”
Links found between overweight/obesity, testicular hypotrophy
The study population included 61 male children and adolescents with normal weight, 53 with overweight, and 150 with obesity. Insulin resistance (Homeostatic Model Assessment for Insulin Resistance index ≥ 2.5) was present in 97 participants, 22 had prediabetes, and 3 had type 2 diabetes. Clinical data were collected retrospectively.
Among the boys aged 9-14 years, those with overweight and obesity had significantly lower testicular volume, compared with those of normal weight.
Those who were in Tanner Stage 1 were more likely to have overweight and obesity than those with normal weight, suggesting that “overweight and obese adolescents start puberty later than those of normal weight,” Dr. Cannarella said.
In the 14- to 16-year-old age group, those with insulin resistance had lower testicular volume, compared with those without insulin resistance (HOMA index < 2.5). The number of insulin-resistant adolescents was greater than that of controls in the Tanner stage 2 group.
In both the prepubertal (< 9 years) and pubertal (14-16 years) groups, hyperinsulinemia was associated with lower levels of testicular volume.
Hyperinsulinemia did not influence the timing of puberty onset.
No way to quantify the effect of obesity on fertility just yet
During a press briefing, Dr. Cannarella commented that obesity is likely just one of several factors influencing what appears to be an increase in male infertility over time. “It isn’t of course the only reason, but many factors in our environment have drastically changed, compared to 40 years ago, including the prevalence of heavy metals and endocrine disruptors, and of course, the change in habits and higher prevalence of metabolic disease. All of this has an impact on the proliferation of Sertoli cells in childhood and this may explain the trend toward the decline of sperm concentration and count.”
Longitudinal data are needed to establish cause and effect, she noted. “We need longitudinal studies that link the degrees of testicular volume with the degree of the sperm concentration and count starting from childhood and ending with the adult age. This is the missing link so far.”
Dr. Cannarella has reported no relevant financial relationships. Dr. Herati has reported being an advisor for Dadi, LiNA Medical, and Teleflex.
A version of this article first appeared on Medscape.com.
new data suggest.
Testicular volume is a fertility marker directly related to sperm count that has halved in the past 40 years worldwide for unknown reasons. At the same time, childhood obesity has risen dramatically and infertility appears to have risen as well, Rossella Cannarella, MD, of the department of endocrinology and andrology, University of Catania (Italy), said at the annual meeting of the Endocrine Society.
According to recent Italian studies, between 14% and 23% of young men aged 18-19 had testicular hypotrophy. “Worryingly, we don’t know the reason for this hypotrophy. And therefore, they are at risk for future infertility,” Dr. Cannarella said during a press briefing.
Her study, which included a total of 264 male children and adolescents, also linked lower testicular volume to hyperinsulinemia and insulin resistance. “The testis is not quiescent in childhood and is sensitive to the hormone insulin. Obesity and metabolic impairment actually can have an effect and negative impact on Sertoli cell proliferation,” Dr. Cannarella said.
Screen testicular volume at all visits
If other studies confirm these results, she said that pediatricians should begin routinely assessing testicular volume at all visits as is now done with height and weight to identify early deflection of the testicular growth curve.
In addition, “include male infertility as a possible consequence of obesity in counseling of male obese children,” she advised.
Asked to comment, Amin Sedaghat Herati, MD, director of male infertility and men’s health at Johns Hopkins Hospital, and assistant professor of urology at Johns Hopkins Medicine, both in Baltimore, said in an interview: “I think what’s really interesting about this study is the association that they’ve made between testicular volume and obesity.”
But, he noted, “it does not implicate necessarily the development of infertility. It’s an extrapolation. So it’s a step towards the link between obesity and infertility, and it’s an important study to establish the association, but changes in testicular volume and even changes in semen panel don’t necessarily indicate fertility or infertility.”
The findings are “consistent with what we know as far as what obesity can potentially do to the activity of the cells in the testes. The authors are postulating that it’s more the support cells, called Sertoli cells, but I would say it’s probably all of the cells that are being affected by obesity and specifically elevated leptin levels,” Dr. Herati said.
He agrees with the recommendation that pediatricians screen all boys for testicular volume. “I agree it’s a good idea so they don’t miss any cases in which the testes don’t develop the way they should or any other conditions,” Dr. Herati said. “I think in general it’s a good practice, especially in the peripubertal stage, to make sure that kids are on the same growth curve and that they’re meeting their Tanner staging. [Pediatricians] should be looking at the size of the testes and tracking, maybe not at every visit, but at least on an annual basis.”
And, he noted, “I think any study that establishes a link that we can point to when we’re educating patients and parents is important.”
Links found between overweight/obesity, testicular hypotrophy
The study population included 61 male children and adolescents with normal weight, 53 with overweight, and 150 with obesity. Insulin resistance (Homeostatic Model Assessment for Insulin Resistance index ≥ 2.5) was present in 97 participants, 22 had prediabetes, and 3 had type 2 diabetes. Clinical data were collected retrospectively.
Among the boys aged 9-14 years, those with overweight and obesity had significantly lower testicular volume, compared with those of normal weight.
Those who were in Tanner Stage 1 were more likely to have overweight and obesity than those with normal weight, suggesting that “overweight and obese adolescents start puberty later than those of normal weight,” Dr. Cannarella said.
In the 14- to 16-year-old age group, those with insulin resistance had lower testicular volume, compared with those without insulin resistance (HOMA index < 2.5). The number of insulin-resistant adolescents was greater than that of controls in the Tanner stage 2 group.
In both the prepubertal (< 9 years) and pubertal (14-16 years) groups, hyperinsulinemia was associated with lower levels of testicular volume.
Hyperinsulinemia did not influence the timing of puberty onset.
No way to quantify the effect of obesity on fertility just yet
During a press briefing, Dr. Cannarella commented that obesity is likely just one of several factors influencing what appears to be an increase in male infertility over time. “It isn’t of course the only reason, but many factors in our environment have drastically changed, compared to 40 years ago, including the prevalence of heavy metals and endocrine disruptors, and of course, the change in habits and higher prevalence of metabolic disease. All of this has an impact on the proliferation of Sertoli cells in childhood and this may explain the trend toward the decline of sperm concentration and count.”
Longitudinal data are needed to establish cause and effect, she noted. “We need longitudinal studies that link the degrees of testicular volume with the degree of the sperm concentration and count starting from childhood and ending with the adult age. This is the missing link so far.”
Dr. Cannarella has reported no relevant financial relationships. Dr. Herati has reported being an advisor for Dadi, LiNA Medical, and Teleflex.
A version of this article first appeared on Medscape.com.
new data suggest.
Testicular volume is a fertility marker directly related to sperm count that has halved in the past 40 years worldwide for unknown reasons. At the same time, childhood obesity has risen dramatically and infertility appears to have risen as well, Rossella Cannarella, MD, of the department of endocrinology and andrology, University of Catania (Italy), said at the annual meeting of the Endocrine Society.
According to recent Italian studies, between 14% and 23% of young men aged 18-19 had testicular hypotrophy. “Worryingly, we don’t know the reason for this hypotrophy. And therefore, they are at risk for future infertility,” Dr. Cannarella said during a press briefing.
Her study, which included a total of 264 male children and adolescents, also linked lower testicular volume to hyperinsulinemia and insulin resistance. “The testis is not quiescent in childhood and is sensitive to the hormone insulin. Obesity and metabolic impairment actually can have an effect and negative impact on Sertoli cell proliferation,” Dr. Cannarella said.
Screen testicular volume at all visits
If other studies confirm these results, she said that pediatricians should begin routinely assessing testicular volume at all visits as is now done with height and weight to identify early deflection of the testicular growth curve.
In addition, “include male infertility as a possible consequence of obesity in counseling of male obese children,” she advised.
Asked to comment, Amin Sedaghat Herati, MD, director of male infertility and men’s health at Johns Hopkins Hospital, and assistant professor of urology at Johns Hopkins Medicine, both in Baltimore, said in an interview: “I think what’s really interesting about this study is the association that they’ve made between testicular volume and obesity.”
But, he noted, “it does not implicate necessarily the development of infertility. It’s an extrapolation. So it’s a step towards the link between obesity and infertility, and it’s an important study to establish the association, but changes in testicular volume and even changes in semen panel don’t necessarily indicate fertility or infertility.”
The findings are “consistent with what we know as far as what obesity can potentially do to the activity of the cells in the testes. The authors are postulating that it’s more the support cells, called Sertoli cells, but I would say it’s probably all of the cells that are being affected by obesity and specifically elevated leptin levels,” Dr. Herati said.
He agrees with the recommendation that pediatricians screen all boys for testicular volume. “I agree it’s a good idea so they don’t miss any cases in which the testes don’t develop the way they should or any other conditions,” Dr. Herati said. “I think in general it’s a good practice, especially in the peripubertal stage, to make sure that kids are on the same growth curve and that they’re meeting their Tanner staging. [Pediatricians] should be looking at the size of the testes and tracking, maybe not at every visit, but at least on an annual basis.”
And, he noted, “I think any study that establishes a link that we can point to when we’re educating patients and parents is important.”
Links found between overweight/obesity, testicular hypotrophy
The study population included 61 male children and adolescents with normal weight, 53 with overweight, and 150 with obesity. Insulin resistance (Homeostatic Model Assessment for Insulin Resistance index ≥ 2.5) was present in 97 participants, 22 had prediabetes, and 3 had type 2 diabetes. Clinical data were collected retrospectively.
Among the boys aged 9-14 years, those with overweight and obesity had significantly lower testicular volume, compared with those of normal weight.
Those who were in Tanner Stage 1 were more likely to have overweight and obesity than those with normal weight, suggesting that “overweight and obese adolescents start puberty later than those of normal weight,” Dr. Cannarella said.
In the 14- to 16-year-old age group, those with insulin resistance had lower testicular volume, compared with those without insulin resistance (HOMA index < 2.5). The number of insulin-resistant adolescents was greater than that of controls in the Tanner stage 2 group.
In both the prepubertal (< 9 years) and pubertal (14-16 years) groups, hyperinsulinemia was associated with lower levels of testicular volume.
Hyperinsulinemia did not influence the timing of puberty onset.
No way to quantify the effect of obesity on fertility just yet
During a press briefing, Dr. Cannarella commented that obesity is likely just one of several factors influencing what appears to be an increase in male infertility over time. “It isn’t of course the only reason, but many factors in our environment have drastically changed, compared to 40 years ago, including the prevalence of heavy metals and endocrine disruptors, and of course, the change in habits and higher prevalence of metabolic disease. All of this has an impact on the proliferation of Sertoli cells in childhood and this may explain the trend toward the decline of sperm concentration and count.”
Longitudinal data are needed to establish cause and effect, she noted. “We need longitudinal studies that link the degrees of testicular volume with the degree of the sperm concentration and count starting from childhood and ending with the adult age. This is the missing link so far.”
Dr. Cannarella has reported no relevant financial relationships. Dr. Herati has reported being an advisor for Dadi, LiNA Medical, and Teleflex.
A version of this article first appeared on Medscape.com.
FROM ENDO 2022
Bone density loss in lean male runners parallels similar issue in women
Similar to a phenomenon already well documented in women, inadequate nutrition appears to be linked to hormonal abnormalities and potentially preventable tibial cortical bone density loss in athletic men, according to results of a small, prospective study.
Based on these findings, “we suspect that a subset of male runners might not be fueling their bodies with enough nutrition and calories for their physical activity,” reported Melanie S. Haines, MD, at the annual meeting of the Endocrine Society.
This is not the first study to suggest male athletes are at risk of a condition equivalent to what has been commonly referred to as the female athlete triad, but it enlarges the objective data that the phenomenon is real, and it makes insufficient availability of energy the likely cause.
In women, the triad is described as a lack of adequate stored energy, irregular menses, and bone density loss. In men, menstrual cycles are not relevant, of course, but this study like others suggests a link between the failure to maintain adequate stores of energy, disturbances in hormone function, and decreased bone density in both men and women, Dr. Haines explained.
RED-S vs. male or female athlete triad
“There is now a move away from the term female athlete triad or male athlete triad,” Dr. Haines reported. Rather the factors of failing to maintain adequate energy for metabolic demands, hormonal disturbances, and bone density loss appear to be relevant to both sexes, according to Dr. Haines, an endocrinologist at Massachusetts General Hospital and assistant professor of medicine at Harvard Medical School, both in Boston. She said several groups, including the International Olympic Committee (IOC), have transitioned to the term RED-S to apply to both sexes.
“RED-S is an acronym for relative energy deficiency in sport, and it appears to be gaining traction,” Dr. Haines said in an interview.
