Testosterone increases bone mineral density in female‐to‐male transsexuals: a case series of 15 subjects

Turner, Adrian K.; Chen, Thomas; Barber, Tom W.; Malabanan, Alan O.; Holick, Michael F.; Tangpricha, Vin

doi:10.1111/j.1365-2265.2004.02125.x

Cited by 73 publications

(56 citation statements)

References 45 publications

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“…However, not all studies in trans men documented higher bone resorption (11,19,20). Furthermore, our observations on areal bone parameters correspond with previous research reporting a preservation of aBMD during the first years of testosterone treatment (11,12,13,21,22) as well as after a longer exposure time and SRS (up to 10 years) in trans men (19,20,23). Some studies even reported a higher aBMD at cortical sites (femoral neck (9, 21), wholebody and tibial diaphysis (20)) and cortical thickness (iliac crest (24)) as well as greater bone size (larger periosteal and endosteal circumference of the radius) (9) in trans men compared with control women.…”

Section: Discussionsupporting

confidence: 81%

Body composition, bone turnover, and bone mass in trans men during testosterone treatment: 1-year follow-up data from a prospective case–controlled study (ENIGI)

Caenegem

Wierckx

Taes

et al. 2015

European Journal of Endocrinology

125

106

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Purpose: To assess the evolution of body composition and bone metabolism in trans men during the first year of cross-sex hormonal therapy. Methods: In a prospective controlled study, we included 23 trans men (female-to-male trans persons) and 23 age-matched control women. In both groups, we examined grip strength (hand dynamometer), biochemical markers of bone turnover (C-terminal telopeptides of type 1 collagen (CTX) and procollagen 1 aminoterminal propeptide (P1NP)), total body fat and lean mass, and areal bone mineral density (aBMD) by dual-X-ray absorptiometry (DXA) and fat and muscle area at the forearm and calf, bone geometry, and volumetric bone mineral density (vBMD) by peripheral quantitative computed tomography (pQCT), before treatment and after 1 year of treatment with undecanoate (1000 mg i.m./12 weeks). Results: Before hormonal treatment, trans men had similar bone and body composition compared with control women. Testosterone treatment induced in trans men a gain in muscle mass (C10.4%) and strength and loss of fat mass (K9.7%) (all P!0.001) and increased the levels of P1NP and CTX (both P!0.01). Areal and volumetric bone parameters remained largely unchanged apart from a small increase in trabecular vBMD at the distal radius and in BMD at the total hip in trans men (PZ0.036 and PZ0.001 respectively). None of these changes were observed in the control group. Conclusions: Short-term testosterone treatment in trans men increased muscle mass and bone turnover. The latter may rather reflect an anabolic effect of testosterone treatment rather than bone loss.

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Section: Discussionsupporting

confidence: 81%

Body composition, bone turnover, and bone mass in trans men during testosterone treatment: 1-year follow-up data from a prospective case–controlled study (ENIGI)

Caenegem

Wierckx

Taes

et al. 2015

European Journal of Endocrinology

125

106

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“…However, higher-than-replacement testosterone administration has been shown to prevent hypogonadal bone loss in animal models (7,8,47) and to enhance BMD in hypogonadal elderly men (2). Likewise, testosterone administration prevents ovariectomy/hysterectomyinduced bone mineral deficits in humans (25,33,39,45,52) and animals (47) and elevates BMD in androgen-deficient females (30). In the present study, we report what appears to be the first-ever analyses of the sex hormone (i.e., testosterone, Fig.…”

Section: Discussionmentioning

confidence: 61%

“…At least one study has reported that slightly-higher-than-replacement testosterone administration effectively reverses BMD loss in hypogonadal elderly men (2). Moreover, several studies suggest that supraphysiogical testosterone administration to transsexuals prevents the bone loss associated with combined ovariectomy/hysterectomy and thus the near-complete ablation of gonadally derived estrogen (25,33,45,52). Overall, supraphysiological testosterone administration may be capable of preventing androgen deficiency-related bone loss; however, the sex-specific skeletal responses following testosterone administration require clarification (26,59).…”

mentioning

confidence: 99%

Supraphysiological testosterone enanthate administration prevents bone loss and augments bone strength in gonadectomized male and female rats

