Urhausen A, Gabriel H H, Kindermann W
Institute of Sports and Preventive Medicine, University of Saarland, Saarbrücken, Germany.
Med Sci Sports Exerc. 1998 Mar;30(3):407-14. doi: 10.1097/00005768-199803000-00011.
The aim of the present prospective longitudinal study was to investigate the hormonal response in overtrained athletes at rest and during exercise consisting of a short-term exhaustive endurance test on a cycle ergometer at an intensity 10% above the individual anaerobic threshold. Over a period of 19+/-1 months, 17 male endurance athletes (cyclists and triathletes; age 23.4+/-1.6 yr; VO2max. 61.2+/-1.8 mL x min(-1) x kg(-1); means+/-SEM) were examined five times on two separate days under standardized conditions. Short-term overtraining states (OT, N=15) were primarily induced by an increase of frequency of high-intensive bouts of exercise or competitions without increase of the total amount of training. OT was compared with normal training states intraindividually (NS, N=62). During OT, the time to exhaustion of the exercise test was significantly decreased by 27% on average. At rest and during exercise, the concentrations in plasma and the nocturnal excretion in urine of free epinephrine and norepinephrine were not significantly changed during OT. At physical rest, the concentrations of (free) testosterone, cortisol, luteinizing hormone, follicle-stimulating hormone, adrenocorticotropic hormone, growth hormone, and insulin during OT were comparable with those during NS. A significantly (P < 0.025) lower maximal exercise-induced increase of the adrenocorticotropic hormone and growth hormone, as well as a trend for a decrease of cortisol (P=0.060) and insulin (P=0.036), was measured. The response of free catecholamines as well as the ergometric performance of an all-out 30-s test was unchanged. Serum urea, uric acid, ferritin, and activity of creatine kinase showed no differences between conditions. In conclusion, the results confirm the hypothesis of a hypothalamo-pituitary dysregulation during OT expressed by an impaired response of pituitary hormones to exhaustive short-endurance exercise.
本前瞻性纵向研究的目的是调查过度训练运动员在休息时以及进行运动(包括在自行车测力计上进行强度比个体无氧阈值高10%的短期力竭耐力测试)期间的激素反应。在19±1个月的时间里,17名男性耐力运动员(自行车运动员和铁人三项运动员;年龄23.4±1.6岁;最大摄氧量61.2±1.8 mL·min⁻¹·kg⁻¹;均值±标准误)在标准化条件下于两个不同日期接受了五次检查。短期过度训练状态(OT,n = 15)主要通过增加高强度运动或比赛的频率而不增加训练总量来诱导。OT状态与个体内的正常训练状态(NS,n = 62)进行比较。在OT期间,运动测试的力竭时间平均显著减少了27%。在休息时和运动期间,OT期间血浆中游离肾上腺素和去甲肾上腺素的浓度以及尿液中的夜间排泄量没有显著变化。在身体休息时,OT期间(游离)睾酮、皮质醇、黄体生成素、卵泡刺激素、促肾上腺皮质激素、生长激素和胰岛素的浓度与NS期间相当。测量到促肾上腺皮质激素和生长激素的最大运动诱导增加显著(P < 0.025)降低,以及皮质醇(P = 0.060)和胰岛素(P = 0.036)有下降趋势。游离儿茶酚胺的反应以及全力30秒测试的测力计表现没有变化。血清尿素、尿酸、铁蛋白和肌酸激酶活性在不同条件之间没有差异。总之,结果证实了在OT期间下丘脑 - 垂体调节异常的假设,表现为垂体激素对力竭性短耐力运动的反应受损。