According to her study and others, excessive lean body mass from failure to supply sufficient energy for physiological needs “negatively affects hormones and bone,” Dr. Haines explained. In men and women, endocrine disturbances are triggered when insufficient calories lead to inadequate macro- and micronutrients.
In this study, 31 men aged 16-30 years were evaluated. Fifteen were in the athlete group, defined by running at least 30 miles per week for at least the previous 6 months. There were 16 control subjects; all exercised less than 2 hours per week and did not participate in team sports, but they were not permitted in the study if their body mass index exceeded 27.5 kg/m2.
Athletes vs. otherwise healthy controls
Conditions that affect bone health were exclusion criteria in both groups, and neither group was permitted to take medications affecting bone health other than dietary calcium or vitamin D supplements for 2 months prior to the study.
Tibial cortical porosity was significantly greater – signaling deterioration in microarchitecture – in athletes, compared with control subjects (P = .003), according to quantitative computed tomography measurements. There was also significantly lower tibial cortical bone mineral density (P = .008) among athletes relative to controls.
Conversely, tibial trabecular measures of bone density and architecture were better among athletes than controls, but this was expected and did not contradict the hypothesis of the study.
“Trabecular bone refers to the inner part of the bone, which increases with weight-bearing exercise, but cortical bone is the outer shell, and the source of stress fractures,” Dr. Haines explained.
The median age of both the athletes and the controls was 24 years. Baseline measurements were similar. Body mass index, fat mass, estradiol, and leptin were all numerically lower in the athletes than controls, but none were significant, although there was a trend for the difference in leptin (P = .085).
Hormones correlated with tibial failure load
When these characteristics were evaluated in the context of mean tibial failure load, a metric related to strength, there was a strongly significant positive association with lean body mass (R = 0.85; P < 0.001) and estradiol level (R = 0.66; P = .007). The relationship with leptin also reached significance (R = 0.59; P = .046).
Unexpectedly, there was no relationship between testosterone and tibial failure load. The reason is unclear, but Dr. Haines’s interpretation is that the relationship between specific hormonal disturbances and bone density loss “might not be as simple” as once hypothesized.
The next step is a longitudinal evaluation of the same group of athletes to follow changes in the relationship between these variables over time, according to Dr. Haines.
Eventually, with evidence that there is a causal relationship between nutrition, hormonal changes, and bone loss, the research in this area will focus on better detection of risk and prophylactic strategies.
“Intervention trials to show that we can prevent stress factors will be difficult to perform,” Dr. Haines acknowledged, but she said that preventing adverse changes in bone at relatively young ages could have implications for long-term bone health, including protection from osteoporosis later in life.
The research presented by Dr. Haines is consistent with an area of research that is several decades old, at least in females, according to Siobhan M. Statuta, MD, a sports medicine primary care specialist at the University of Virginia, Charlottesville. The evidence that the same phenomenon occurs in men is more recent, but she said that it is now well accepted the there is a parallel hormonal issue in men and women.
“It is not a question of not eating enough. Often, athletes continue to consume the same diet, but their activity increases,” Dr. Statuta explained. “The problem is that they are not supplying enough of the calories they need to sustain the energy they are expending. You might say they are not fueling their engines appropriately.”
In 2014, the International Olympic Committee published a consensus statement on RED-S. They described this as a condition in which a state of energy deficiency leads to numerous complications in athletes, not just osteoporosis. Rather, a host of physiological systems, ranging from gastrointestinal complaints to cardiovascular events, were described.
RED-S addresses health beyond bones
“The RED-S theory is better described as a spoke-and-wheel concept rather than a triad. While inadequate energy availability is important to both, RED-S places this at the center of the wheel with spokes leading to all the possible complications rather than as a first event in a limited triad,” Dr. Statuta said in an interview.
However, she noted that the term RED-S is not yet appropriate to replace that of the male and female athlete triad.
“More research is required to hash out the relationship of a body in a state of energy deficiency and how it affects the entire body, which is the principle of RED-S,” Dr. Statuta said. “There likely are scientific effects, and we are currently investigating these relationships more.”
“These are really quite similar entities but have different foci,” she added. Based on data collected over several decades, “the triad narrows in on two body systems affected by low energy – the reproductive system and bones. RED-S incorporates these same systems yet adds on many more organ systems.
The original group of researchers have remained loyal to the concept of the triad that involves inadequate availability of energy followed by hormonal irregularities and osteoporosis. This group, the Female and Male Athlete Triad Coalition, has issued publications on this topic several times. Consensus statements were updated last year.
“The premise is that the triad leading to bone loss is shared by both men and women, even if the clinical manifestations differ,” said Dr. Statuta. The most notable difference is that men do not experience menstrual irregularities, but Dr. Statuta suggested that the clinical consequences are not necessarily any less.
“Males do not have menstrual cycles as an outward marker of an endocrine disturbance, so it is harder to recognize clinically, but I think there is agreement that not having enough energy available is the trigger of endocrine changes and then bone loss is relevant to both sexes,” she said. She said this is supported by a growing body of evidence, including the data presented by Dr. Haines at the Endocrine Society meeting.
Dr. Haines and Dr. Statuta report no potential conflicts of interest.
Similar to a phenomenon already well documented in women, inadequate nutrition appears to be linked to hormonal abnormalities and potentially preventable tibial cortical bone density loss in athletic men, according to results of a small, prospective study.
Based on these findings, “we suspect that a subset of male runners might not be fueling their bodies with enough nutrition and calories for their physical activity,” reported Melanie S. Haines, MD, at the annual meeting of the Endocrine Society.
This is not the first study to suggest male athletes are at risk of a condition equivalent to what has been commonly referred to as the female athlete triad, but it enlarges the objective data that the phenomenon is real, and it makes insufficient availability of energy the likely cause.
In women, the triad is described as a lack of adequate stored energy, irregular menses, and bone density loss. In men, menstrual cycles are not relevant, of course, but this study like others suggests a link between the failure to maintain adequate stores of energy, disturbances in hormone function, and decreased bone density in both men and women, Dr. Haines explained.
RED-S vs. male or female athlete triad
“There is now a move away from the term female athlete triad or male athlete triad,” Dr. Haines reported. Rather the factors of failing to maintain adequate energy for metabolic demands, hormonal disturbances, and bone density loss appear to be relevant to both sexes, according to Dr. Haines, an endocrinologist at Massachusetts General Hospital and assistant professor of medicine at Harvard Medical School, both in Boston. She said several groups, including the International Olympic Committee (IOC), have transitioned to the term RED-S to apply to both sexes.
“RED-S is an acronym for relative energy deficiency in sport, and it appears to be gaining traction,” Dr. Haines said in an interview.
According to her study and others, excessive lean body mass from failure to supply sufficient energy for physiological needs “negatively affects hormones and bone,” Dr. Haines explained. In men and women, endocrine disturbances are triggered when insufficient calories lead to inadequate macro- and micronutrients.
In this study, 31 men aged 16-30 years were evaluated. Fifteen were in the athlete group, defined by running at least 30 miles per week for at least the previous 6 months. There were 16 control subjects; all exercised less than 2 hours per week and did not participate in team sports, but they were not permitted in the study if their body mass index exceeded 27.5 kg/m2.
Athletes vs. otherwise healthy controls
Conditions that affect bone health were exclusion criteria in both groups, and neither group was permitted to take medications affecting bone health other than dietary calcium or vitamin D supplements for 2 months prior to the study.
Tibial cortical porosity was significantly greater – signaling deterioration in microarchitecture – in athletes, compared with control subjects (P = .003), according to quantitative computed tomography measurements. There was also significantly lower tibial cortical bone mineral density (P = .008) among athletes relative to controls.
Conversely, tibial trabecular measures of bone density and architecture were better among athletes than controls, but this was expected and did not contradict the hypothesis of the study.
“Trabecular bone refers to the inner part of the bone, which increases with weight-bearing exercise, but cortical bone is the outer shell, and the source of stress fractures,” Dr. Haines explained.
The median age of both the athletes and the controls was 24 years. Baseline measurements were similar. Body mass index, fat mass, estradiol, and leptin were all numerically lower in the athletes than controls, but none were significant, although there was a trend for the difference in leptin (P = .085).
Hormones correlated with tibial failure load
When these characteristics were evaluated in the context of mean tibial failure load, a metric related to strength, there was a strongly significant positive association with lean body mass (R = 0.85; P < 0.001) and estradiol level (R = 0.66; P = .007). The relationship with leptin also reached significance (R = 0.59; P = .046).
Unexpectedly, there was no relationship between testosterone and tibial failure load. The reason is unclear, but Dr. Haines’s interpretation is that the relationship between specific hormonal disturbances and bone density loss “might not be as simple” as once hypothesized.
The next step is a longitudinal evaluation of the same group of athletes to follow changes in the relationship between these variables over time, according to Dr. Haines.
Eventually, with evidence that there is a causal relationship between nutrition, hormonal changes, and bone loss, the research in this area will focus on better detection of risk and prophylactic strategies.
“Intervention trials to show that we can prevent stress factors will be difficult to perform,” Dr. Haines acknowledged, but she said that preventing adverse changes in bone at relatively young ages could have implications for long-term bone health, including protection from osteoporosis later in life.
The research presented by Dr. Haines is consistent with an area of research that is several decades old, at least in females, according to Siobhan M. Statuta, MD, a sports medicine primary care specialist at the University of Virginia, Charlottesville. The evidence that the same phenomenon occurs in men is more recent, but she said that it is now well accepted the there is a parallel hormonal issue in men and women.
“It is not a question of not eating enough. Often, athletes continue to consume the same diet, but their activity increases,” Dr. Statuta explained. “The problem is that they are not supplying enough of the calories they need to sustain the energy they are expending. You might say they are not fueling their engines appropriately.”
In 2014, the International Olympic Committee published a consensus statement on RED-S. They described this as a condition in which a state of energy deficiency leads to numerous complications in athletes, not just osteoporosis. Rather, a host of physiological systems, ranging from gastrointestinal complaints to cardiovascular events, were described.
RED-S addresses health beyond bones
“The RED-S theory is better described as a spoke-and-wheel concept rather than a triad. While inadequate energy availability is important to both, RED-S places this at the center of the wheel with spokes leading to all the possible complications rather than as a first event in a limited triad,” Dr. Statuta said in an interview.
However, she noted that the term RED-S is not yet appropriate to replace that of the male and female athlete triad.
“More research is required to hash out the relationship of a body in a state of energy deficiency and how it affects the entire body, which is the principle of RED-S,” Dr. Statuta said. “There likely are scientific effects, and we are currently investigating these relationships more.”
“These are really quite similar entities but have different foci,” she added. Based on data collected over several decades, “the triad narrows in on two body systems affected by low energy – the reproductive system and bones. RED-S incorporates these same systems yet adds on many more organ systems.
The original group of researchers have remained loyal to the concept of the triad that involves inadequate availability of energy followed by hormonal irregularities and osteoporosis. This group, the Female and Male Athlete Triad Coalition, has issued publications on this topic several times. Consensus statements were updated last year.
“The premise is that the triad leading to bone loss is shared by both men and women, even if the clinical manifestations differ,” said Dr. Statuta. The most notable difference is that men do not experience menstrual irregularities, but Dr. Statuta suggested that the clinical consequences are not necessarily any less.
“Males do not have menstrual cycles as an outward marker of an endocrine disturbance, so it is harder to recognize clinically, but I think there is agreement that not having enough energy available is the trigger of endocrine changes and then bone loss is relevant to both sexes,” she said. She said this is supported by a growing body of evidence, including the data presented by Dr. Haines at the Endocrine Society meeting.
Dr. Haines and Dr. Statuta report no potential conflicts of interest.
Similar to a phenomenon already well documented in women, inadequate nutrition appears to be linked to hormonal abnormalities and potentially preventable tibial cortical bone density loss in athletic men, according to results of a small, prospective study.
Based on these findings, “we suspect that a subset of male runners might not be fueling their bodies with enough nutrition and calories for their physical activity,” reported Melanie S. Haines, MD, at the annual meeting of the Endocrine Society.
This is not the first study to suggest male athletes are at risk of a condition equivalent to what has been commonly referred to as the female athlete triad, but it enlarges the objective data that the phenomenon is real, and it makes insufficient availability of energy the likely cause.
In women, the triad is described as a lack of adequate stored energy, irregular menses, and bone density loss. In men, menstrual cycles are not relevant, of course, but this study like others suggests a link between the failure to maintain adequate stores of energy, disturbances in hormone function, and decreased bone density in both men and women, Dr. Haines explained.
RED-S vs. male or female athlete triad
“There is now a move away from the term female athlete triad or male athlete triad,” Dr. Haines reported. Rather the factors of failing to maintain adequate energy for metabolic demands, hormonal disturbances, and bone density loss appear to be relevant to both sexes, according to Dr. Haines, an endocrinologist at Massachusetts General Hospital and assistant professor of medicine at Harvard Medical School, both in Boston. She said several groups, including the International Olympic Committee (IOC), have transitioned to the term RED-S to apply to both sexes.
