42 research outputs found
Female reproductive, adrenal and metabolic changes during an Antarctic traverse
Purpose To explore the effects of the first all-female transantarctic expedition on hormonal axes pertinent to reproductive and metabolic function.
Methods Six females (age, 28â36 yr; body mass index, 24.2 ± 0.97 kg·mâ2) hauled 80-kg sledges 1700 km in 61 d. Estimated average energy intake was 20.8 ± 0.1 MJ·dâ1 (4970 ± 25 kcal·dâ1). Whole and regional body composition was measured by dual-energy x-ray absorptiometry 1 and 2 months before and 15 d after, the expedition. Body fat was also estimated by skinfold and bioimpedance immediately before and after the expedition. Basal metabolic and endocrine blood markers and, after 0.25 mg dexamethasone suppression, 1-h 10-ÎŒg gonadorelin and 1.0 ÎŒg adrenocortiocotrophin-(1â24) tests were completed, 39â38 d preexpedition and 4 to 5 d and 15 to 16 d postexpedition. Cortisol was assessed in hair (monthly average concentrations) and saliva (five-point day curves and two-point diurnal sampling).
Results Average body mass loss was 9.37 ± 2.31 kg (P < 0.0001), comprising fat mass only; total lean mass was maintained. Basal sex steroids, corticosteroids, and metabolic markers were largely unaffected by the expedition except leptin, which decreased during the expedition and recovered after 15 d, a proportionately greater change than body fat. Luteinizing hormone reactivity was suppressed before and during the expedition, but recovered after 15 d, whereas follicle-stimulating hormone did not change during or after the expedition. Cortisol reactivity did not change during or after the expedition. Basal (suppressed) cortisol was 73.25 ± 45.23 mmol·Lâ1 before, 61.66 ± 33.11 mmol·Lâ1 5 d postexpedition and 54.43 ± 28.60 mmol·Lâ1 16 d postexpedition (P = 0.7). Hair cortisol was elevated during the expedition.
Conclusions Maintenance of reproductive and hypothalamic-pituitary-adrenal axis function in women after an extreme physical endeavor, despite energy deficiency, suggests high female biological capacity for extreme endurance exercise