Recovery of male reproductive endocrine function after ceasing prolonged testosterone undecanoate injections.

CONTEXT: The time course of male reproductive hormone recovery after stopping injectable testosterone undecanoate (TU) treatment is not known. OBJECTIVE: The aim of this study was to investigate the rate, extent, and determinants of reproductive hormone recovery over 12 months after stopping TU injections. MATERIALS AND METHODS: Men (n = 303) with glucose intolerance but without pathologic hypogonadism who completed a 2-year placebo (P)-controlled randomized clinical trial of TU treatment were recruited for further 12 months while remaining blinded to treatment. Sex steroids (testosterone (T), dihydrotestosterone, oestradiol, oestrone) by liquid chromatography-mass sprectometry, luteinizing hormone (LH), follicle-stimulating hormone (FSH) and sex hormone-binding globulin (SHBG) by immunoassays and sexual function questionnaires (Psychosexual Diary Questionnaire, International Index of Erectile Function, and short form survey (SF-12)) were measured at entry (3 months after the last injection) and 6, 12, 18, 24, 40, and 52 weeks later. RESULTS: In the nested cohort of TU-treated men, serum T was initially higher but declined at 12 weeks remaining stable thereafter with serum T and SHBG at 11 and 13%, respectively, lower than P-treated men. Similarly, both questionnaires showed initial carry-over higher scores in T-treated men but after 18 weeks showed no difference between T- and P-treated men. Initially, fully suppressed serum LH and FSH recovered slowly towards the participant's own pre-treatment baseline over 12 months since the last injection. CONCLUSIONS: After stopping 2 years of 1000 mg injectable TU treatment, full reproductive hormone recovery is slow and progressive over 15 months since the last testosterone injection but may take longer than 12 months to be complete. Persistent proportionate reduction in serum SHBG and T reflects lasting exogenous T effects on hepatic SHBG secretion rather than androgen deficiency.

Recovery from hypogonadism and male health in adult allogeneic stem cell transplantation.

OBJECTIVE: There is a substantial lack of data about men`s health in adult allogeneic stem cell transplantation. METHODS: We conducted prospective unicentric non-interventional clinical study on men's health with a follow-up time of 1 year. RESULTS: Between 11/2013 and 12/2015, we were able to include 27 patients. AML was the most frequent underlying disease (25.9%), and we mainly used intermediate intense conditioning protocols (77.8%). Erectile dysfunction, loss of libido, and loss of efficiency were the most frequent symptoms of hypogonadism. At inclusion of the study, hypogonadism was already frequent. Primary hypogonadism was found in eight cases (29.6%) and secondary hypogonadism in one case (3.7%). We did not observe hypogonadism 6 months after inpatient treatment anymore, but there might still be the impairment of fertility because of still rising FSH levels at the end of the observation period. There were no significant associations of hypogonadism with myeloablative conditioning or kind of donor. Interestingly, there is a significant association with nicotine abuse (P = .049). CONCLUSIONS: On the whole, male hypogonadism was found in one-third of the patients who underwent allogeneic stem cell transplantation.

Kisspeptin Responsiveness Signals Emergence of Reproductive Endocrine Activity: Implications for Human Puberty.

CONTEXT: Some patients with idiopathic hypogonadotropic hypogonadism (IHH) undergo spontaneous activation of their hypothalamic-pituitary-gonadal axis resulting in normalization of steroidogenesis and/or gametogenesis, a phenomenon termed reversal. OBJECTIVE: To assess the responsiveness of the GnRH neuronal network to exogenous kisspeptin administration in IHH patients who have undergone reversal. PARTICIPANTS: Six men with congenital IHH and evidence for reversal. INTERVENTION: Subjects underwent q10 min blood sampling to measure GnRH-induced LH secretion at baseline and in response to iv boluses of kisspeptin (0.24-2.4 nmol/kg) and GnRH (75 ng/kg). RESULTS: Individuals with sustained reversal of their hypogonadotropism (spontaneous LH pulses) responded to exogenous kisspeptin with a GnRH-induced LH pulse. Individuals who had reversal but then subsequently suffered relapse of their IHH (loss of spontaneous LH pulsatility) did not respond to kisspeptin. CONCLUSIONS: The ability of kisspeptin to stimulate a GnRH-induced LH pulse correlates with the presence of endogenous LH pulses. These data suggest that reversal of hypogonadotropism, and by extension sexual maturation, may be due to the acquisition of kisspeptin responsiveness.

Development of and Recovery from Secondary Hypogonadism in Aging Men: Prospective Results from the EMAS.