“RED-S is an acronym for relative energy deficiency in sport, and it appears to be gaining traction,” Dr. Haines said in an interview.
According to her study and others, excessive lean body mass from failure to supply sufficient energy for physiological needs “negatively affects hormones and bone,” Dr. Haines explained. In men and women, endocrine disturbances are triggered when insufficient calories lead to inadequate macro- and micronutrients.
In this study, 31 men aged 16-30 years were evaluated. Fifteen were in the athlete group, defined by running at least 30 miles per week for at least the previous 6 months. There were 16 control subjects; all exercised less than 2 hours per week and did not participate in team sports, but they were not permitted in the study if their body mass index exceeded 27.5 kg/m2.
Athletes vs. otherwise healthy controls
Conditions that affect bone health were exclusion criteria in both groups, and neither group was permitted to take medications affecting bone health other than dietary calcium or vitamin D supplements for 2 months prior to the study.
Tibial cortical porosity was significantly greater – signaling deterioration in microarchitecture – in athletes, compared with control subjects (P = .003), according to quantitative computed tomography measurements. There was also significantly lower tibial cortical bone mineral density (P = .008) among athletes relative to controls.
Conversely, tibial trabecular measures of bone density and architecture were better among athletes than controls, but this was expected and did not contradict the hypothesis of the study.
“Trabecular bone refers to the inner part of the bone, which increases with weight-bearing exercise, but cortical bone is the outer shell, and the source of stress fractures,” Dr. Haines explained.
The median age of both the athletes and the controls was 24 years. Baseline measurements were similar. Body mass index, fat mass, estradiol, and leptin were all numerically lower in the athletes than controls, but none were significant, although there was a trend for the difference in leptin (P = .085).
Hormones correlated with tibial failure load
When these characteristics were evaluated in the context of mean tibial failure load, a metric related to strength, there was a strongly significant positive association with lean body mass (R = 0.85; P < 0.001) and estradiol level (R = 0.66; P = .007). The relationship with leptin also reached significance (R = 0.59; P = .046).
Unexpectedly, there was no relationship between testosterone and tibial failure load. The reason is unclear, but Dr. Haines’s interpretation is that the relationship between specific hormonal disturbances and bone density loss “might not be as simple” as once hypothesized.
The next step is a longitudinal evaluation of the same group of athletes to follow changes in the relationship between these variables over time, according to Dr. Haines.
Eventually, with evidence that there is a causal relationship between nutrition, hormonal changes, and bone loss, the research in this area will focus on better detection of risk and prophylactic strategies.
“Intervention trials to show that we can prevent stress factors will be difficult to perform,” Dr. Haines acknowledged, but she said that preventing adverse changes in bone at relatively young ages could have implications for long-term bone health, including protection from osteoporosis later in life.
The research presented by Dr. Haines is consistent with an area of research that is several decades old, at least in females, according to Siobhan M. Statuta, MD, a sports medicine primary care specialist at the University of Virginia, Charlottesville. The evidence that the same phenomenon occurs in men is more recent, but she said that it is now well accepted the there is a parallel hormonal issue in men and women.
“It is not a question of not eating enough. Often, athletes continue to consume the same diet, but their activity increases,” Dr. Statuta explained. “The problem is that they are not supplying enough of the calories they need to sustain the energy they are expending. You might say they are not fueling their engines appropriately.”
In 2014, the International Olympic Committee published a consensus statement on RED-S. They described this as a condition in which a state of energy deficiency leads to numerous complications in athletes, not just osteoporosis. Rather, a host of physiological systems, ranging from gastrointestinal complaints to cardiovascular events, were described.
RED-S addresses health beyond bones
“The RED-S theory is better described as a spoke-and-wheel concept rather than a triad. While inadequate energy availability is important to both, RED-S places this at the center of the wheel with spokes leading to all the possible complications rather than as a first event in a limited triad,” Dr. Statuta said in an interview.
However, she noted that the term RED-S is not yet appropriate to replace that of the male and female athlete triad.
“More research is required to hash out the relationship of a body in a state of energy deficiency and how it affects the entire body, which is the principle of RED-S,” Dr. Statuta said. “There likely are scientific effects, and we are currently investigating these relationships more.”
“These are really quite similar entities but have different foci,” she added. Based on data collected over several decades, “the triad narrows in on two body systems affected by low energy – the reproductive system and bones. RED-S incorporates these same systems yet adds on many more organ systems.
The original group of researchers have remained loyal to the concept of the triad that involves inadequate availability of energy followed by hormonal irregularities and osteoporosis. This group, the Female and Male Athlete Triad Coalition, has issued publications on this topic several times. Consensus statements were updated last year.
“The premise is that the triad leading to bone loss is shared by both men and women, even if the clinical manifestations differ,” said Dr. Statuta. The most notable difference is that men do not experience menstrual irregularities, but Dr. Statuta suggested that the clinical consequences are not necessarily any less.
“Males do not have menstrual cycles as an outward marker of an endocrine disturbance, so it is harder to recognize clinically, but I think there is agreement that not having enough energy available is the trigger of endocrine changes and then bone loss is relevant to both sexes,” she said. She said this is supported by a growing body of evidence, including the data presented by Dr. Haines at the Endocrine Society meeting.
Dr. Haines and Dr. Statuta report no potential conflicts of interest.
FROM ENDO 2022
COVID-19 Pandemic stress affected ovulation, not menstruation
ATLANTA – Disturbances in ovulation that didn’t produce any actual changes in the menstrual cycle of women were extremely common during the first year of the COVID-19 pandemic and were linked to emotional stress, according to the findings of an “experiment of nature” that allowed for comparison with women a decade earlier.
Findings from two studies of reproductive-age women, one conducted in 2006-2008 and the other in 2020-2021, were presented by Jerilynn C. Prior, MD, at the annual meeting of the Endocrine Society.
The comparison of the two time periods yielded several novel findings. “I was taught in medical school that when women don’t eat enough they lose their period. But what we now understand is there’s a graded response to various stressors, acting through the hypothalamus in a common pathway. There is a gradation of disturbances, some of which are subclinical or not obvious,” said Dr. Prior, professor of endocrinology and metabolism at the University of British Columbia, Vancouver.
Moreover, women’s menstrual cycle lengths didn’t differ across the two time periods, despite a dramatic 63% decrement in normal ovulatory function related to increased depression, anxiety, and outside stresses that the women reported in diaries.
“Assuming that regular cycles need normal ovulation is something we should just get out of our minds. It changes our concept about what’s normal if we only know about the cycle length,” she observed.
It will be critical going forward to see whether the ovulatory disturbances have resolved as the pandemic has shifted “because there’s strong evidence that ovulatory disturbances, even with normal cycle length, are related to bone loss and some evidence it’s related to early heart attacks, breast and endometrial cancers,” Dr. Prior said during a press conference.
Asked to comment, session moderator Genevieve Neal-Perry, MD, PhD, told this news organization: “I think what we can take away is that stress itself is a modifier of the way the brain and the gonads communicate with each other, and that then has an impact on ovulatory function.”
Dr. Neal-Perry noted that the association of stress and ovulatory disruption has been reported in various ways previously, but “clearly it doesn’t affect everyone. What we don’t know is who is most susceptible. There have been some studies showing a genetic predisposition and a genetic anomaly that actually makes them more susceptible to the impact of stress on the reproductive system.”
But the lack of data on weight change in the study cohorts is a limitation. “To me one of the more important questions was what was going on with weight. Just looking at a static number doesn’t tell you whether there were changes. We know that weight gain or weight loss can stress the reproductive axis,” noted Dr. Neal-Parry of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
‘Experiment of nature’ revealed invisible effect of pandemic stress
The women in both cohorts of the Menstruation Ovulation Study (MOS) were healthy volunteers aged 19-35 years recruited from the metropolitan Vancouver region. All were menstruating monthly and none were taking hormonal birth control. Recruitment for the second cohort had begun just prior to the March 2020 COVID-19 pandemic lockdown.
Interviewer-administered questionnaires (CaMos) covering demographics, socioeconomic status, and reproductive history, and daily diaries kept by the women (menstrual cycle diary) were identical for both cohorts.
Assessments of ovulation differed for the two studies but were cross-validated. For the earlier time period, ovulation was assessed by a threefold increase in follicular-to-luteal urinary progesterone (PdG). For the pandemic-era study, the validated quantitative basal temperature (QBT) method was used.
There were 301 women in the earlier cohort and 125 during the pandemic. Both were an average age of about 29 years and had a body mass index of about 24.3 kg/m2 (within the normal range). The pandemic cohort was more racially/ethnically diverse than the earlier one and more in-line with recent census data.
More of the women were nulliparous during the pandemic than earlier (92.7% vs. 80.4%; P = .002).
The distribution of menstrual cycle lengths didn’t differ, with both cohorts averaging about 30 days (P = .893). However, while 90% of the women in the earlier cohort ovulated normally, only 37% did during the pandemic, a highly significant difference (P < .0001).
Thus, during the pandemic, 63% of women had “silent ovulatory disturbances,” either with short luteal phases after ovulation or no ovulation, compared with just 10% in the earlier cohort, “which is remarkable, unbelievable actually,” Dr. Prior remarked.
The difference wasn’t explained by any of the demographic information collected either, including socioeconomic status, lifestyle, or reproductive history variables.
And it wasn’t because of COVID-19 vaccination, as the vaccine wasn’t available when most of the women were recruited, and of the 79 who were recruited during vaccine availability, only two received a COVID-19 vaccine during the study (and both had normal ovulation).
Employment changes, caring responsibilities, and worry likely causes
The information from the diaries was more revealing. Several diary components were far more common during the pandemic, including negative mood (feeling depressed or anxious, sleep problems, and outside stresses), self-worth, interest in sex, energy level, and appetite. All were significantly different between the two cohorts (P < .001) and between those with and without ovulatory disturbances.
“So menstrual cycle lengths and long cycles didn’t differ, but there was a much higher prevalence of silent or subclinical ovulatory disturbances, and these were related to the increased stresses that women recorded in their diaries. This means that the estrogen levels were pretty close to normal but the progesterone levels were remarkably decreased,” Dr. Prior said.
Interestingly, reported menstrual cramps were also significantly more common during the pandemic and associated with ovulatory disruption.
“That is a new observation because previously we’ve always thought that you needed to ovulate in order to even have cramps,” she commented.
Asked whether COVID-19 itself might have played a role, Dr. Prior said no woman in the study tested positive for the virus or had long COVID.
“As far as I’m aware, it was the changes in employment … and caring for elders and worry about illness in somebody you loved that was related,” she said.
Asked what she thinks the result would be if the study were conducted now, she said: “I don’t know. We’re still in a stressful time with inflation and not complete recovery, so probably the issue is still very present.”
Dr. Prior and Dr. Neal-Perry have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
ATLANTA – Disturbances in ovulation that didn’t produce any actual changes in the menstrual cycle of women were extremely common during the first year of the COVID-19 pandemic and were linked to emotional stress, according to the findings of an “experiment of nature” that allowed for comparison with women a decade earlier.
Findings from two studies of reproductive-age women, one conducted in 2006-2008 and the other in 2020-2021, were presented by Jerilynn C. Prior, MD, at the annual meeting of the Endocrine Society.
The comparison of the two time periods yielded several novel findings. “I was taught in medical school that when women don’t eat enough they lose their period. But what we now understand is there’s a graded response to various stressors, acting through the hypothalamus in a common pathway. There is a gradation of disturbances, some of which are subclinical or not obvious,” said Dr. Prior, professor of endocrinology and metabolism at the University of British Columbia, Vancouver.
Moreover, women’s menstrual cycle lengths didn’t differ across the two time periods, despite a dramatic 63% decrement in normal ovulatory function related to increased depression, anxiety, and outside stresses that the women reported in diaries.
“Assuming that regular cycles need normal ovulation is something we should just get out of our minds. It changes our concept about what’s normal if we only know about the cycle length,” she observed.
It will be critical going forward to see whether the ovulatory disturbances have resolved as the pandemic has shifted “because there’s strong evidence that ovulatory disturbances, even with normal cycle length, are related to bone loss and some evidence it’s related to early heart attacks, breast and endometrial cancers,” Dr. Prior said during a press conference.
Asked to comment, session moderator Genevieve Neal-Perry, MD, PhD, told this news organization: “I think what we can take away is that stress itself is a modifier of the way the brain and the gonads communicate with each other, and that then has an impact on ovulatory function.”
