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Altitude and endurance training 总被引:4,自引:0,他引:4
The benefits of living and training at altitude (HiHi) for an improved altitude performance of athletes are clear, but controlled studies for an improved sea-level performance are controversial. The reasons for not having a positive effect of HiHi include: (1) the acclimatization effect may have been insufficient for elite athletes to stimulate an increase in red cell mass/haemoglobin mass because of too low an altitude (< 2000-2200 m) and/or too short an altitude training period (<3-4 weeks); (2) the training effect at altitude may have been compromised due to insufficient training stimuli for enhancing the function of the neuromuscular and cardiovascular systems; and (3) enhanced stress with possible overtraining symptoms and an increased frequency of infections. Moreover, the effects of hypoxia in the brain may influence both training intensity and physiological responses during training at altitude. Thus, interrupting hypoxic exposure by training in normoxia may be a key factor in avoiding or minimizing the noxious effects that are known to occur in chronic hypoxia. When comparing HiHi and HiLo (living high and training low), it is obvious that both can induce a positive acclimatization effect and increase the oxygen transport capacity of blood, at least in 'responders', if certain prerequisites are met. The minimum dose to attain a haematological acclimatization effect is > 12 h a day for at least 3 weeks at an altitude or simulated altitude of 2100-2500 m. Exposure to hypoxia appears to have some positive transfer effects on subsequent training in normoxia during and after HiLo. The increased oxygen transport capacity of blood allows training at higher intensity during and after HiLo in subsequent normoxia, thereby increasing the potential to improve some neuromuscular and cardiovascular determinants of endurance performance. The effects of hypoxic training and intermittent short-term severe hypoxia at rest are not yet clear and they require further study. 相似文献
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不同低氧训练方式对红细胞调控T淋巴细胞免疫及亚群的影响 总被引:1,自引:0,他引:1
观察不同低氧训练方式对红细胞调控T淋巴细胞免疫及亚群的影响。用低氧舱模拟4000m高原低氧环境(12.6%氧浓度),将50只SD雄性大鼠随机平分为5组:高住高训组(HiHi)、高住低训组(HiLo)、高住对照组(HiCo)、低住低训组(LoLo)和低住对照组(LoCo)。实验4周,每周6天游泳,1天休息,每天训练1.5h。实验结束后,同时取腹主动脉血,用流式细胞仪检测红细胞CD48、CD59荧光强度和T淋巴细胞CD2^+%、CD3^+%、CD4^+%、CD8^+%。结果发现,红细胞CD48、CD59表达和T淋巴细胞CD2^+%、CD3^+%、CD4^+%、CD8^+%大致趋势是HiHi组〈HiCo组〈HiLo组〈LoCo组〈LoLo组,各组间CD4^+/CD8^+比值无显著性差异(P〉0.05)。提示:1)低氧暴露可能会降低红细胞调控T淋巴细胞免疫能力;常氧环境中运动有可能促进红细胞调节T淋巴细胞免疫;2)低氧暴露和常氧环境中训练都有可能影响T淋巴细胞总数;3)不同低氧训练方式中CD4^+/CD8^+比值没有显著性差异。 相似文献
