Mechanisms of Cross-tolerance between Heat and Hypoxia Acclimation

热和缺氧驯化之间的交叉耐受机制

• 批准号: RGPIN-2017-04519
• 负责人: Koehle, Michael
• 金额: $ 2.04万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=682546
• 关键词: Mechanisms; Cross; tolerance; between; Heat

The goal of our proposed research is to understand how human beings respond to a combination of heat and simulated altitude at the same time. To date, very little research has looked at this question. Most research has focussed on one environmental condition at a time. However, there is some recent research that indicates that exposure to heat and exposure to altitude might act synergistically. Specifically, if one becomes acclimated to heat, it appears they do better in simulated altitude. At altitude, the oxygen level in the surrounding air is low (this is called hypoxia), and it is very stressful on the body, leading to poor performance, poor ability to think and learn, and sometimes even illness. ***If there is an interaction between heat acclimation and hypoxia acclimation, it could have the potential to prepare people to better adapt to these harsh conditions. ******The goal of this research is to thoroughly investigate this interaction. The first step to confirm its existence and its extent. Secondly, we aim to try to understand the mechanisms responsible for this interaction. Are there common mechanisms by which humans react to heat and to hypoxia? Can heat acclimation can be used to improve hypoxia acclimation? ******It seems that if there is an interaction it might relate to exercise performance, in that if people become acclimated to high heat, their exercise performance in the heat gets better. We suspect that their exercise performance at altitude (or simulated altitude) might also get better. Improving exercise performance under these conditions is important for all people that work and play in the outdoors, from casual exercisers, to athletes, to military personnel, to workers that work in hot, high environments. ******Interestingly, there is some recent evidence that this heat acclimation might also improve cognition. We also aim to investigate the effects of heat and hypoxia on cognition, to determine if there truly is an interaction here. We will test cognition by looking both at blood markers of cognitive health, but also by performing a battery of cognitive tasks.******Participants will visit the lab on multiple occasions partaking in heat, hypoxia and sham (placebo) exposures to acclimate them to heat, and to test their response to the hypoxia.

我们提出的研究目标是了解人类如何同时对高温和模拟海拔的组合做出反应。迄今为止，很少有研究关注这个问题。大多数研究一次只关注一种环境条件。然而，最近的一些研究表明，暴露于高温和暴露于高海拔可能会协同作用。具体来说，如果一个人适应了高温，他们在模拟的海拔上表现得更好。在高海拔地区，周围空气中的含氧量很低（这称为缺氧），对身体的压力很大，导致表现不佳，思维和学习能力差，有时甚至会生病。***如果热适应和缺氧适应之间存在相互作用，它可能有潜力使人们更好地适应这些恶劣条件。******本研究的目的是彻底研究这种相互作用。第一步是确认它的存在和范围。其次，我们的目标是试图理解负责这种相互作用的机制。人类对热和缺氧有共同的反应机制吗？热驯化可以用来改善缺氧驯化吗？******似乎如果有相互作用，它可能与运动表现有关，因为如果人们适应高温，他们在高温下的运动表现会更好。我们怀疑他们在高海拔（或模拟海拔）的运动表现也可能会变得更好。在这些条件下提高运动表现对所有在户外工作和玩耍的人都很重要，从休闲锻炼者到运动员，到军事人员，再到在高温环境中工作的工人。******有趣的是，最近有一些证据表明，这种热适应也可能提高认知能力。我们还旨在研究高温和缺氧对认知的影响，以确定是否真的存在相互作用。我们将通过观察认知健康的血液标记来测试认知，同时也通过执行一系列认知任务。******参与者将在多个场合访问实验室，参与高温、缺氧和假（安慰剂）暴露，以使他们适应高温，并测试他们对缺氧的反应。