Dr. Neal-Perry noted that the association of stress and ovulatory disruption has been reported in various ways previously, but “clearly it doesn’t affect everyone. What we don’t know is who is most susceptible. There have been some studies showing a genetic predisposition and a genetic anomaly that actually makes them more susceptible to the impact of stress on the reproductive system.”
But the lack of data on weight change in the study cohorts is a limitation. “To me one of the more important questions was what was going on with weight. Just looking at a static number doesn’t tell you whether there were changes. We know that weight gain or weight loss can stress the reproductive axis,” noted Dr. Neal-Parry of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
‘Experiment of nature’ revealed invisible effect of pandemic stress
The women in both cohorts of the Menstruation Ovulation Study (MOS) were healthy volunteers aged 19-35 years recruited from the metropolitan Vancouver region. All were menstruating monthly and none were taking hormonal birth control. Recruitment for the second cohort had begun just prior to the March 2020 COVID-19 pandemic lockdown.
Interviewer-administered questionnaires (CaMos) covering demographics, socioeconomic status, and reproductive history, and daily diaries kept by the women (menstrual cycle diary) were identical for both cohorts.
Assessments of ovulation differed for the two studies but were cross-validated. For the earlier time period, ovulation was assessed by a threefold increase in follicular-to-luteal urinary progesterone (PdG). For the pandemic-era study, the validated quantitative basal temperature (QBT) method was used.
There were 301 women in the earlier cohort and 125 during the pandemic. Both were an average age of about 29 years and had a body mass index of about 24.3 kg/m2 (within the normal range). The pandemic cohort was more racially/ethnically diverse than the earlier one and more in-line with recent census data.
More of the women were nulliparous during the pandemic than earlier (92.7% vs. 80.4%; P = .002).
The distribution of menstrual cycle lengths didn’t differ, with both cohorts averaging about 30 days (P = .893). However, while 90% of the women in the earlier cohort ovulated normally, only 37% did during the pandemic, a highly significant difference (P < .0001).
Thus, during the pandemic, 63% of women had “silent ovulatory disturbances,” either with short luteal phases after ovulation or no ovulation, compared with just 10% in the earlier cohort, “which is remarkable, unbelievable actually,” Dr. Prior remarked.
The difference wasn’t explained by any of the demographic information collected either, including socioeconomic status, lifestyle, or reproductive history variables.
And it wasn’t because of COVID-19 vaccination, as the vaccine wasn’t available when most of the women were recruited, and of the 79 who were recruited during vaccine availability, only two received a COVID-19 vaccine during the study (and both had normal ovulation).
Employment changes, caring responsibilities, and worry likely causes
The information from the diaries was more revealing. Several diary components were far more common during the pandemic, including negative mood (feeling depressed or anxious, sleep problems, and outside stresses), self-worth, interest in sex, energy level, and appetite. All were significantly different between the two cohorts (P < .001) and between those with and without ovulatory disturbances.
“So menstrual cycle lengths and long cycles didn’t differ, but there was a much higher prevalence of silent or subclinical ovulatory disturbances, and these were related to the increased stresses that women recorded in their diaries. This means that the estrogen levels were pretty close to normal but the progesterone levels were remarkably decreased,” Dr. Prior said.
Interestingly, reported menstrual cramps were also significantly more common during the pandemic and associated with ovulatory disruption.
“That is a new observation because previously we’ve always thought that you needed to ovulate in order to even have cramps,” she commented.
Asked whether COVID-19 itself might have played a role, Dr. Prior said no woman in the study tested positive for the virus or had long COVID.
“As far as I’m aware, it was the changes in employment … and caring for elders and worry about illness in somebody you loved that was related,” she said.
Asked what she thinks the result would be if the study were conducted now, she said: “I don’t know. We’re still in a stressful time with inflation and not complete recovery, so probably the issue is still very present.”
Dr. Prior and Dr. Neal-Perry have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
ATLANTA – Disturbances in ovulation that didn’t produce any actual changes in the menstrual cycle of women were extremely common during the first year of the COVID-19 pandemic and were linked to emotional stress, according to the findings of an “experiment of nature” that allowed for comparison with women a decade earlier.
Findings from two studies of reproductive-age women, one conducted in 2006-2008 and the other in 2020-2021, were presented by Jerilynn C. Prior, MD, at the annual meeting of the Endocrine Society.
The comparison of the two time periods yielded several novel findings. “I was taught in medical school that when women don’t eat enough they lose their period. But what we now understand is there’s a graded response to various stressors, acting through the hypothalamus in a common pathway. There is a gradation of disturbances, some of which are subclinical or not obvious,” said Dr. Prior, professor of endocrinology and metabolism at the University of British Columbia, Vancouver.
Moreover, women’s menstrual cycle lengths didn’t differ across the two time periods, despite a dramatic 63% decrement in normal ovulatory function related to increased depression, anxiety, and outside stresses that the women reported in diaries.
“Assuming that regular cycles need normal ovulation is something we should just get out of our minds. It changes our concept about what’s normal if we only know about the cycle length,” she observed.
It will be critical going forward to see whether the ovulatory disturbances have resolved as the pandemic has shifted “because there’s strong evidence that ovulatory disturbances, even with normal cycle length, are related to bone loss and some evidence it’s related to early heart attacks, breast and endometrial cancers,” Dr. Prior said during a press conference.
Asked to comment, session moderator Genevieve Neal-Perry, MD, PhD, told this news organization: “I think what we can take away is that stress itself is a modifier of the way the brain and the gonads communicate with each other, and that then has an impact on ovulatory function.”
Dr. Neal-Perry noted that the association of stress and ovulatory disruption has been reported in various ways previously, but “clearly it doesn’t affect everyone. What we don’t know is who is most susceptible. There have been some studies showing a genetic predisposition and a genetic anomaly that actually makes them more susceptible to the impact of stress on the reproductive system.”
But the lack of data on weight change in the study cohorts is a limitation. “To me one of the more important questions was what was going on with weight. Just looking at a static number doesn’t tell you whether there were changes. We know that weight gain or weight loss can stress the reproductive axis,” noted Dr. Neal-Parry of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
‘Experiment of nature’ revealed invisible effect of pandemic stress
The women in both cohorts of the Menstruation Ovulation Study (MOS) were healthy volunteers aged 19-35 years recruited from the metropolitan Vancouver region. All were menstruating monthly and none were taking hormonal birth control. Recruitment for the second cohort had begun just prior to the March 2020 COVID-19 pandemic lockdown.
Interviewer-administered questionnaires (CaMos) covering demographics, socioeconomic status, and reproductive history, and daily diaries kept by the women (menstrual cycle diary) were identical for both cohorts.
Assessments of ovulation differed for the two studies but were cross-validated. For the earlier time period, ovulation was assessed by a threefold increase in follicular-to-luteal urinary progesterone (PdG). For the pandemic-era study, the validated quantitative basal temperature (QBT) method was used.
There were 301 women in the earlier cohort and 125 during the pandemic. Both were an average age of about 29 years and had a body mass index of about 24.3 kg/m2 (within the normal range). The pandemic cohort was more racially/ethnically diverse than the earlier one and more in-line with recent census data.
More of the women were nulliparous during the pandemic than earlier (92.7% vs. 80.4%; P = .002).
The distribution of menstrual cycle lengths didn’t differ, with both cohorts averaging about 30 days (P = .893). However, while 90% of the women in the earlier cohort ovulated normally, only 37% did during the pandemic, a highly significant difference (P < .0001).
Thus, during the pandemic, 63% of women had “silent ovulatory disturbances,” either with short luteal phases after ovulation or no ovulation, compared with just 10% in the earlier cohort, “which is remarkable, unbelievable actually,” Dr. Prior remarked.
The difference wasn’t explained by any of the demographic information collected either, including socioeconomic status, lifestyle, or reproductive history variables.
And it wasn’t because of COVID-19 vaccination, as the vaccine wasn’t available when most of the women were recruited, and of the 79 who were recruited during vaccine availability, only two received a COVID-19 vaccine during the study (and both had normal ovulation).
Employment changes, caring responsibilities, and worry likely causes
The information from the diaries was more revealing. Several diary components were far more common during the pandemic, including negative mood (feeling depressed or anxious, sleep problems, and outside stresses), self-worth, interest in sex, energy level, and appetite. All were significantly different between the two cohorts (P < .001) and between those with and without ovulatory disturbances.
“So menstrual cycle lengths and long cycles didn’t differ, but there was a much higher prevalence of silent or subclinical ovulatory disturbances, and these were related to the increased stresses that women recorded in their diaries. This means that the estrogen levels were pretty close to normal but the progesterone levels were remarkably decreased,” Dr. Prior said.
Interestingly, reported menstrual cramps were also significantly more common during the pandemic and associated with ovulatory disruption.
“That is a new observation because previously we’ve always thought that you needed to ovulate in order to even have cramps,” she commented.
Asked whether COVID-19 itself might have played a role, Dr. Prior said no woman in the study tested positive for the virus or had long COVID.
“As far as I’m aware, it was the changes in employment … and caring for elders and worry about illness in somebody you loved that was related,” she said.
Asked what she thinks the result would be if the study were conducted now, she said: “I don’t know. We’re still in a stressful time with inflation and not complete recovery, so probably the issue is still very present.”
Dr. Prior and Dr. Neal-Perry have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
AT ENDO 2022
Could a type 2 diabetes drug tackle kidney stones?
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ENDO 2022
Hypothyroidism: No more waiting to eat or drink with liquid thyroxine?
ATLANTA -- Liquid formulations of levothyroxine offer the possibility of allowing patients with hypothyroidism to take their medication with meals or coffee and skip the currently recommended 30- to 60-minute waiting period before doing either, new data suggest.
Because food, coffee, and certain medications can interfere with intestinal absorption of levothyroxine (also known as LT4), current guidelines recommend that the drug be taken in a fasting state, typically 30-60 minutes before breakfast. However, compliance may be difficult for some patients.
Now, a potential solution may come from new evidence that liquid levothyroxine formulations that bypass the gastric dissolution phase of absorption may mitigate the interference with food and coffee.
Findings from two bioavailability studies showing no difference in comparisons of Thyquidity (levothyroxine sodium oral solution, Vertice Pharma) with or without waiting periods before consuming coffee or a high-fat meal were presented at the annual meeting of the Endocrine Society (ENDO 2022), by Vertice Pharma Medical Director Kris Washington, PharmD.
And just last month, similar data were published in Thyroid for another levothyroxine oral solution, Tirosint-SOL (IBSA). No difference in pharmacokinetic properties were found with this product with a shorter versus a longer waiting period before consuming a high-fat meal.
Liquid thyroxine may be less affected by food/drink but is expensive
Both products have been approved by the U.S. Food and Drug Administration, but current labeling for both still calls for a 30- to 60-minute waiting period between taking the medication and eating or drinking. Thyquidity is an oral solution of 100 µg/mL levothyroxine sodium that has been shown to be bioequivalent to one of the most popular branded levothyroxine tablets, Synthroid (AbbVie), under fasting conditions. Tirosint-SOL is also an oral solution that comes in 15 different dosage ampules.
“It is important to note that while these findings are exciting and encouraging, we do want you to continue to follow the current FDA-approved label for Thyquidity, recommending that it be taken on an empty stomach 30-60 minutes prior to breakfast and that patients continue to follow all other label instructions,” Dr. Washington said during a press briefing at ENDO 2022.
When asked whether the new data would be submitted to the FDA for a possible amendment to this message, she replied: “We’re still discussing that. We’re exploring all options. ... This is fairly new data. ... It makes sense and certainly solves a lot of the challenges for people who can’t swallow or don’t choose to swallow, or the challenges of splitting or crushing with tablets.”
Asked to comment, Benjamin J. Gigliotti, MD, a clinical thyroidologist at the University of Rochester, New York, told this news organization: “Liquid levothyroxine has the potential to be a clinically useful formulation,” noting that these recent data corroborate prior findings from Europe and elsewhere that liquid levothyroxine is absorbed more rapidly and thus may be less impacted by food or beverages.
However, Dr. Gigliotti also pointed out, “I don’t think malabsorption is a major contributor to suboptimal treatment because if [patients] malabsorb the hormone, we typically just increase their dose a little bit or ask them to take it separately, and that works just fine for most people.”
And the higher cost of the liquid products is a major issue, he noted.
A quick search on GoodRx shows that the lowest price of Tirosint-SOL is $115.52 for a 1 month supply and Thyquidity is $181.04/month. “In the few patients where I tried to obtain Tirosint-SOL, it was not covered by insurance, even with a prior authorization,” Dr. Gigliotti commented.
In contrast, generic levothyroxine tablets are about $4/month, while a common brand name of levothyroxine tablets are $47.81/month.
