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Low bone mineral density was common in a group of transgender women receiving hormone therapy, according to findings from a recent Brazilian study.

“Lumbar spine density was lower than in reference men but similar to that of reference women,” said Tayane Muniz Fighera, MD, speaking at the annual meeting of the Endocrine Society.

Lower lumbar spine density in transgender women was associated with lower appendicular lean mass and higher total fat mass, with correlation coefficients of 0.327 and 0.334, respectively (P = .0001 for both).

Dr. Fighera and her colleagues looked at the independent contribution of age, estradiol level, appendicular lean mass, and fat mass to bone mineral density (BMD) in the transgender patients, using linear regression analysis. Total fat mass and appendicular lean mass were both independent predictors of bone mineral density (P = .001 and P = .022, respectively). For femur BMD, age, and total fat mass were predictors (P = .001 and P = .000, respectively).

The study aimed to assess bone mineral density as well as other aspects of body composition within a cohort of transgender women initiating hormone therapy in order to determine how estrogen therapy affected BMD and assess the prevalence of low bone mass among this population.

The hypothesis, said Dr. Fighera, was that hormone therapy for transgender women might decrease muscle mass and increase fat mass, “leading to less bone surface strain and smaller bone size over time,” said Dr. Fighera, of the Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.

Previous work has shown conflicting results, she said. “While some studies report that estrogen therapy is able to increase bone mass, others have observed no difference in BMD” despite the use of hormone therapy. The studies showing an association between estrogen therapy and decreased bone mass were those that followed patients for longer periods of time – 2 years or longer, she said.

 

 


Dr. Fighera explained that in Brazil, individuals with gender dysphoria have free access to hormone therapy and gender-affirming surgery through the public health service.

A total of 142 transgender women enrolled in the study, conducted at outpatient endocrine clinics for transgender people in Porto Alegre, Brazil. The clinics’ standardized hormone therapy protocol used daily estradiol valerate 1-4 mg, daily conjugated equine estrogen 0.625-2.5 mg, or daily transdermal 17 beta estradiol 0.5-2 mg. The estrogen therapy was accompanied by either spironolactone 50-150 mg per day, or cyproterone acetate 50-100 mg per day.

For comparison, the investigators enrolled 22 men and 17 women aged 18-40 years. All participants received a dual-energy x-ray absorptiometry (DXA) scan 3 months after those in the transgender arm began hormone therapy, and a second scan at 12 months. For the first year, participants were seen for clinical evaluation and lab studies every 3 months; they were seen every 6 months thereafter.

Although ranges were wide, estradiol levels in transgender women were, on average, approximately intermediate between the female and male control values. Total testosterone for transgender women was an average 1.17 nmol/L, closer to female (0.79 nmol/L) than male (16.39 nmol/L) values.
 

 


In a subgroup of 46 participants, Dr. Fighera and her colleagues also examined change over time for transgender women who remained on hormone therapy. Though they did find that appendicular lean mass declined and total fat mass increased from baseline, these changes in body composition were not associated with significant decreases in any BMD measurement when the DXA scan was repeated at 31 months.

Participants’ mean age was 33.7 years, and the mean BMI was 25.4 kg/m2. One-third of participants had already undergone gender-affirming surgery , and most (86.6%) had some previous exposure to hormone therapy. Almost all (96%) of study participants were white.

At 18%, “the prevalence of low bone mass for age was fairly high in this sample of [transgender women] from southern Brazil,” said Dr. Fighera. She called for more work to track change over time in hormone therapy–related bone loss for transgender women. “Until then, monitoring of bone mass should be considered in this population; nonpharmacological lifestyle-related strategies for preventing bone loss may benefit transgender women” who receive long-term hormone therapy, she said.

None of the study authors had disclosures to report.
 

SOURCE: Fighera T et al. ENDO 2018, Abstract OR 25-5.

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Low bone mineral density was common in a group of transgender women receiving hormone therapy, according to findings from a recent Brazilian study.

