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Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia

机译：热量和缺氧之间的交叉适应：热量适应可改善急性低压缺氧的细胞耐受性和运动表现。

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>Background: The potential for cross acclimation between environmental stressors is not well understood. Thus, the aim of this investigation was to determine the effect of fixed-workload heat or hypoxic acclimation on cellular, physiological, and performance responses during post acclimation hypoxic exercise in humans.>Method: Twenty-one males (age 22 ± 5 years; stature 1.76 ± 0.07 m; mass 71.8 ± 7.9 kg;

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O2 peak 51 ± 7 mL^.kg^−1.min⁻¹) completed a cycling hypoxic stress test (HST) and self-paced 16.1 km time trial (TT) before (HST1, TT1), and after (HST2, TT2) a series of 10 daily 60 min training sessions (50% N

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O2 peak) in control (CON, n = 7; 18°C, 35% RH), hypoxic (HYP, n = 7; fraction of inspired oxygen = 0.14, 18°C, 35% RH), or hot (HOT, n = 7; 40°C, 25% RH) conditions.>Results: TT performance in hypoxia was improved following both acclimation treatments, HYP (−3:16 ± 3:10 min:s; p = 0.0006) and HOT (−2:02 ± 1:02 min:s; p = 0.005), but unchanged after CON (+0:31 ± 1:42 min:s). Resting monocyte heat shock protein 72 (mHSP72) increased prior to HST2 in HOT (62 ± 46%) and HYP (58 ± 52%), but was unchanged after CON (9 ± 46%), leading to an attenuated mHSP72 response to hypoxic exercise in HOT and HYP HST2 compared to HST1 (p < 0.01). Changes in extracellular hypoxia-inducible factor 1-α followed a similar pattern to those of mHSP72. Physiological strain index (PSI) was attenuated in HOT (HST1 = 4.12 ± 0.58, HST2 = 3.60 ± 0.42; p = 0.007) as a result of a reduced HR (HST1 = 140 ± 14 b.min⁻¹; HST2 131 ± 9 b.min⁻¹ p = 0.0006) and Trectal (HST1 = 37.55 ± 0.18°C; HST2 37.45 ± 0.14°C; p = 0.018) during exercise. Whereas PSI did not change in HYP (HST1 = 4.82 ± 0.64, HST2 4.83 ± 0.63).>Conclusion: Heat acclimation improved cellular and systemic physiological tolerance to steady state exercise in moderate hypoxia. Additionally we show, for the first time, that heat acclimation improved cycling time trial performance to a magnitude similar to that achieved by hypoxic acclimation.

机译：>背景：人们对环境压力源之间的交叉适应的潜力还知之甚少。因此，这项研究的目的是确定固定工作量热量或低氧适应对人类适应性低氧运动后细胞，生理和性能反应的影响。>方法：年龄22±5岁；身高1.76±0.07 m；质量71.8±7.9 kg；

V˙O2峰51\pm7 mL。 kg -1。 min -1 ）在（HST1）之前完成了自行车低氧应激测试（HST），并完成了自定进度的16.1公里计时赛（TT） ，TT1）和之后（（HST2，TT2）进行一系列的每天10分钟的60分钟培训课程（50％N <移动器口音=“ true”> V˙O2峰值）对照（CON，n = 7; 18°C，35％RH），低氧（HYP，n = 7;吸入氧气的比例= 0.14，18°C，35％RH）或热（HO T，n = 7；在40°C，25％RH）条件下。>结果：两种适应性治疗，HYP（-3：16\pm3:10 min：s; p = 0.0006）和HOT均改善了低氧状态下的TT性能。 （-2：02\pm1:02 min：s; p = 0.005），但在CON（+0：31\pm1:42 min：s）之后保持不变。静息单核细胞热休克蛋白72（mHSP72）在HST2之前在HOT（62\pm46％）和HYP（58\pm52％）中增加，但在CON（9\pm46％）之后没有改变，导致对低氧的mHSP72应答减弱与HST1相比，HOT和HYP HST2锻炼（p <0.01）。细胞外缺氧诱导因子1-α的变化与mHSP72相似。由于HR降低（HST1 = 140\pm14 b.min-1; HST2 131\pm9 b.min -1 p = 0.0006）和直肠运动（HST1 = 37.55\pm0.18°C; HST2 37.45\pm0.14°C; p = 0.018）。而PSI的HYP没有变化（HST1 = 4.82\pm0.64，HST2 4.83\pm0.63）。>结论： 热适应提高了中度低氧条件下对稳态运动的细胞和系统生理耐受性。此外，我们首次展示了热适应将循环时间试验性能提高到了与低氧适应所达到的相似程度。

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期刊名称 Frontiers in Physiology
作者
Ben J. Lee; Amanda Miller; Rob S. James; Charles D. Thake;
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作者单位

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年(卷),期 2016(7),-1
年度 2016
页码 78
总页数 15
原文格式 PDF
正文语种
中图分类人体生理学;
关键词
heat hypoxia cross-acclimation cycling heat shock proteins;

机译：热;缺氧;交叉适应;循环;热休克蛋白;

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专利

1. Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia [J] . Ben J. Lee, Amanda Miller, Rob S. James, Frontiers in Physiology . 2016,第4期

机译：热量和缺氧之间的交叉适应：热量适应可改善急性低压缺氧的细胞耐受性和运动表现。
2. Heat acclimation attenuates physiological strain and the HSP72, but not HSP90alpha, mRNA response to acute normobaric hypoxia [J] . Oliver R. Gibson, Gareth Turner, James A. Tuttle, Journal of applied physiology . 2015,第4期

机译：热驯化衰减生理菌株和HSP72，但不是HSP90Alpha，mRNA对急性正常缺氧的反应
3. The effect of 10 days of heat acclimation on exercise performance in acute hypobaric hypoxia (4350 m) [J] . Ailish C. White, Roy M. Salgado, Todd A. Astorino, Temperature . 2016,第1期

机译：急性低压缺氧（4350 m）进行10天的热锻炼对运动表现的影响
4. Short intermittent exposure to hypoxia induces acclimation to high altitude, erythropoiesis and increases aerobic capacity [C] . Hector Casas, Mireia Casas, Teresa Pages, World Congress on Mountain Medicine and High Altitude Physiology . 2003

机译：短暂间歇性暴露于缺氧，诱导高海拔，红细胞产物的适应性，增加了有氧能力
5. Heat acclimation, heat shock protein and cell tolerance to heat and bacterial challenge [D] . Amorim, Fabiano T. 2008

机译：热适应，热激蛋白和细胞对热和细菌挑战的耐受性
6. The effect of 10 days of heat acclimation on exercise performance in acute hypobaric hypoxia (4350 m) [O] . Ailish C. White, Roy M. Salgado, Todd A. Astorino, 2016

机译：在急性低压缺氧（4350 m）中进行10天的热锻炼对运动表现的影响
7. Cross acclimation between heat and hypoxia: Heat acclimation improves cellular tolerance and exercise performance in acute normobaric hypoxia [O] . Lee B., Miller A., James R.S., 2016

机译：热量和缺氧之间的交叉适应：急性常压缺氧时，热适应可改善细胞耐受性和运动表现
8. Heat Acclimation Improves Exercise Performance [R] . 2010

机译：热适应提高运动表现

Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia

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