“Until these liquid formulations are more widely covered by insurance for a reasonable copay, or come down in price compared to generic levothyroxine tablets, most of my patients have voiced that they’d rather deal with the inconveniences of a tablet compared to higher medication cost, especially with rising economic insecurity imposed by the COVID-19 pandemic and recent world events,” Dr. Gigliotti said.
Bioequivalence with shorter versus longer waits before coffee/breakfast
The Thyquidity coffee study was a single-center open-label, randomized, crossover study of 40 healthy adults randomized after a 10-hour overnight fast to 600 µg Thyquidity with water under fasting conditions or to the same dose given 5 minutes prior to drinking an 8-ounce cup of American coffee without milk or sweeteners. After a 40-day washout period, the same participants received the other treatment.
Mean serum thyroxine (T4) concentrations over 48 hours were nearly identical, demonstrating comparable bioavailability. Pharmacokinetics parameters, including area under the curve (AUC) and Cmax, were also comparable for both groups. The geometric least square mean ratios for baseline-adjusted LT4 were 96.0% for Cmax and 94% for AUC. And the corresponding 90% confidence intervals fell within the 80%-125% FDA acceptance range for absence of a food effect on bioavailability, said Dr. Washington when presenting the findings.
There was one adverse event, a decrease in blood glucose level, which was deemed to be mild and unrelated to study treatment. No deaths, serious adverse events, or discontinuations due to adverse events were reported. There were no significant changes in vital signs or on ECG.
In the second Thyquidity study of 38 healthy adults, after a 10-hour fast, the same doses were given 10 or 30 minutes prior to the consumption of a 950-calorie standardized high-fat breakfast.
Again, over 48 hours, mean serum T4 levels were comparable between the two groups. The geometric least squares mean ratios for both AUC and Cmax for baseline-adjusted LT4 were 88.7% and 85.1%, respectively. Again, the corresponding 90% confidence intervals fell within the FDA’s noninterference definition, again demonstrating lack of a food effect on bioavailability, Dr. Washington noted.
Four adverse events were reported in three participants, with three deemed to be possibly related to the medication. All were isolated lab abnormalities without clinical symptoms and deemed to be mild. Three were normal on repeat testing.
There were no deaths or serious adverse events or study discontinuations for adverse events and no significant findings for vital signs or on ECG.
Similar findings for Tirosint-SOL but longer-term studies needed
The recently published Tirosint-SOL study included 36 healthy volunteers randomized to single 600-µg doses of the LT4 oral solution after a 10-hour fast, either 15 or 30 minutes before eating a standardized high-fat, high-calorie meal. Mean serum total thyroxine concentration profiles were similar for both the 15- and 30-minute waits, with similar AUCs.
Geometric mean ratios for AUCs at 48 and 72 hours were 90% and 92%, respectively, and the 90% confidence intervals fell within the 80%-125% FDA boundaries, suggesting similar exposures whether taken 15 or 30 minutes before a meal.
Senior author Francesco S. Celi, MD, chair of the division of endocrinology, diabetes, and metabolism at Virginia Commonwealth University, Richmond, told this news organization: “There is an interest in providing more opportunities for patients and improving adherence to the medication. ... Whatever makes life a bit easier for patients and results in a more predictable response to treatment means down the road there will be fewer visits to the doctor to make adjustments.”
However, he said that in addition to the cost and reimbursement issue, all of these studies have been short term and not conducted in real-life settings.
“Another question is: What happens if the patient goes on low-dose LT4? The studies were conducted on much higher pharmacologic doses. But at least from a safety standpoint, there’s no specific concern.”
Dr. Washington is an employee of Vertice Pharma. Dr. Celi has received unrestricted research grants and worked as a consultant for IBSA. Dr. Gigliotti has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
ATLANTA -- Liquid formulations of levothyroxine offer the possibility of allowing patients with hypothyroidism to take their medication with meals or coffee and skip the currently recommended 30- to 60-minute waiting period before doing either, new data suggest.
Because food, coffee, and certain medications can interfere with intestinal absorption of levothyroxine (also known as LT4), current guidelines recommend that the drug be taken in a fasting state, typically 30-60 minutes before breakfast. However, compliance may be difficult for some patients.
Now, a potential solution may come from new evidence that liquid levothyroxine formulations that bypass the gastric dissolution phase of absorption may mitigate the interference with food and coffee.
Findings from two bioavailability studies showing no difference in comparisons of Thyquidity (levothyroxine sodium oral solution, Vertice Pharma) with or without waiting periods before consuming coffee or a high-fat meal were presented at the annual meeting of the Endocrine Society (ENDO 2022), by Vertice Pharma Medical Director Kris Washington, PharmD.
And just last month, similar data were published in Thyroid for another levothyroxine oral solution, Tirosint-SOL (IBSA). No difference in pharmacokinetic properties were found with this product with a shorter versus a longer waiting period before consuming a high-fat meal.
Liquid thyroxine may be less affected by food/drink but is expensive
Both products have been approved by the U.S. Food and Drug Administration, but current labeling for both still calls for a 30- to 60-minute waiting period between taking the medication and eating or drinking. Thyquidity is an oral solution of 100 µg/mL levothyroxine sodium that has been shown to be bioequivalent to one of the most popular branded levothyroxine tablets, Synthroid (AbbVie), under fasting conditions. Tirosint-SOL is also an oral solution that comes in 15 different dosage ampules.
“It is important to note that while these findings are exciting and encouraging, we do want you to continue to follow the current FDA-approved label for Thyquidity, recommending that it be taken on an empty stomach 30-60 minutes prior to breakfast and that patients continue to follow all other label instructions,” Dr. Washington said during a press briefing at ENDO 2022.
When asked whether the new data would be submitted to the FDA for a possible amendment to this message, she replied: “We’re still discussing that. We’re exploring all options. ... This is fairly new data. ... It makes sense and certainly solves a lot of the challenges for people who can’t swallow or don’t choose to swallow, or the challenges of splitting or crushing with tablets.”
Asked to comment, Benjamin J. Gigliotti, MD, a clinical thyroidologist at the University of Rochester, New York, told this news organization: “Liquid levothyroxine has the potential to be a clinically useful formulation,” noting that these recent data corroborate prior findings from Europe and elsewhere that liquid levothyroxine is absorbed more rapidly and thus may be less impacted by food or beverages.
However, Dr. Gigliotti also pointed out, “I don’t think malabsorption is a major contributor to suboptimal treatment because if [patients] malabsorb the hormone, we typically just increase their dose a little bit or ask them to take it separately, and that works just fine for most people.”
And the higher cost of the liquid products is a major issue, he noted.
A quick search on GoodRx shows that the lowest price of Tirosint-SOL is $115.52 for a 1 month supply and Thyquidity is $181.04/month. “In the few patients where I tried to obtain Tirosint-SOL, it was not covered by insurance, even with a prior authorization,” Dr. Gigliotti commented.
In contrast, generic levothyroxine tablets are about $4/month, while a common brand name of levothyroxine tablets are $47.81/month.
“Until these liquid formulations are more widely covered by insurance for a reasonable copay, or come down in price compared to generic levothyroxine tablets, most of my patients have voiced that they’d rather deal with the inconveniences of a tablet compared to higher medication cost, especially with rising economic insecurity imposed by the COVID-19 pandemic and recent world events,” Dr. Gigliotti said.
Bioequivalence with shorter versus longer waits before coffee/breakfast
The Thyquidity coffee study was a single-center open-label, randomized, crossover study of 40 healthy adults randomized after a 10-hour overnight fast to 600 µg Thyquidity with water under fasting conditions or to the same dose given 5 minutes prior to drinking an 8-ounce cup of American coffee without milk or sweeteners. After a 40-day washout period, the same participants received the other treatment.
Mean serum thyroxine (T4) concentrations over 48 hours were nearly identical, demonstrating comparable bioavailability. Pharmacokinetics parameters, including area under the curve (AUC) and Cmax, were also comparable for both groups. The geometric least square mean ratios for baseline-adjusted LT4 were 96.0% for Cmax and 94% for AUC. And the corresponding 90% confidence intervals fell within the 80%-125% FDA acceptance range for absence of a food effect on bioavailability, said Dr. Washington when presenting the findings.
There was one adverse event, a decrease in blood glucose level, which was deemed to be mild and unrelated to study treatment. No deaths, serious adverse events, or discontinuations due to adverse events were reported. There were no significant changes in vital signs or on ECG.
In the second Thyquidity study of 38 healthy adults, after a 10-hour fast, the same doses were given 10 or 30 minutes prior to the consumption of a 950-calorie standardized high-fat breakfast.
Again, over 48 hours, mean serum T4 levels were comparable between the two groups. The geometric least squares mean ratios for both AUC and Cmax for baseline-adjusted LT4 were 88.7% and 85.1%, respectively. Again, the corresponding 90% confidence intervals fell within the FDA’s noninterference definition, again demonstrating lack of a food effect on bioavailability, Dr. Washington noted.
Four adverse events were reported in three participants, with three deemed to be possibly related to the medication. All were isolated lab abnormalities without clinical symptoms and deemed to be mild. Three were normal on repeat testing.
There were no deaths or serious adverse events or study discontinuations for adverse events and no significant findings for vital signs or on ECG.
Similar findings for Tirosint-SOL but longer-term studies needed
The recently published Tirosint-SOL study included 36 healthy volunteers randomized to single 600-µg doses of the LT4 oral solution after a 10-hour fast, either 15 or 30 minutes before eating a standardized high-fat, high-calorie meal. Mean serum total thyroxine concentration profiles were similar for both the 15- and 30-minute waits, with similar AUCs.
Geometric mean ratios for AUCs at 48 and 72 hours were 90% and 92%, respectively, and the 90% confidence intervals fell within the 80%-125% FDA boundaries, suggesting similar exposures whether taken 15 or 30 minutes before a meal.
Senior author Francesco S. Celi, MD, chair of the division of endocrinology, diabetes, and metabolism at Virginia Commonwealth University, Richmond, told this news organization: “There is an interest in providing more opportunities for patients and improving adherence to the medication. ... Whatever makes life a bit easier for patients and results in a more predictable response to treatment means down the road there will be fewer visits to the doctor to make adjustments.”
However, he said that in addition to the cost and reimbursement issue, all of these studies have been short term and not conducted in real-life settings.
“Another question is: What happens if the patient goes on low-dose LT4? The studies were conducted on much higher pharmacologic doses. But at least from a safety standpoint, there’s no specific concern.”
Dr. Washington is an employee of Vertice Pharma. Dr. Celi has received unrestricted research grants and worked as a consultant for IBSA. Dr. Gigliotti has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
ATLANTA -- Liquid formulations of levothyroxine offer the possibility of allowing patients with hypothyroidism to take their medication with meals or coffee and skip the currently recommended 30- to 60-minute waiting period before doing either, new data suggest.
Because food, coffee, and certain medications can interfere with intestinal absorption of levothyroxine (also known as LT4), current guidelines recommend that the drug be taken in a fasting state, typically 30-60 minutes before breakfast. However, compliance may be difficult for some patients.
Now, a potential solution may come from new evidence that liquid levothyroxine formulations that bypass the gastric dissolution phase of absorption may mitigate the interference with food and coffee.
Findings from two bioavailability studies showing no difference in comparisons of Thyquidity (levothyroxine sodium oral solution, Vertice Pharma) with or without waiting periods before consuming coffee or a high-fat meal were presented at the annual meeting of the Endocrine Society (ENDO 2022), by Vertice Pharma Medical Director Kris Washington, PharmD.
And just last month, similar data were published in Thyroid for another levothyroxine oral solution, Tirosint-SOL (IBSA). No difference in pharmacokinetic properties were found with this product with a shorter versus a longer waiting period before consuming a high-fat meal.
Liquid thyroxine may be less affected by food/drink but is expensive
Both products have been approved by the U.S. Food and Drug Administration, but current labeling for both still calls for a 30- to 60-minute waiting period between taking the medication and eating or drinking. Thyquidity is an oral solution of 100 µg/mL levothyroxine sodium that has been shown to be bioequivalent to one of the most popular branded levothyroxine tablets, Synthroid (AbbVie), under fasting conditions. Tirosint-SOL is also an oral solution that comes in 15 different dosage ampules.
“It is important to note that while these findings are exciting and encouraging, we do want you to continue to follow the current FDA-approved label for Thyquidity, recommending that it be taken on an empty stomach 30-60 minutes prior to breakfast and that patients continue to follow all other label instructions,” Dr. Washington said during a press briefing at ENDO 2022.
When asked whether the new data would be submitted to the FDA for a possible amendment to this message, she replied: “We’re still discussing that. We’re exploring all options. ... This is fairly new data. ... It makes sense and certainly solves a lot of the challenges for people who can’t swallow or don’t choose to swallow, or the challenges of splitting or crushing with tablets.”