“Lumbar spine density was lower than in reference men but similar to that of reference women,” said Tayane Muniz Fighera, MD, speaking at the annual meeting of the Endocrine Society.

Lower lumbar spine density in transgender women was associated with lower appendicular lean mass and higher total fat mass, with correlation coefficients of 0.327 and 0.334, respectively (P = .0001 for both).

Dr. Fighera and her colleagues looked at the independent contribution of age, estradiol level, appendicular lean mass, and fat mass to bone mineral density (BMD) in the transgender patients, using linear regression analysis. Total fat mass and appendicular lean mass were both independent predictors of bone mineral density (P = .001 and P = .022, respectively). For femur BMD, age, and total fat mass were predictors (P = .001 and P = .000, respectively).

The study aimed to assess bone mineral density as well as other aspects of body composition within a cohort of transgender women initiating hormone therapy in order to determine how estrogen therapy affected BMD and assess the prevalence of low bone mass among this population.

The hypothesis, said Dr. Fighera, was that hormone therapy for transgender women might decrease muscle mass and increase fat mass, “leading to less bone surface strain and smaller bone size over time,” said Dr. Fighera, of the Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.

Previous work has shown conflicting results, she said. “While some studies report that estrogen therapy is able to increase bone mass, others have observed no difference in BMD” despite the use of hormone therapy. The studies showing an association between estrogen therapy and decreased bone mass were those that followed patients for longer periods of time – 2 years or longer, she said.

 

 


Dr. Fighera explained that in Brazil, individuals with gender dysphoria have free access to hormone therapy and gender-affirming surgery through the public health service.

A total of 142 transgender women enrolled in the study, conducted at outpatient endocrine clinics for transgender people in Porto Alegre, Brazil. The clinics’ standardized hormone therapy protocol used daily estradiol valerate 1-4 mg, daily conjugated equine estrogen 0.625-2.5 mg, or daily transdermal 17 beta estradiol 0.5-2 mg. The estrogen therapy was accompanied by either spironolactone 50-150 mg per day, or cyproterone acetate 50-100 mg per day.

For comparison, the investigators enrolled 22 men and 17 women aged 18-40 years. All participants received a dual-energy x-ray absorptiometry (DXA) scan 3 months after those in the transgender arm began hormone therapy, and a second scan at 12 months. For the first year, participants were seen for clinical evaluation and lab studies every 3 months; they were seen every 6 months thereafter.

Although ranges were wide, estradiol levels in transgender women were, on average, approximately intermediate between the female and male control values. Total testosterone for transgender women was an average 1.17 nmol/L, closer to female (0.79 nmol/L) than male (16.39 nmol/L) values.
 

 


In a subgroup of 46 participants, Dr. Fighera and her colleagues also examined change over time for transgender women who remained on hormone therapy. Though they did find that appendicular lean mass declined and total fat mass increased from baseline, these changes in body composition were not associated with significant decreases in any BMD measurement when the DXA scan was repeated at 31 months.

Participants’ mean age was 33.7 years, and the mean BMI was 25.4 kg/m2. One-third of participants had already undergone gender-affirming surgery , and most (86.6%) had some previous exposure to hormone therapy. Almost all (96%) of study participants were white.

At 18%, “the prevalence of low bone mass for age was fairly high in this sample of [transgender women] from southern Brazil,” said Dr. Fighera. She called for more work to track change over time in hormone therapy–related bone loss for transgender women. “Until then, monitoring of bone mass should be considered in this population; nonpharmacological lifestyle-related strategies for preventing bone loss may benefit transgender women” who receive long-term hormone therapy, she said.

None of the study authors had disclosures to report.
 

SOURCE: Fighera T et al. ENDO 2018, Abstract OR 25-5.

 

Low bone mineral density was common in a group of transgender women receiving hormone therapy, according to findings from a recent Brazilian study.

“Lumbar spine density was lower than in reference men but similar to that of reference women,” said Tayane Muniz Fighera, MD, speaking at the annual meeting of the Endocrine Society.

