体力活动女性的月经不规律和能量缺乏:胃饥饿素、PYY和脂肪细胞因子的作用。

Medicine and sport science Pub Date : 2010-01-01 Epub Date: 2010-10-14 DOI:10.1159/000321974
Jennifer L Scheid, Mary Jane De Souza
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引用次数: 42

摘要

在从事体育活动的妇女和运动员中,经常观察到月经周期不规律,这些体育活动从娱乐到竞技运动训练都有。此外,这种不规律被随意地与能量缺乏联系在一起,即热量摄入不足以用于运动能量消耗,从而抑制生长和繁殖。在功能性下丘脑闭经(FHA)的运动女性中观察到与慢性能量缺乏相一致的适应性,包括静息能量消耗和总三碘甲状腺原氨酸的减少。肠道肽和脂肪细胞因子在患有FHA的运动女性中似乎也发生了改变,并被假设与FHA的病因有关。患有FHA的女性运动时胃饥饿素浓度升高。有趣的是,空腹胃饥饿素(一种供氧肽)在FHA患者中升高,而PYY(一种供氧肽)在神经性厌食症患者和FHA患者中也升高。瘦素,一种脂肪细胞因子,在与运动和厌食症相关的FHA中也被抑制。瘦素浓度临界值被认为是正常月经发生的必要条件。胃饥饿素、PYY和瘦素都有穿越血脑屏障的能力,在下丘脑中,可以调节食欲和食物摄入,并被假设影响下丘脑-垂体-卵巢轴。未来的研究需要确定胃饥饿素、PYY或瘦素是否在下丘脑-垂体-卵巢轴的调节中起直接作用,以及这些信号是否可以通过增加热量摄入后改善能量状态而改变,从而开始闭经的逆转。
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Menstrual irregularities and energy deficiency in physically active women: the role of ghrelin, PYY and adipocytokines.

Menstrual cycle irregularities are often observed among physically active women and athletes who participate in physical activity ranging from recreational to competitive exercise training. Further, such irregularities have been casually linked to an energy deficiency where caloric intake is inadequate for exercise energy expenditure resulting in a suppressive effect on growth and reproduction. Adaptations consistent with chronic energy deficiency, including reductions in resting energy expenditure and total triiodothyronine, have been observed in exercising women with functional hypothalamic amenorrhea (FHA). Gut peptides and adipocytokines also appear to be altered in exercising women with FHA and have been hypothesized to be involved in the etiology of FHA. Ghrelin concentrations are elevated in exercising women with FHA. Interestingly, while fasting ghrelin, an orexigenic peptide, is elevated in women with FHA, PYY, an orexigenic peptide, is paradoxically also elevated in women with anorexia nervosa and exercising women with FHA. Leptin, an adipocytokine, is also suppressed in FHA associated with exercise and anorexia. A critical leptin concentration threshold is suggested to be necessary for regular menses to occur. Ghrelin, PYY, and leptin all have the ability to cross the blood brain barrier and, in the hypothalamus, can modulate appetite and food intake, and are hypothesized to affect the hypothalamic-pituitary-ovarian axis. Future studies are needed to determine if ghrelin, PYY, or leptin play a direct role in the regulation of the hypothalamic-pituitary-ovarian axis, and if these signals can be altered by improving energy status secondary to increasing caloric intake and initiate the reversal of amenorrhea.

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