Asked to comment, Benjamin J. Gigliotti, MD, a clinical thyroidologist at the University of Rochester, New York, told this news organization: “Liquid levothyroxine has the potential to be a clinically useful formulation,” noting that these recent data corroborate prior findings from Europe and elsewhere that liquid levothyroxine is absorbed more rapidly and thus may be less impacted by food or beverages.
However, Dr. Gigliotti also pointed out, “I don’t think malabsorption is a major contributor to suboptimal treatment because if [patients] malabsorb the hormone, we typically just increase their dose a little bit or ask them to take it separately, and that works just fine for most people.”
And the higher cost of the liquid products is a major issue, he noted.
A quick search on GoodRx shows that the lowest price of Tirosint-SOL is $115.52 for a 1 month supply and Thyquidity is $181.04/month. “In the few patients where I tried to obtain Tirosint-SOL, it was not covered by insurance, even with a prior authorization,” Dr. Gigliotti commented.
In contrast, generic levothyroxine tablets are about $4/month, while a common brand name of levothyroxine tablets are $47.81/month.
“Until these liquid formulations are more widely covered by insurance for a reasonable copay, or come down in price compared to generic levothyroxine tablets, most of my patients have voiced that they’d rather deal with the inconveniences of a tablet compared to higher medication cost, especially with rising economic insecurity imposed by the COVID-19 pandemic and recent world events,” Dr. Gigliotti said.
Bioequivalence with shorter versus longer waits before coffee/breakfast
The Thyquidity coffee study was a single-center open-label, randomized, crossover study of 40 healthy adults randomized after a 10-hour overnight fast to 600 µg Thyquidity with water under fasting conditions or to the same dose given 5 minutes prior to drinking an 8-ounce cup of American coffee without milk or sweeteners. After a 40-day washout period, the same participants received the other treatment.
Mean serum thyroxine (T4) concentrations over 48 hours were nearly identical, demonstrating comparable bioavailability. Pharmacokinetics parameters, including area under the curve (AUC) and Cmax, were also comparable for both groups. The geometric least square mean ratios for baseline-adjusted LT4 were 96.0% for Cmax and 94% for AUC. And the corresponding 90% confidence intervals fell within the 80%-125% FDA acceptance range for absence of a food effect on bioavailability, said Dr. Washington when presenting the findings.
There was one adverse event, a decrease in blood glucose level, which was deemed to be mild and unrelated to study treatment. No deaths, serious adverse events, or discontinuations due to adverse events were reported. There were no significant changes in vital signs or on ECG.
In the second Thyquidity study of 38 healthy adults, after a 10-hour fast, the same doses were given 10 or 30 minutes prior to the consumption of a 950-calorie standardized high-fat breakfast.
Again, over 48 hours, mean serum T4 levels were comparable between the two groups. The geometric least squares mean ratios for both AUC and Cmax for baseline-adjusted LT4 were 88.7% and 85.1%, respectively. Again, the corresponding 90% confidence intervals fell within the FDA’s noninterference definition, again demonstrating lack of a food effect on bioavailability, Dr. Washington noted.
Four adverse events were reported in three participants, with three deemed to be possibly related to the medication. All were isolated lab abnormalities without clinical symptoms and deemed to be mild. Three were normal on repeat testing.
There were no deaths or serious adverse events or study discontinuations for adverse events and no significant findings for vital signs or on ECG.
Similar findings for Tirosint-SOL but longer-term studies needed
The recently published Tirosint-SOL study included 36 healthy volunteers randomized to single 600-µg doses of the LT4 oral solution after a 10-hour fast, either 15 or 30 minutes before eating a standardized high-fat, high-calorie meal. Mean serum total thyroxine concentration profiles were similar for both the 15- and 30-minute waits, with similar AUCs.
Geometric mean ratios for AUCs at 48 and 72 hours were 90% and 92%, respectively, and the 90% confidence intervals fell within the 80%-125% FDA boundaries, suggesting similar exposures whether taken 15 or 30 minutes before a meal.
Senior author Francesco S. Celi, MD, chair of the division of endocrinology, diabetes, and metabolism at Virginia Commonwealth University, Richmond, told this news organization: “There is an interest in providing more opportunities for patients and improving adherence to the medication. ... Whatever makes life a bit easier for patients and results in a more predictable response to treatment means down the road there will be fewer visits to the doctor to make adjustments.”
However, he said that in addition to the cost and reimbursement issue, all of these studies have been short term and not conducted in real-life settings.
“Another question is: What happens if the patient goes on low-dose LT4? The studies were conducted on much higher pharmacologic doses. But at least from a safety standpoint, there’s no specific concern.”
Dr. Washington is an employee of Vertice Pharma. Dr. Celi has received unrestricted research grants and worked as a consultant for IBSA. Dr. Gigliotti has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
AT ENDO 2022
Nonhormonal drug for menopause symptoms passes phase 3 test
A phase 3 trial has associated the neurokinin-3 (NK3)–receptor inhibitor fezolinetant, an oral therapy taken once daily, with substantial control over the symptoms of menopause, according to results of the randomized SKYLIGHT 2 trial.
The nonhormonal therapy has the potential to address an important unmet need, Genevieve Neal-Perry, MD, PhD, said at the annual meeting of the Endocrine Society.
The health risks of hormone therapy (HT) have “caused quite a few women to consider whether hormone replacement is right for them, and, in addition, there are other individuals who have hormone-responsive cancers or other disorders that might prohibit them [from using HT],” Dr. Neal-Perry said.
The NK3 receptor stimulates the thermoregulatory center in the hypothalamus. By blocking the NK3 receptor, vasodilation and other downstream effects are inhibited, explained Dr. Neal-Perry. She credited relatively recent advances in understanding the mechanisms of menopausal symptoms for identifying this and other potentially targetable mediators.
SKYLIGHT 2 trial: Two phases
In the double-blind multinational phase 3 SKYLIGHT 2 trial, 484 otherwise healthy symptomatic menopausal women were randomized to 30 mg of fezolinetant, 45 mg of fezolinetant, or placebo. The 120 participating centers were in North American and Europe.
In the first phase, safety and efficacy were evaluated over 12 weeks. In a second extension phase, placebo patients were rerandomized to one of the fezolinetant study doses. Those on active therapy remained in their assigned groups. All patients were then followed for an additional 40 weeks.
The coprimary endpoints were frequency and severity of moderate to severe vasomotor symptoms as reported by patients using an electronic diary. There were several secondary endpoints, including patient-reported outcomes regarding sleep quality.
As expected from other controlled trials, placebo patients achieved about a 40% reduction in moderate to severe vasomotor symptom frequency over the first 12 weeks. Relative to placebo, symptom frequency declined more quickly and steeply on fezolinetant. By week 12, both achieved reductions of about 60%. Statistical P values for the differences in the three arms were not provided, but Dr. Neal-Perry reported they were significant.
Vasomotor severity, like frequency, is reduced
The change in vasomotor severity, which subjects in the trial rated as better or worse, was also significant. The differences in the severity curves were less, but they separated in favor of the two active treatment arms by about 2 weeks, and the curves continued to show an advantage for fezolinetant over both the first 12 weeks and then the remaining 40 weeks.
Overall, the decline in vasomotor symptom frequency remained on a persistent downward slope on both doses of fezolinetant for the full 52 weeks of the study, so that the reduction at 52 weeks was on the order of 25% greater than that seen at 12 weeks.
At 52 weeks, “you can see that individuals on placebo who were crossed over to an active treatment had a significant reduction in their hot flashes and look very much like those who were randomized to fezolinetant at the beginning of the study,” said Dr. Neal-Perry, who is chair of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
Other outcomes also favored fezolinetant over placebo. For example, a reduction in sleep disturbance observed at 12 weeks was sustained over the full 52 weeks of the study. The reduction in sleep symptoms appeared to be slightly greater on the higher dose, but the benefit at 52 weeks among patients after the crossover was similar on either active arm.
No serious side effects identified
There were no serious drug-related treatment-emergent adverse events in any treatment group. One patient in the placebo arm (< 1%), two patients in the 30-mg fezolinetant arm (1.2%), and five patients in the 45-mg arm (3%) discontinued therapy for an adverse event considered to be treatment related.
“The most common side effect associated with fezolinetant was headache. There were no other side effects that led patients to pull out of the study,” Dr. Neal-Perry reported at the meeting, which was held in Atlanta and virtually.
According to Dr. Neal-Perry the vasomotor symptoms relative to menopause, which occur in almost all women, are moderate to severe in an estimated 35%-45%. Some groups, such as those with an elevated body mass index and African Americans, appear to be at even greater risk. Study enrollment was specifically designed to include these high-risk groups, but the subgroup efficacy data have not yet been analyzed.
Other drugs with a similar mechanism of action have not been brought forward because of concern about elevated liver enzymes, but Dr. Neal-Perry said that this does not appear to be an issue for fezolinetant, which was designed with greater specificity for the NK3 target than previous treatments.
If fezolinetant is approved, Dr. Neal-Perry expects this agent to fulfill an important unmet need because of the limitations of other nonhormonal solutions for control of menopause symptoms.
HT alternatives limited
For control of many menopause symptoms, particularly hot flashes, hormone therapy (HT) is the most efficacious, but Richard J. Santen, MD, emeritus professor and an endocrinologist at the University of Virginia, Charlottesville, agreed there is a need for alternatives.
In addition to those who have contraindications for HT, Dr. Santen said in an interview that this option is not acceptable to others “for a variety of reasons.” The problem is that the alternatives are limited.
“The SSRI agents and gabapentin are alternative nonhormonal agents, but they have side effects and are not as effective,” he said. Hot flashes “can be a major disruptor of quality of life,” so he is intrigued with the positive results achieved with fezolinetant.
“A new drug such as reported at the Endocrine Society meeting would be an important new addition to the armamentarium,” he said.
Dr. Neal-Perry reports no conflicts of interest.
A phase 3 trial has associated the neurokinin-3 (NK3)–receptor inhibitor fezolinetant, an oral therapy taken once daily, with substantial control over the symptoms of menopause, according to results of the randomized SKYLIGHT 2 trial.
The nonhormonal therapy has the potential to address an important unmet need, Genevieve Neal-Perry, MD, PhD, said at the annual meeting of the Endocrine Society.
The health risks of hormone therapy (HT) have “caused quite a few women to consider whether hormone replacement is right for them, and, in addition, there are other individuals who have hormone-responsive cancers or other disorders that might prohibit them [from using HT],” Dr. Neal-Perry said.
The NK3 receptor stimulates the thermoregulatory center in the hypothalamus. By blocking the NK3 receptor, vasodilation and other downstream effects are inhibited, explained Dr. Neal-Perry. She credited relatively recent advances in understanding the mechanisms of menopausal symptoms for identifying this and other potentially targetable mediators.
SKYLIGHT 2 trial: Two phases
In the double-blind multinational phase 3 SKYLIGHT 2 trial, 484 otherwise healthy symptomatic menopausal women were randomized to 30 mg of fezolinetant, 45 mg of fezolinetant, or placebo. The 120 participating centers were in North American and Europe.
In the first phase, safety and efficacy were evaluated over 12 weeks. In a second extension phase, placebo patients were rerandomized to one of the fezolinetant study doses. Those on active therapy remained in their assigned groups. All patients were then followed for an additional 40 weeks.
The coprimary endpoints were frequency and severity of moderate to severe vasomotor symptoms as reported by patients using an electronic diary. There were several secondary endpoints, including patient-reported outcomes regarding sleep quality.
As expected from other controlled trials, placebo patients achieved about a 40% reduction in moderate to severe vasomotor symptom frequency over the first 12 weeks. Relative to placebo, symptom frequency declined more quickly and steeply on fezolinetant. By week 12, both achieved reductions of about 60%. Statistical P values for the differences in the three arms were not provided, but Dr. Neal-Perry reported they were significant.
Vasomotor severity, like frequency, is reduced
The change in vasomotor severity, which subjects in the trial rated as better or worse, was also significant. The differences in the severity curves were less, but they separated in favor of the two active treatment arms by about 2 weeks, and the curves continued to show an advantage for fezolinetant over both the first 12 weeks and then the remaining 40 weeks.
Overall, the decline in vasomotor symptom frequency remained on a persistent downward slope on both doses of fezolinetant for the full 52 weeks of the study, so that the reduction at 52 weeks was on the order of 25% greater than that seen at 12 weeks.