Lower lumbar spine density in transgender women was associated with lower appendicular lean mass and higher total fat mass, with correlation coefficients of 0.327 and 0.334, respectively (P = .0001 for both).

Dr. Fighera and her colleagues looked at the independent contribution of age, estradiol level, appendicular lean mass, and fat mass to bone mineral density (BMD) in the transgender patients, using linear regression analysis. Total fat mass and appendicular lean mass were both independent predictors of bone mineral density (P = .001 and P = .022, respectively). For femur BMD, age, and total fat mass were predictors (P = .001 and P = .000, respectively).

The study aimed to assess bone mineral density as well as other aspects of body composition within a cohort of transgender women initiating hormone therapy in order to determine how estrogen therapy affected BMD and assess the prevalence of low bone mass among this population.

The hypothesis, said Dr. Fighera, was that hormone therapy for transgender women might decrease muscle mass and increase fat mass, “leading to less bone surface strain and smaller bone size over time,” said Dr. Fighera, of the Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.

Previous work has shown conflicting results, she said. “While some studies report that estrogen therapy is able to increase bone mass, others have observed no difference in BMD” despite the use of hormone therapy. The studies showing an association between estrogen therapy and decreased bone mass were those that followed patients for longer periods of time – 2 years or longer, she said.

 

 


Dr. Fighera explained that in Brazil, individuals with gender dysphoria have free access to hormone therapy and gender-affirming surgery through the public health service.

A total of 142 transgender women enrolled in the study, conducted at outpatient endocrine clinics for transgender people in Porto Alegre, Brazil. The clinics’ standardized hormone therapy protocol used daily estradiol valerate 1-4 mg, daily conjugated equine estrogen 0.625-2.5 mg, or daily transdermal 17 beta estradiol 0.5-2 mg. The estrogen therapy was accompanied by either spironolactone 50-150 mg per day, or cyproterone acetate 50-100 mg per day.

For comparison, the investigators enrolled 22 men and 17 women aged 18-40 years. All participants received a dual-energy x-ray absorptiometry (DXA) scan 3 months after those in the transgender arm began hormone therapy, and a second scan at 12 months. For the first year, participants were seen for clinical evaluation and lab studies every 3 months; they were seen every 6 months thereafter.

Although ranges were wide, estradiol levels in transgender women were, on average, approximately intermediate between the female and male control values. Total testosterone for transgender women was an average 1.17 nmol/L, closer to female (0.79 nmol/L) than male (16.39 nmol/L) values.
 

 


In a subgroup of 46 participants, Dr. Fighera and her colleagues also examined change over time for transgender women who remained on hormone therapy. Though they did find that appendicular lean mass declined and total fat mass increased from baseline, these changes in body composition were not associated with significant decreases in any BMD measurement when the DXA scan was repeated at 31 months.

Participants’ mean age was 33.7 years, and the mean BMI was 25.4 kg/m2. One-third of participants had already undergone gender-affirming surgery , and most (86.6%) had some previous exposure to hormone therapy. Almost all (96%) of study participants were white.

At 18%, “the prevalence of low bone mass for age was fairly high in this sample of [transgender women] from southern Brazil,” said Dr. Fighera. She called for more work to track change over time in hormone therapy–related bone loss for transgender women. “Until then, monitoring of bone mass should be considered in this population; nonpharmacological lifestyle-related strategies for preventing bone loss may benefit transgender women” who receive long-term hormone therapy, she said.

None of the study authors had disclosures to report.
 

SOURCE: Fighera T et al. ENDO 2018, Abstract OR 25-5.

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Key clinical point: Transgender women on hormone therapy have bone mass more similar to women than men.

Major finding: Lower lumbar spine density was associated with higher total fat mass (P = .001).

Study details: Study of 142 transgender women receiving hormone therapy, tracked over time and compared with 22 men and 17 women for reference.

Disclosures: The study was sponsored by the Brazilian government. The authors reported that they have no conflicts of interest.

Source: Fighera T et al. ENDO 2018, Abstract OR 25-5.

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