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目的:探讨常压低氧(13.6%氧含量)运动对大鼠心肌核转录因子NF-κB、Cyt c和自噬相关基因Beclin1的影响,为运动与低氧适应机制的研究和高原训练方案的制定提供理论依据。方法:采用酶联免疫吸附技术(ELISA)分别测大鼠心肌NF-κB、Cyt c和Beclin1的含量。结果:通过运动训练、低氧适应或者是低氧运动适应,都能使NF-κB和Beclin1不同程度升高,其中以HC和HiLo较为显著,Cyt c变化不明显,提示运动训练、低氧适应或者低氧运动适应都能诱导自噬的发生。结论:自噬相关基因Beclin1在低氧训练中产生的低氧适应机制可能是低氧刺激后细胞内产生ROS,ROS激活了NF-κB信号通路,使得Beclinl与NF-κB活性增高;通过长期的运动与低氧适应,可能ROS降低有效抑制NF-κB信号通路,使Beclinl和NF-κB产生了适应性变化,Cyt c从线粒体释放较少,提示细胞凋亡率减少,从而保护心肌细胞的作用。 相似文献
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运用Meta分析方法综合定量评估不同低氧训练模式对我国运动员血红蛋白(Hb)水平的影响,为科学运用低氧训练提供参考意见。方法:对中国知网、万方、维普、Web of Science、Pubmed数据库中的文献进行检索,对所纳入文献的相关指标进行分析。结果:(1)低氧训练有助于提升运动员Hb浓度,总体影响程度属于中等效应水平,Hb浓度平均升高5.57 g/L;(2)高住低练(HiLo)模式对运动员Hb浓度的影响程度处于较高效应水平,Hb浓度平均升高6.78 g/L,高住高练低训(HiHiLo)模式次之,最后为高住高练(HiHi)模式;(3)不同HiLo训练持续时间对Hb水平影响不同,当训练持续时间为4周时,对Hb浓度增长幅度最明显;当训练持续时间小于4周时,Hb浓度水平则呈下降趋势。结论:总体而言,低氧训练对提升Hb水平有明显效果,但持续4周的HiLo模式对提高运动员Hb水平最优。 相似文献
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目的:探讨4种低氧训练模式对大鼠力竭运动后心肌线粒体自由基代谢及呼吸链功能的影响。方法:将雄性Wistar大鼠随机均分为5组,即低住低训组(LoLo)、高住高练组(HiHi)、高住低训组(HiLo)、低住高练组(LoHi)及高住高练低训组(HiHiLo)。以当地环境为基点作为常氧环境,采用低压氧舱模拟低氧环境。依实验方案,各组大鼠分别在常氧或/和低氧环境中居住及递增负荷训练5周,每周训练6 d。各组大鼠在最后1次训练后,在常氧环境中恢复3 d,力竭运动后即刻取心肌样本。用差速离心法提取心肌线粒体,分别测定丙二醛含量、超氧化物歧化酶、谷胱甘肽过氧化物酶和过氧化氢酶(catalase,CAT)活性及呼吸链酶复合体I~IV(CI~IV)活性。结果:与LoLo组相比,心肌组织中HiHi组GSH-Px及CAT活性均显著升高,HiLo组CAT活性显著升高,LoHi和HiHiLo组SOD、GSH-Px及CAT活性均显著升高,4种低氧训练模式MDA含量均显著降低。与LoLo组相比,HiHiLo组心肌线粒体SOD活性显著升高,HiHi、HiLo和HiHiLo组MDA含量均显著降低。与LoLo组相比,HiHi组心肌线粒体CIV活性显著升高,HiHiLo组CI、CII和CIV活性均显著提高,HiHi、LoHi及HiHiLo组CIII活性均显著降低。结论:HiHiLo可能是较好的低氧训练模式。 相似文献
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观察不同低氧训练方式对血清瘦素、下丘脑神经肽Y、下丘脑瘦素受体、血脂及其体重等指标的影响,探求低氧训练影响机体血脂、体重变化的机理。实验对象:SD大鼠50只,随机分为高住高训组(HiHi)、高住低训组(HiLo)、高住对照组(HiCo)、低训对照组(LoCo)和低住低训组(LoLo),进行4周不同低氧状态下的游泳训练。低氧环境的氧浓度为12.7%(相当于海拔4000m)。实验方法:血清leptin和下丘脑NPY用放射免疫分析法测定,血脂用全自动生化分析仪测定,下丘脑leptin受体采用放射配体检测法测定。结果:1)低氧暴露4周血清TC、TG、HDL、LDL升高;2)低氧训练4周,血清TC、HDL、TG、LDL降低,但HiLo组降低血清TG作用较HiHi组显著;3)低氧暴露和低氧训练4周,均观察到血清Leptin、下丘脑NPY有下降趋势;4)低氧暴露和低氧训练4周,下丘脑K1、K2没有变化,但下丘脑q1、q2分别增大。结论:1)低氧暴露4周可能有升高血脂的作用;2)低氧训练4周血脂可能降低;3)低氧暴露或低氧训练4周,下丘脑Leptin受体结合容量可能增大,使下丘脑NPY的分泌下降,抑制体重的增长。 相似文献
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经5周不同模式低氧训练,测定急性力竭运动即刻大鼠肝脏、肾脏线粒体呼吸链酶复合体Ⅰ、Ⅱ和Ⅲ的活性,探讨不同低氧训练模式对肝脏及肾脏线粒体呼吸链功能的影响。方法:40只2月龄雄性Wistar大鼠随机均分为5组:常氧训练组(LoLo)、高住高练组(HiHi)、高住低训组(HiLo)、低住高练组(LoHi)和高住高练低训组(HiHiLo)。各组大鼠分别在常氧(海拔1 500 m,大气压632 mmHg)或/和低氧(海拔3 500 m,大气压493 mmHg)环境中居住及递增负荷训练5周。力竭运动后即刻取样。差速离心法提取线粒体。分光光度法测定呼吸链酶复合体Ⅰ、Ⅱ和Ⅲ活性。结果显示:HiLo模式和HiHiLo模式可显著提高大鼠力竭运动后即刻肝脏线粒体呼吸链功能,4种低氧训练模式均降低了大鼠力竭运动后即刻肾脏线粒体呼吸链功能,不同低氧训练模式对大鼠力竭运动后即刻线粒体呼吸链功能的影响存在组织差异性。 相似文献