At 52 weeks, “you can see that individuals on placebo who were crossed over to an active treatment had a significant reduction in their hot flashes and look very much like those who were randomized to fezolinetant at the beginning of the study,” said Dr. Neal-Perry, who is chair of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
Other outcomes also favored fezolinetant over placebo. For example, a reduction in sleep disturbance observed at 12 weeks was sustained over the full 52 weeks of the study. The reduction in sleep symptoms appeared to be slightly greater on the higher dose, but the benefit at 52 weeks among patients after the crossover was similar on either active arm.
No serious side effects identified
There were no serious drug-related treatment-emergent adverse events in any treatment group. One patient in the placebo arm (< 1%), two patients in the 30-mg fezolinetant arm (1.2%), and five patients in the 45-mg arm (3%) discontinued therapy for an adverse event considered to be treatment related.
“The most common side effect associated with fezolinetant was headache. There were no other side effects that led patients to pull out of the study,” Dr. Neal-Perry reported at the meeting, which was held in Atlanta and virtually.
According to Dr. Neal-Perry the vasomotor symptoms relative to menopause, which occur in almost all women, are moderate to severe in an estimated 35%-45%. Some groups, such as those with an elevated body mass index and African Americans, appear to be at even greater risk. Study enrollment was specifically designed to include these high-risk groups, but the subgroup efficacy data have not yet been analyzed.
Other drugs with a similar mechanism of action have not been brought forward because of concern about elevated liver enzymes, but Dr. Neal-Perry said that this does not appear to be an issue for fezolinetant, which was designed with greater specificity for the NK3 target than previous treatments.
If fezolinetant is approved, Dr. Neal-Perry expects this agent to fulfill an important unmet need because of the limitations of other nonhormonal solutions for control of menopause symptoms.
HT alternatives limited
For control of many menopause symptoms, particularly hot flashes, hormone therapy (HT) is the most efficacious, but Richard J. Santen, MD, emeritus professor and an endocrinologist at the University of Virginia, Charlottesville, agreed there is a need for alternatives.
In addition to those who have contraindications for HT, Dr. Santen said in an interview that this option is not acceptable to others “for a variety of reasons.” The problem is that the alternatives are limited.
“The SSRI agents and gabapentin are alternative nonhormonal agents, but they have side effects and are not as effective,” he said. Hot flashes “can be a major disruptor of quality of life,” so he is intrigued with the positive results achieved with fezolinetant.
“A new drug such as reported at the Endocrine Society meeting would be an important new addition to the armamentarium,” he said.
Dr. Neal-Perry reports no conflicts of interest.
A phase 3 trial has associated the neurokinin-3 (NK3)–receptor inhibitor fezolinetant, an oral therapy taken once daily, with substantial control over the symptoms of menopause, according to results of the randomized SKYLIGHT 2 trial.
The nonhormonal therapy has the potential to address an important unmet need, Genevieve Neal-Perry, MD, PhD, said at the annual meeting of the Endocrine Society.
The health risks of hormone therapy (HT) have “caused quite a few women to consider whether hormone replacement is right for them, and, in addition, there are other individuals who have hormone-responsive cancers or other disorders that might prohibit them [from using HT],” Dr. Neal-Perry said.
The NK3 receptor stimulates the thermoregulatory center in the hypothalamus. By blocking the NK3 receptor, vasodilation and other downstream effects are inhibited, explained Dr. Neal-Perry. She credited relatively recent advances in understanding the mechanisms of menopausal symptoms for identifying this and other potentially targetable mediators.
SKYLIGHT 2 trial: Two phases
In the double-blind multinational phase 3 SKYLIGHT 2 trial, 484 otherwise healthy symptomatic menopausal women were randomized to 30 mg of fezolinetant, 45 mg of fezolinetant, or placebo. The 120 participating centers were in North American and Europe.
In the first phase, safety and efficacy were evaluated over 12 weeks. In a second extension phase, placebo patients were rerandomized to one of the fezolinetant study doses. Those on active therapy remained in their assigned groups. All patients were then followed for an additional 40 weeks.
The coprimary endpoints were frequency and severity of moderate to severe vasomotor symptoms as reported by patients using an electronic diary. There were several secondary endpoints, including patient-reported outcomes regarding sleep quality.
As expected from other controlled trials, placebo patients achieved about a 40% reduction in moderate to severe vasomotor symptom frequency over the first 12 weeks. Relative to placebo, symptom frequency declined more quickly and steeply on fezolinetant. By week 12, both achieved reductions of about 60%. Statistical P values for the differences in the three arms were not provided, but Dr. Neal-Perry reported they were significant.
Vasomotor severity, like frequency, is reduced
The change in vasomotor severity, which subjects in the trial rated as better or worse, was also significant. The differences in the severity curves were less, but they separated in favor of the two active treatment arms by about 2 weeks, and the curves continued to show an advantage for fezolinetant over both the first 12 weeks and then the remaining 40 weeks.
Overall, the decline in vasomotor symptom frequency remained on a persistent downward slope on both doses of fezolinetant for the full 52 weeks of the study, so that the reduction at 52 weeks was on the order of 25% greater than that seen at 12 weeks.
At 52 weeks, “you can see that individuals on placebo who were crossed over to an active treatment had a significant reduction in their hot flashes and look very much like those who were randomized to fezolinetant at the beginning of the study,” said Dr. Neal-Perry, who is chair of the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill.
Other outcomes also favored fezolinetant over placebo. For example, a reduction in sleep disturbance observed at 12 weeks was sustained over the full 52 weeks of the study. The reduction in sleep symptoms appeared to be slightly greater on the higher dose, but the benefit at 52 weeks among patients after the crossover was similar on either active arm.
No serious side effects identified
There were no serious drug-related treatment-emergent adverse events in any treatment group. One patient in the placebo arm (< 1%), two patients in the 30-mg fezolinetant arm (1.2%), and five patients in the 45-mg arm (3%) discontinued therapy for an adverse event considered to be treatment related.
“The most common side effect associated with fezolinetant was headache. There were no other side effects that led patients to pull out of the study,” Dr. Neal-Perry reported at the meeting, which was held in Atlanta and virtually.
According to Dr. Neal-Perry the vasomotor symptoms relative to menopause, which occur in almost all women, are moderate to severe in an estimated 35%-45%. Some groups, such as those with an elevated body mass index and African Americans, appear to be at even greater risk. Study enrollment was specifically designed to include these high-risk groups, but the subgroup efficacy data have not yet been analyzed.
Other drugs with a similar mechanism of action have not been brought forward because of concern about elevated liver enzymes, but Dr. Neal-Perry said that this does not appear to be an issue for fezolinetant, which was designed with greater specificity for the NK3 target than previous treatments.
If fezolinetant is approved, Dr. Neal-Perry expects this agent to fulfill an important unmet need because of the limitations of other nonhormonal solutions for control of menopause symptoms.
HT alternatives limited
For control of many menopause symptoms, particularly hot flashes, hormone therapy (HT) is the most efficacious, but Richard J. Santen, MD, emeritus professor and an endocrinologist at the University of Virginia, Charlottesville, agreed there is a need for alternatives.
In addition to those who have contraindications for HT, Dr. Santen said in an interview that this option is not acceptable to others “for a variety of reasons.” The problem is that the alternatives are limited.
“The SSRI agents and gabapentin are alternative nonhormonal agents, but they have side effects and are not as effective,” he said. Hot flashes “can be a major disruptor of quality of life,” so he is intrigued with the positive results achieved with fezolinetant.
“A new drug such as reported at the Endocrine Society meeting would be an important new addition to the armamentarium,” he said.
Dr. Neal-Perry reports no conflicts of interest.
FROM ENDO 2022
Prediabetes is linked independently to myocardial infarction
Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.
“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.
There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
Data drawn from 1.8 million patients
In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.
Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).
A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.
As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
Relevance seen for community care
Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.
Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.
“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.
Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.
Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
Worsening prediabetes should be addressed
“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.
“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.
These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.
“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.
“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.
Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.
“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.
Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.
Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.
“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.
There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
Data drawn from 1.8 million patients
In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.
Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).
A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.
As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
Relevance seen for community care
Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.
Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.
“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.
Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.
Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
Worsening prediabetes should be addressed
“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.
“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.
These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.
“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.
“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.
Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.
“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.
Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.
Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.
“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.
There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
Data drawn from 1.8 million patients
In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.
Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).
A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.
As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
Relevance seen for community care
Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.
Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.
“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.
Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.
Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
Worsening prediabetes should be addressed
“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.
“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.
These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.
“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.
“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.
Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.
“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.
Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.
FROM ENDO 2022
Avexitide promising for hypoglycemia after weight-loss surgery
Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.
Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.
In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.
There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).
But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.
In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.
The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.
Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”
And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
Drug reduced all levels of hypoglycemia, across surgery types
The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.
They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.
Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).
Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003).
“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.
More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.
Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.
The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.
There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.
Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.
The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.
A version of this article first appeared on Medscape.com.
Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.
Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.
In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.
There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).
But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.
In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.
The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.
Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”
And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
Drug reduced all levels of hypoglycemia, across surgery types
The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.
They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.
Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).
Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003).
“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.
More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.
Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.
The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.
There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.
Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.
The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.
A version of this article first appeared on Medscape.com.
Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.
Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.
In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.
There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).
But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.
In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.
The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.
Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”
And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
Drug reduced all levels of hypoglycemia, across surgery types
The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.
They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.
Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).
Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003).
“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.
More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.
Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.
The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.
There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.
Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.
The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.
A version of this article first appeared on Medscape.com.
FROM ENDO 2022
Male contraceptive pill appears feasible in very early trials
ATLANTA – Potential once-daily male oral contraceptives have passed a first clinical hurdle, showing a degree of testosterone suppression that should be sufficient for a contraceptive effect without causing symptomatic hypogonadism, according to phase 1 study results to be presented at the annual meeting of the Endocrine Society.
Credit: Flickr/Marco Verch Professional Photographer/CC by 2.0
There are two pills in development and the studies so far suggest that both or a combination might be able to provide an acceptable balance of efficacy and tolerability, according to Tamar Jacobsohn, a researcher in the Contraceptive Development Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Bethesda, Md.
The two drugs evaluated in this study are dimethandrolone undecanoate (DMAU) and 11b-methyl-19-nortestosterone-17b-dodecylcarbonate (11b-MNTDC). Both are bifunctional prodrugs with androgenic and progestogenic effects. The prodrugs are designed to be cleaved after ingestion so that the active hormones are released over 24 hours, permitting once-daily dosing.
“As potent androgens, these steroids suppress gonadotropin secretion, leading to markedly decreased serum testosterone production,” explained Ms. Jacobsohn in an interview.
However, she noted that there is still a long way to go on this research path. While the phase 1 studies have shown tolerability, the biology involved in suppressing sperm production suggests that men would need to take these pills daily for about 3 months at the very beginning of contraceptive treatment, until adequate sperm suppression is achieved to prevent pregnancy.
“We are working toward a phase 2 trial that will include a contraceptive efficacy endpoint, but there are lots of steps to get there, including more early phase studies,” she noted.
“There is a huge unmet need in terms of male contraceptive methods,” said Arthi Thirumalai, MBBS, an endocrinologist and assistant professor of medicine at the University of Washington School of Medicine in Seattle.
Senior author of a 2020 review article on male contraception, Dr. Thirumalai said in an interview that prodrugs and other hormonal methods to lower testosterone and suppress sperm production are attractive because of convenience, efficacy, and reversibility,
“We hope that oral formulations can be used to address this need,” said Dr. Thirumalai, who has participated in several experimental and clinical studies of male contraception methods. She is, in fact, one of the many coauthors of the data presented by Ms. Jacobsohn.
Ms. Jacobsohn emphasized: “Development of an effective, reversible male contraceptive method will improve reproductive options for men and women, have a major impact on public health by decreasing unintended pregnancy, and allow men to have an increasingly active role in family planning.”
Phase 1 results with DMAU and MNTDC
The work that led to phase 1 studies suggested that each of the drugs — DMAU and MNTDC — might provide adequate hormone suppression to reduce sperm counts without inducing unacceptable symptoms of hypogonadism. To test this potential, dose-ranging phase 1 studies with an endpoint of testosterone suppression were conducted with each one.
In the two placebo-controlled phase 1a studies, which are to be presented in a poster on June 13, healthy male subjects were randomly assigned to two pills of active therapy, four pills of active therapy, or placebo. In the two studies combined, 39 subjects received DMAU, 30 received 11b-MNTDC, and 28 received placebo.
Efficacy was evaluated by measuring testosterone levels. Tolerability was largely based on patient questionnaires.
At the end of 7 days, testosterone levels remained at reference levels (400 to 600 ng/dL) in those who received placebo. The levels fell to less than 100 ng/dL in all subjects assigned to an active agent regardless of which agent or dose was used.
From day 7 to 28, there was less median suppression of testosterone on 200 mg than 400 mg daily (92.7 ng/dL vs. 49.6 ng/dL; P < .001), but both remained below the target of 100 ng/dL, Ms. Jacobsohn reported.
