Objective: It is yet unknown to which degree young subfertile men present with signs of hypogonadism and whether low testosterone concentration, like in older men, is associated with risk of osteoporosis and metabolic derangements in those subjects. The objective was therefore to investigate the prevalence of hypogonadism and its association with metabolic and bone parameters in young subfertile men.
Design: Cross-sectional case-control study.
Patients: Men from infertile couples (n = 192); 18-50 years; sperm concentration <20 × 10(6) /ml and population-based age-matched controls (n = 199).
Measurements: Blood sampling, anthropometrics, blood pressure, ankle-brachial index and assessment by dual-energy X-ray absorptiometry were undertaken. Odds ratios of biochemical hypogonadism (total testosterone <8·0 nmol/l and/or luteinizing hormone ≥8·6 IU/l and/or ongoing androgen replacement therapy) were calculated. Serum concentrations of sex hormones, lipids, glucose, insulin and HbA1c were assessed and bone mineral density (BMD) evaluated.
Results: Compared to controls, the risk of hypogonadism was increased among subfertile men (OR 10; 95% CI, 5·1, 22), being highest in those with nonobstructive azoospermia. Hypogonadal men had higher HbA1c concentration (mean diff. 2·8 mmol/mol; 95% CI, 0·64, 4·9; P = 0·011) and lower lumbar spine BMD (mean diff. 0·05 g/cm(2) ; 95% CI, 0·01, 0·10; P = 0·032) compared to eugonadal subfertile men, even more pronounced in subfertile men with subnormal testosterone levels.
Conclusion: Young subfertile men have 10 times increased OR of hypogonadism, which is linked to increased HbA1c and decreased bone mineralization. Endocrine assessment and, if needed, measures to prevent metabolic sequelae and osteoporosis should be included in the routine management of men from infertile couples.
© 2016 John Wiley & Sons Ltd.