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Gareth Turner Barry W Fudge Jamie S M Pringle Neil S Maxwell Alan J Richardson 《Journal of sports sciences》2019,37(2):163-172
This study sought to establish perceptions of elite endurance athletes on the role and worth of altitude training. Elite British endurance runners were surveyed to identify the altitude and hypoxic training methods utilised, along with reasons for use, and any situational, cultural and behaviour factors influencing these. Prior to the 2012 Olympics Games, 39 athletes and 20 support staff (coaches/practitioners) completed an internet-based survey to establish differences between current practices and the accepted “best-practice”. Almost all of the athletes (98%) and support staff (95%) surveyed had utilised altitude and hypoxic training, or had advised it to athletes. 75% of athletes believed altitude and hypoxia to be a “very important” factor in their training regime, with 50% of support staff believing the same. Athletes and support staff were in agreement of the methods of altitude training utilised (i.e. 'hypoxic dose’ and strategy), with camps lasting 3–4 weeks at 1,500–2,500 m being the most popular. Athletes and support staff are utilising altitude and hypoxic training methods in a manner agreeing with research-based suggestions. The survey identified a number of specific challenges and priorities, which could provide scope to optimise future altitude training methods for endurance performance in these elite groups. 相似文献
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模拟高原训练是能够避免高原训练弊端,最大程度激发机体生理潜能,提高运动员竞技水平的有效方法。本研究尝试从设计交替训练的海拔高度着手,通过应用人工低压氧舱模拟高原训练方法,建立固定海拔2500m、4000m以及2500m~4000m交替低氧训练的动物模型,通过应用生理和生化方法对大鼠心肌相关指标进行检测及研究分析,探讨不同海拔及交替海拔训练条件下大鼠心肌抗氧化能力、有氧代谢能力等的变化,从而为运动员高——高交替训练提供参考。实验以雄性Wister大鼠为实验对象,以递增负荷跑台训练方式建立动物训练模型。将筛选后的大鼠随机分为:常氧运动组、2500m低氧运动组、4000m低氧运动组、交替低氧运动组,每组8只。第1周到第4周各组分别以不同的跑台训练模型进行训练,下高原后第5天以25m/min的速度跑至力竭。全部断头处死后,取心肌组织,分别测试各组大鼠心肌中SOD、MDA、SDH、LDH、Ca^2+-ATP酶活性的变化。实验结果表明:经过4周不同海拔低氧递增负荷跑台训练及下高原后4天的训练,交替低氧运动组大鼠心肌各指标,如SOD、SDH、Ca^2+-ATP酶活性均高于其他各组,MDA低于其他各组,LDH活性组间无显著性变化。说明交替低氧训练既可以维持较高海拔的低氧刺激,又可以减少过高海拔造成的损伤,有利于机体恢复。 相似文献
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潘秀清 《沈阳体育学院学报》2012,31(3):62-65
