冷水潜水后交感肾上腺活动改变。

Karen R Kelly, Carina M Pautz, Laura J Palombo, Andrew E Jensen, Jorgen Melau, Lorraine P Turcotte, Paul A Solberg
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引用次数: 0

摘要

引言:关于极冷水潜水对热代谢激素分泌的影响,目前几乎没有数据。此外,重复潜水对压力反应的影响尚不清楚。本研究的目的是确定每天两次冷水潜水对精英军事人员激素和代谢状况的影响,并测量压力反应。方法:健康的男性挪威特种部队操作员(n=5)自愿参加本研究。分析了每天两次北极潜水(3.3°C)前后的生理和激素数据。结果:核心温度保持不变(p>0.05),而皮肤温度在每次潜水过程中都显著降低(p<0.01)。成对比较显示,促肾上腺皮质激素(ACTH)和皮质醇浓度在潜水和潜水天数中都显著下降(p<0.001)。肾上腺素和去甲肾上腺素在潜水和跳伞天数中都显着增加(p<001),IGF-1随着时间的推移显著降低,但在几天之间恢复。结论:该研究的主要发现是对冷水潜水有快速的交感-肾上腺-髓质(SAM/SNS)反应,下丘脑-垂体-肾上腺(HPA)轴和与修复和恢复相关的激素受到抑制。虽然样本量太小,无法确定SAM/SNS、HPA和甲状腺激素对体温调节的作用,但它解决了我们对极端环境中发生的生理适应的理解差距。
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Altered Sympathoadrenal Activity Following Cold-Water Diving.

Introduction: Little data exist on the effect of extremely cold-water diving on thermo-metabolic hormone secretion. Moreover, the impact of repetitive dives on the stress response is unknown. The purpose of this study was to determine the effects of two daily bouts of cold-water diving on the hormonal and metabolic profile of elite military personnel and to measure the stress response.

Methods: Healthy, male, Norwegian Special Forces operators (n = 5) volunteered for this study. Physiological and hormone data were analyzed prior to and following twice-daily Arctic dives (3.3°C).

Results: Core temperature was maintained (p > .05), whereas skin temperature was significantly reduced over the course of each dive (p < .01). Pairwise comparisons revealed adrenocorticotropic hormone (ACTH) and cortisol concentration significantly decreased across both dives and days (p < .001). Adrenaline and noradrenaline significantly increased across both time and day (p < .001). Leptin, testosterone, and IGF-1 significantly decreased over time but recovered between days.

Conclusion: The main findings of this effort are that there is a rapid sympathetic-adreno-medullary (SAM/SNS) response to cold-water diving and a suppression of the hypothalamic-pituitary-adrenal (HPA) axis and hormones related to repair and recovery. While the sample size was too small to determine the role of SAM/SNS, HPA, and thyroid hormone effect on thermoregulation, it addresses a gap in our understanding of physiological adaptions that occurs in extreme environments.

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来源期刊
CiteScore
1.30
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发文量
91
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