CONTEXT: Secondary hypogonadism is common in aging men; its natural history and predisposing factors are unclear. OBJECTIVES: The objectives were 1) to identify factors that predispose eugonadal men (T ≥ 10.5 nmol/L) to develop biochemical secondary hypogonadism (T < 10.5 nmol/L; LH ≤ 9.4 U/L) and secondary hypogonadal men to recover to eugonadism; and 2) to characterize clinical features associated with these transitions. DESIGN: The study was designed as a prospective observational general population cohort survey. SETTING: The setting was clinical research centers. PARTICIPANTS: The participants were 3369 community-dwelling men aged 40-79 years in eight European centers. INTERVENTION: Interventions included observational follow-up of 4.3 years. MAIN OUTCOME MEASURE: Subjects were categorized according to change/no change in biochemical gonadal status during follow-up as follows: persistent eugonadal (n = 1909), incident secondary hypogonadal (n = 140), persistent secondary hypogonadal (n = 123), and recovered from secondary hypogonadism to eugonadism (n = 96). Baseline predictors and changes in clinical features associated with incident secondary hypogonadism and recovery from secondary hypogonadism were analyzed by regression models. RESULTS: The incidence of secondary hypogonadism was 155.9/10 000/year, whereas 42.9% of men with secondary hypogonadism recovered to eugonadism. Incident secondary hypogonadism was predicted by obesity (body mass index ≥ 30 kg/m(2); odds ratio [OR] = 2.86 [95% confidence interval, 1.67; 4.90]; P < .0001), weight gain (OR = 1.79 [1.15; 2.80]; P = .011), and increased waist circumference (OR = 1.73 [1.07; 2.81], P = .026; and OR = 2.64 [1.66; 4.21], P < .0001, for waist circumference 94-102 and ≥102 cm, respectively). Incident secondary hypogonadal men experienced new/worsening sexual symptoms (low libido, erectile dysfunction, and infrequent spontaneous erections). Recovery from secondary hypogonadism was predicted by nonobesity (OR = 2.28 [1.21; 4.31]; P = .011), weight loss (OR = 2.24 [1.04; 4.85]; P = .042), normal waist circumference (OR = 1.93 [1.01; 3.70]; P = .048), younger age (< 60 y; OR = 2.32 [1.12; 4.82]; P = .024), and higher education (OR = 2.11 [1.05; 4.26]; P = .037), but symptoms did not show significant concurrent improvement. CONCLUSION: Obesity-related metabolic and lifestyle factors predispose older men to the development of secondary hypogonadism, which is frequently reversible with weight loss.

Hipogonadismo Masculino: Un Enfoque Sencillo y Práctico / Male Hipogonadism: A Simple and Practical Approach

El hipogonadismo masculino representa una diminución de la función testicular con una baja en la producción de testosterona e infertilidad. Puede ser ocasionado por un problema intrínseco de los testículos (hipogonadismo primario), una falla del eje hipotálamo-hipofisiario (hipogonadismo secundario) o una respuesta disminuída o ausente de los órganos blanco a los andrógenos (resistencia androgénica). Los síntomas del hipogonadismo incluyen la caída del vello corporal, disminución de la función sexual y cambios de la voz. Dependiendo de la edad de aparición puede presentarse atrofia testicular, hábito eunocoide y ginecomastia. A largo plazo puede presentarse osteoporosis. El diagnóstico se sospecha clínicamente y se establece con la demostración de concentraciones bajas de testosterona sanguínea. Si existe un aumento concomitante de las gonadotropinas circulantes, Hormona Folículo Estimulante y Hormona Luteinizante, se habla de un hipogonadismo primario; pero si ambas están disminuidas el hipogonadismo es secundario. Existen diferentes formas de testosterona para el tratamiento de los pacientes con hipogonadismo; la más común, es la testosterona de depósito (enantato o cipionato) la cual se inyecta por vía intramuscular. La terapia actual consiste en la administración de testosterona por vía transdérmica, no escrotal, obteniéndose una concentración normal de testosterona con preservación del ritmo cardíaco

Male pituitary-gonadal dysfunction following severe traumatic brain injury.

A prospective study was conducted to evaluate pituitary-gonadal function and correlated parameters in 21 adult males with severe traumatic brain injury during acute inpatient rehabilitation. Serum concentrations of testosterone, follicle-stimulating hormone (FSH) and luteinizing hormone (LH) were measured within 1 week after the patient was transferred to the rehabilitation unit. Fourteen of 21 patients (67%) had abnormally low testosterone levels. One of 21 patients had a subnormal FSH level and one had a supranormal level. Three of 21 patients had subnormal LH levels and two had supranormal levels. There was no correlation between the severity of brain injury and the levels of testosterone, FSH or LH. The presence of increased intracranial pressure, hypoxia, skull fracture or abnormal CT findings had no significant influence on the levels of testosterone, FSH or LH. The high incidence of hypotestosteronaemia in survivors of severe traumatic brain injury is seemingly more related to accompanying physiological stressors rather than structural or neurochemical disruption of the hypothalamic-pituitary-gonadal axis. Early identification is important relative to the potential neuromedical and rehabilitative consequences of prolonged hypotestosteronaemia in this patient population.