Yarrow

Conover²,

Purandare³

et al. 2008

American Journal of Physiology-Endocrinology and Metabolism

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Yarrow JF, Conover CF, Purandare AV, Bhakta AM, Zheng N, Conrad B, Altman MK, Franz SE, Wronski TJ, Borst SE. Supraphysiological testosterone enanthate administration prevents bone loss and augments bone strength in gonadectomized male and female rats. Am J Physiol Endocrinol Metab 295: E1213-E1222, 2008. First published September 9, 2008 doi:10.1152/ajpendo.90640.2008.-Highdose testosterone enanthate (TE) may prevent hypogonadism-induced osteopenia. For this study, 3-mo-old male and female Fisher SAS rats underwent sham surgery, gonadectomy (GX), or GX plus 28 days TE administration (7.0 mg/wk). GX reduced serum sex hormones (i.e., testosterone, dihydrotestosterone, and estradiol) (P Ͻ 0.05) in both sexes and bone concentrations of testosterone (males only), and estradiol (females only). GX also elevated urine deoxypyridinoline/ creatinine in both sexes and serum osteocalcin (females only), findings that are consistent with high-turnover osteopenia. GX reduced cancellous bone volume (CBV) and increased osteoid surfaces in tibia of both sexes. GX males also experienced reduced trabecular number and width and increased trabecular separation, whereas GX females experienced increased osteoblast and osteoid surfaces. Bone biomechanical characteristics remained unaffected by GX, except that femoral stiffness was reduced in females. In contrast, TE administration to GX rats elevated serum and bone androgens to supraphysiological concentrations in both sexes but altered neither serum nor bone estradiol in males. Additionally, TE did not prevent GX-induced reductions in serum or bone estradiol in females. TE also reduced markers of high-turnover osteopenia in both sexes. In males, TE prevented GX-induced changes in trabecular number and separation, CBV, and osteoid surfaces while diminishing osteoblast and osteoclast surfaces; however, these changes were not fully prevented in females. In both sexes, TE increased femoral length and femoral maximal strength to above that of Sham and GX animals while preventing the loss of femoral stiffness in females. In conclusion, TE administration appears protective of cancellous bone in male rats and augments cortical bone strength in both sexes.androgen; osteoblast; osteoclast; osteoporosis; osteopenia ANDROGENIC [e.g., testosterone and dihydrotestosterone (DHT)] and estrogenic (e.g., estradiol) hormones influence skeletal development and maintenance in both sexes (11,54). In males (16, 48) and females (31), androgen deficiency is associated with reduced bone mineral density (BMD), which reduces skeletal strength and increases fracture risk. Administration of testosterone at a physiological replacement dose appears only modestly effective in improving BMD in hypogonadal males (44) and perhaps hypopituitaric (i.e., androgen-deficient) females (30). However, testosterone exerts dose-dependent anabolic effects on bone (55, 58) and muscle (5, 6), suggesting that administration of higher-than-replacement (supraphysiological) testosterone may be required to completely prevent hypogonadal ...

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“…BsmI and TaqI carriers experienced impairments in memory and attention--domains most vulnerable to age related deterioration. Interestingly, the haplotype associated with better cognitive performance, ApaI in haplotype 1 (baT), is the same haplotype associated with increased risk of fractures (Uitterlinden, Pols et al 1996;Turner, Chen et al 2004;Uitterlinden, Fang et al 2004;Becker, Eyles et al 2005). Calcium concentrations did not vary across the phenotypes and suggest that vitamin D may be neuroprotective beyond its role in calcium regulation.…”

Section: Vitamin D and Neuronal Calcium Regulationmentioning

confidence: 99%

Vitamin D and neurocognitive dysfunction: Preventing “D”ecline?

Buell

Dawson‐Hughes

2008

Molecular Aspects of Medicine

308

222

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Testosterone increases bone mineral density in female‐to‐male transsexuals: a case series of 15 subjects

Cited by 73 publications

References 45 publications

Body composition, bone turnover, and bone mass in trans men during testosterone treatment: 1-year follow-up data from a prospective case–controlled study (ENIGI)

Body composition, bone turnover, and bone mass in trans men during testosterone treatment: 1-year follow-up data from a prospective case–controlled study (ENIGI)

Supraphysiological testosterone enanthate administration prevents bone loss and augments bone strength in gonadectomized male and female rats

Vitamin D and neurocognitive dysfunction: Preventing “D”ecline?

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