目的:对20名平原受试者进行为期3周递增性低氧训练,测试其低氧训练前后模拟海拔4 800m(PO2为10.4%~10.8%)时血清抗利尿激素(AVP)和醛固酮(ALD)的变化,并结合AMS评分、心率和血压,探讨递增性低氧训练对模拟高海拔低氧环境的适应效果。方法:阶段1:受试者于模拟海拔4 800m低氧环境中急性暴露6 h,以60rpm、80 W的定量负荷仰卧蹬车20 min,LLS量表评价AMS,测试低氧暴露过程中的HR和BP,低氧结束时的血清AVP和ALD;阶段2:进行3周递增性低氧训练后,再重复阶段1的测试。结果:低训后模拟海拔4 800m低氧环境下,AMS评分大于等于3分的人数由9人降到2人;运动时的心率明显低于低训前;急性低氧暴露6h,血清AVP和ALD均较常氧值显著下降;低训3周后再次低氧暴露,血清AVP和ALD与常氧值相比较,均无显著差异。结论:递增性低氧训练有助于增强机体对低氧的习服。 相似文献
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模拟高住低练对男大学生红细胞抗氧化能力及有氧运动能力的影响 总被引:2,自引:0,他引:2
为了观察模拟高住低练对人体红细胞中丙二醛(MDA)、超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px)的影响,及在模拟高原训练后有氧运动能力是否提高.将男大学生13名随机分成对照组和模拟高住低练组,从事相同身体活动,模拟高住低练组每天低氧环境睡眠8 h[φ(O2)=14%],连续4周.两组均在低氧训练开始前、结束后进行Bruce方案的力竭运动,并在安静和运动后取血测试MDA、SOD、GSH-Px.结果表明:高住低练组红细胞SOD、GSH-Px活性在安静时和力竭运动后都明显提高,MDA没有变化,定量负荷后心率和血乳酸降低.结论:模拟高住低练有助于增强红细胞抗氧化能力,改善有氧运动能力. 相似文献
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为了讨论男子散打项目低氧环境下心率及主观体力感觉等级变化特征,以8名优秀男子散打运动员为研究对象,采用文献资料法、实验测试法、数理统计法对低氧环境下若干指标动态变化情况进行分析。本研究认为,同等负荷下模拟高度变化是引起散打运动员心率升高的主要因素,有无低氧刺激对于散打运动员心率影响较明显,主观体力感觉(RPE)变化特征与心率变化吻合程度较高。提示散打运动员低氧训练改变模拟高度时应遵循渐进性原则,加强首次接触低氧刺激时心率监控,在散打低氧训练中可以采用心率和主观体力感觉(RPE)结合使用,使负荷安排更合理并得到及时反馈。 相似文献
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高住低训对运动员身体成分的影响 总被引:11,自引:1,他引:10
为了确切了解运动员在高住低训过程中身体成分的变化,本研究将14名大学生分为:高住低训组(HiLo组)和高住对照组(Hi c组),每组7人,每天低压低氧(2500m模拟高度)暴露12小时。HiLo组每天在常压常氧环境下进行一次3000m跑训练;Hi c组在实验期间不进行任何运动训练。实验为期4周。结果表明,高住低训组体重、体脂重量和体脂百分比明显下降(P<0 05),其他指标稍有降低,但变化不明显(P>0 05)。高住对照组体重、体脂重量、体脂百分比明显下降(P<0 05),其他指标几乎没有变化。模拟高住低训组和高住对照组体重明显降低,瘦体重和肌肉重量无明显变化,而体脂重量和体脂百分比明显降低,说明体重的降低是体脂重量降低的结果。本实验采用的高住模型对蛋白分解作用无明显影响,但机体却选择性利用脂肪供能。而2500m间歇低氧暴露结合训练具有轻微的促蛋白分解效应。 相似文献
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《European Journal of Sport Science》2013,13(1):15-24
Abstract The effect of intermittent hypoxia on sea-level endurance performance was assessed by using hypoxic tents to simulate the live high-train low approach to altitude training. Eleven male sub-elite competitive runners and triathletes participated in a crossover study of usual training (control) and usual training with altitude exposure (altitude). Altitude treatment consisted of 25±3?d (mean±SD) of sleeping in tents for 8.1±0.6?h.d?1, progressing from a simulated altitude of 2500?m to 3500?m above sea level. Washout period between control and altitude treatments was 4?wk. Three treadmill runs to exhaustion lasting ~2, ~4 and ~8?min were completed 7 and 12?d after control and altitude treatments. Times for standard competition distances (800, 1500 and 3000?m), were predicted using a log-log model, improved by 1.0% (90% confidence limits, ±1.3%), 1.4% (±1.2%) and 1.9% (±1.5%), respectively. Improvements were greater in the