The difference in degree of testosterone suppression did not appear to influence tolerability.
Subjects on four vs. two daily pills “did not report a significant difference in general satisfaction or their willingness to use the pills in the future or recommend them to other men,” said Ms. Jacobson, presenting P values for these outcomes among subjects on active therapy relative to placebo that were not significant, ranging from 0.48 to 0.85.
Overall, there were no serious adverse events. Mild side effects associated with hypogonadism did occur, but “all resolved by the end of the study,” she said.
Zero sperm production is not the goal. Lowering it sufficiently is
Dr. Thirumalai said the need for a male contraceptive is strong. While condoms have a substantial failure rate, vasectomy is not reliably reversible even though the majority of men agree that the responsibility for preventing pregnancy should be shared, she said.
Dr. Thirumalai’s earlier review article found that clinical trials of hormonal suppression to provide male contraception have been conducted for at least 30 years. The challenge has been finding an effective therapy that is well tolerated.
Drugs that combine both androgenic and progestogenic activity might be the answer. By manipulating hormones that lower testosterone, sperm production is reduced without eliminating a man’s ability to ejaculate. Zero sperm production is not the goal, according to data in Dr. Thirumalai’s review article.
Rather, studies suggest that when ejaculate contains less than 1 million sperm per mL (levels typically range from 15 to 200 million sperm/mL), the antipregnancy efficacy is similar to that achieved with female oral contraceptives.
However, clinical trials to demonstrate that this can be achieved safely have yet to be conducted.
Ms. Jacobsohn said that sperm half-life is about 3 months. This means that patients would need to be on hormonal therapy for a period of about this duration before reliable contraception is achieved.
In other words, the efficacy endpoint used in this current study [of 28 days duration] does not ensure effective contraception, but Ms. Jacobsohn suggested this is nevertheless an important step forward in clinical development.
Ms. Jacobsohn and Dr. Thirumalai report no relevant financial relationships.
A version of this article first appeared on Medscape.com .
ATLANTA – Potential once-daily male oral contraceptives have passed a first clinical hurdle, showing a degree of testosterone suppression that should be sufficient for a contraceptive effect without causing symptomatic hypogonadism, according to phase 1 study results to be presented at the annual meeting of the Endocrine Society.
Credit: Flickr/Marco Verch Professional Photographer/CC by 2.0
There are two pills in development and the studies so far suggest that both or a combination might be able to provide an acceptable balance of efficacy and tolerability, according to Tamar Jacobsohn, a researcher in the Contraceptive Development Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Bethesda, Md.
The two drugs evaluated in this study are dimethandrolone undecanoate (DMAU) and 11b-methyl-19-nortestosterone-17b-dodecylcarbonate (11b-MNTDC). Both are bifunctional prodrugs with androgenic and progestogenic effects. The prodrugs are designed to be cleaved after ingestion so that the active hormones are released over 24 hours, permitting once-daily dosing.
“As potent androgens, these steroids suppress gonadotropin secretion, leading to markedly decreased serum testosterone production,” explained Ms. Jacobsohn in an interview.
However, she noted that there is still a long way to go on this research path. While the phase 1 studies have shown tolerability, the biology involved in suppressing sperm production suggests that men would need to take these pills daily for about 3 months at the very beginning of contraceptive treatment, until adequate sperm suppression is achieved to prevent pregnancy.
“We are working toward a phase 2 trial that will include a contraceptive efficacy endpoint, but there are lots of steps to get there, including more early phase studies,” she noted.
“There is a huge unmet need in terms of male contraceptive methods,” said Arthi Thirumalai, MBBS, an endocrinologist and assistant professor of medicine at the University of Washington School of Medicine in Seattle.
Senior author of a 2020 review article on male contraception, Dr. Thirumalai said in an interview that prodrugs and other hormonal methods to lower testosterone and suppress sperm production are attractive because of convenience, efficacy, and reversibility,
“We hope that oral formulations can be used to address this need,” said Dr. Thirumalai, who has participated in several experimental and clinical studies of male contraception methods. She is, in fact, one of the many coauthors of the data presented by Ms. Jacobsohn.
Ms. Jacobsohn emphasized: “Development of an effective, reversible male contraceptive method will improve reproductive options for men and women, have a major impact on public health by decreasing unintended pregnancy, and allow men to have an increasingly active role in family planning.”
Phase 1 results with DMAU and MNTDC
The work that led to phase 1 studies suggested that each of the drugs — DMAU and MNTDC — might provide adequate hormone suppression to reduce sperm counts without inducing unacceptable symptoms of hypogonadism. To test this potential, dose-ranging phase 1 studies with an endpoint of testosterone suppression were conducted with each one.
In the two placebo-controlled phase 1a studies, which are to be presented in a poster on June 13, healthy male subjects were randomly assigned to two pills of active therapy, four pills of active therapy, or placebo. In the two studies combined, 39 subjects received DMAU, 30 received 11b-MNTDC, and 28 received placebo.
Efficacy was evaluated by measuring testosterone levels. Tolerability was largely based on patient questionnaires.
At the end of 7 days, testosterone levels remained at reference levels (400 to 600 ng/dL) in those who received placebo. The levels fell to less than 100 ng/dL in all subjects assigned to an active agent regardless of which agent or dose was used.
From day 7 to 28, there was less median suppression of testosterone on 200 mg than 400 mg daily (92.7 ng/dL vs. 49.6 ng/dL; P < .001), but both remained below the target of 100 ng/dL, Ms. Jacobsohn reported.
The difference in degree of testosterone suppression did not appear to influence tolerability.
Subjects on four vs. two daily pills “did not report a significant difference in general satisfaction or their willingness to use the pills in the future or recommend them to other men,” said Ms. Jacobson, presenting P values for these outcomes among subjects on active therapy relative to placebo that were not significant, ranging from 0.48 to 0.85.
Overall, there were no serious adverse events. Mild side effects associated with hypogonadism did occur, but “all resolved by the end of the study,” she said.
Zero sperm production is not the goal. Lowering it sufficiently is
Dr. Thirumalai said the need for a male contraceptive is strong. While condoms have a substantial failure rate, vasectomy is not reliably reversible even though the majority of men agree that the responsibility for preventing pregnancy should be shared, she said.
Dr. Thirumalai’s earlier review article found that clinical trials of hormonal suppression to provide male contraception have been conducted for at least 30 years. The challenge has been finding an effective therapy that is well tolerated.
Drugs that combine both androgenic and progestogenic activity might be the answer. By manipulating hormones that lower testosterone, sperm production is reduced without eliminating a man’s ability to ejaculate. Zero sperm production is not the goal, according to data in Dr. Thirumalai’s review article.
Rather, studies suggest that when ejaculate contains less than 1 million sperm per mL (levels typically range from 15 to 200 million sperm/mL), the antipregnancy efficacy is similar to that achieved with female oral contraceptives.
However, clinical trials to demonstrate that this can be achieved safely have yet to be conducted.
Ms. Jacobsohn said that sperm half-life is about 3 months. This means that patients would need to be on hormonal therapy for a period of about this duration before reliable contraception is achieved.
In other words, the efficacy endpoint used in this current study [of 28 days duration] does not ensure effective contraception, but Ms. Jacobsohn suggested this is nevertheless an important step forward in clinical development.
Ms. Jacobsohn and Dr. Thirumalai report no relevant financial relationships.
A version of this article first appeared on Medscape.com .
ATLANTA – Potential once-daily male oral contraceptives have passed a first clinical hurdle, showing a degree of testosterone suppression that should be sufficient for a contraceptive effect without causing symptomatic hypogonadism, according to phase 1 study results to be presented at the annual meeting of the Endocrine Society.
Credit: Flickr/Marco Verch Professional Photographer/CC by 2.0
There are two pills in development and the studies so far suggest that both or a combination might be able to provide an acceptable balance of efficacy and tolerability, according to Tamar Jacobsohn, a researcher in the Contraceptive Development Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Bethesda, Md.
The two drugs evaluated in this study are dimethandrolone undecanoate (DMAU) and 11b-methyl-19-nortestosterone-17b-dodecylcarbonate (11b-MNTDC). Both are bifunctional prodrugs with androgenic and progestogenic effects. The prodrugs are designed to be cleaved after ingestion so that the active hormones are released over 24 hours, permitting once-daily dosing.
“As potent androgens, these steroids suppress gonadotropin secretion, leading to markedly decreased serum testosterone production,” explained Ms. Jacobsohn in an interview.
However, she noted that there is still a long way to go on this research path. While the phase 1 studies have shown tolerability, the biology involved in suppressing sperm production suggests that men would need to take these pills daily for about 3 months at the very beginning of contraceptive treatment, until adequate sperm suppression is achieved to prevent pregnancy.
“We are working toward a phase 2 trial that will include a contraceptive efficacy endpoint, but there are lots of steps to get there, including more early phase studies,” she noted.
“There is a huge unmet need in terms of male contraceptive methods,” said Arthi Thirumalai, MBBS, an endocrinologist and assistant professor of medicine at the University of Washington School of Medicine in Seattle.
Senior author of a 2020 review article on male contraception, Dr. Thirumalai said in an interview that prodrugs and other hormonal methods to lower testosterone and suppress sperm production are attractive because of convenience, efficacy, and reversibility,
“We hope that oral formulations can be used to address this need,” said Dr. Thirumalai, who has participated in several experimental and clinical studies of male contraception methods. She is, in fact, one of the many coauthors of the data presented by Ms. Jacobsohn.
Ms. Jacobsohn emphasized: “Development of an effective, reversible male contraceptive method will improve reproductive options for men and women, have a major impact on public health by decreasing unintended pregnancy, and allow men to have an increasingly active role in family planning.”
Phase 1 results with DMAU and MNTDC
The work that led to phase 1 studies suggested that each of the drugs — DMAU and MNTDC — might provide adequate hormone suppression to reduce sperm counts without inducing unacceptable symptoms of hypogonadism. To test this potential, dose-ranging phase 1 studies with an endpoint of testosterone suppression were conducted with each one.
In the two placebo-controlled phase 1a studies, which are to be presented in a poster on June 13, healthy male subjects were randomly assigned to two pills of active therapy, four pills of active therapy, or placebo. In the two studies combined, 39 subjects received DMAU, 30 received 11b-MNTDC, and 28 received placebo.
Efficacy was evaluated by measuring testosterone levels. Tolerability was largely based on patient questionnaires.
At the end of 7 days, testosterone levels remained at reference levels (400 to 600 ng/dL) in those who received placebo. The levels fell to less than 100 ng/dL in all subjects assigned to an active agent regardless of which agent or dose was used.
From day 7 to 28, there was less median suppression of testosterone on 200 mg than 400 mg daily (92.7 ng/dL vs. 49.6 ng/dL; P < .001), but both remained below the target of 100 ng/dL, Ms. Jacobsohn reported.
The difference in degree of testosterone suppression did not appear to influence tolerability.
Subjects on four vs. two daily pills “did not report a significant difference in general satisfaction or their willingness to use the pills in the future or recommend them to other men,” said Ms. Jacobson, presenting P values for these outcomes among subjects on active therapy relative to placebo that were not significant, ranging from 0.48 to 0.85.
Overall, there were no serious adverse events. Mild side effects associated with hypogonadism did occur, but “all resolved by the end of the study,” she said.
Zero sperm production is not the goal. Lowering it sufficiently is
Dr. Thirumalai said the need for a male contraceptive is strong. While condoms have a substantial failure rate, vasectomy is not reliably reversible even though the majority of men agree that the responsibility for preventing pregnancy should be shared, she said.
Dr. Thirumalai’s earlier review article found that clinical trials of hormonal suppression to provide male contraception have been conducted for at least 30 years. The challenge has been finding an effective therapy that is well tolerated.
Drugs that combine both androgenic and progestogenic activity might be the answer. By manipulating hormones that lower testosterone, sperm production is reduced without eliminating a man’s ability to ejaculate. Zero sperm production is not the goal, according to data in Dr. Thirumalai’s review article.
Rather, studies suggest that when ejaculate contains less than 1 million sperm per mL (levels typically range from 15 to 200 million sperm/mL), the antipregnancy efficacy is similar to that achieved with female oral contraceptives.
However, clinical trials to demonstrate that this can be achieved safely have yet to be conducted.
Ms. Jacobsohn said that sperm half-life is about 3 months. This means that patients would need to be on hormonal therapy for a period of about this duration before reliable contraception is achieved.
In other words, the efficacy endpoint used in this current study [of 28 days duration] does not ensure effective contraception, but Ms. Jacobsohn suggested this is nevertheless an important step forward in clinical development.
Ms. Jacobsohn and Dr. Thirumalai report no relevant financial relationships.
A version of this article first appeared on Medscape.com .
AT ENDO 2022