six athletes with an I allele for angiotensin converting enzyme (ACE): 2.3% (±1.5%), 2.2% (±1.5%), and 2.1%, (±2.1%), respectively. Effects of simulated altitude on hemoglobin concentration were unclear. Altitude exposure simulated with hypoxic tents is likely to enhance performance substantially in middle-distance endurance running events, especially for individuals with an I allele of the ACE gene. 相似文献
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急性缺氧暴露情况下运动对中动脉脑血流速度的影响 总被引:1,自引:0,他引:1
利用常压低氧屋模拟2500m高原急性缺氧,测试了6名世居平原的男子在常氧和急性缺氧情况下,中等强度运动前后中动脉经颅多普勒血流速度的变化。结果显示,急性缺氧暴露情况下,安静时平均脑血流速度(Vm)、收缩期血流速度(Vp)和舒张期血流速度(Vd)从第5min到第20min都持续上升,且Vd增加幅度最大。常氧和急性缺氧运动后即刻,Vm和Vp均显著增加,常氧运动后Vm、Vp的增加幅度均高于急性缺氧运动后;常氧运动后Vd增加,而急性缺氧运动后Vd略有降低。提示,急性缺氧主要通过调节脑血管阻力增加舒张期血流速度,从而增加脑血流量来满足动脉氧含量下降时大脑的供氧需求;急性缺氧运动与常氧运动一样,都是通过增加收缩期血流速度来满足大脑供氧需求,但急性缺氧暴露抑制了运动对脑血流速度的增加效应;与常氧运动、急性缺氧相比,急性缺氧运动对舒张期血流速度的影响比对平均脑血流速度和收缩期血流速度的影响要大。 相似文献
17.
通过比较不同强度模拟HiLo与常氧训练对白细胞及其分类指标的影响,研究不同强度模拟高住低练对机体免疫功能的影响。将SD大鼠随机分成6大组(16小组):常氧安静组(8CC)、常氧高强度组(TCH)、常氧低强度组(TEL)、模拟HiLo安静组(CGD)、模拟HiLo高强度组(TGDH)和模拟HiLo低强度组(TGDL)。5周低强度训练6周高强度训练结束后分别取样,测得白细胞及其分类指标进行比较分析。结果表明:间歇性低氧暴露与急性运动的双重刺激比单纯的急性运动更加影响机体的免疫功能;长期的有氧耐力训练、无氧耐力训练后即刻免疫机能显著下降,休息后可恢复;此外,模拟高住低练可以提高机体对极限负荷适应能力,从而改善机体的免疫能力,这将为运动员模拟高住低练时机体监控和评定提供依据。 相似文献
18.
To investigate the benefits of ‘living high and training low' on anaerobic performance at sea level, eight 400-m runners lived for 10 days in normobaric hypoxia in an altitude house (oxygen content = 15.8%) and trained outdoors in ambient normoxia at sea level. A maximal anaerobic running test and 400-m race were performed before and within 1 week of living in the altitude house to determine the maximum speed and the speeds at different submaximal blood lactate concentrations (3, 5, 7, 10 and 13 mmol· l-1) and 400-m race time. At the same time, ten 400-m runners lived and trained at sea level and were subjected to identical test procedures. Multivariate analysis of variance indicated that the altitude house group but not the sea-level group improved their 400-m race time during the experimental period (P ? 0.05). The speeds at blood lactate concentrations of 5–13 mmol· l-1 tended to increase in the altitude house group but the response was significant only at 5 and 7 mmol·l-1 (P ? 0.05). Furthermore, resting blood pH was increased in six of the eight altitude house athletes from 0.003 to 0.067 pH unit (P ? 0.05). The results of this study demonstrate improved 400-m performance after 10 days of living in normobaric hypoxia and training at sea level. Furthermore, the present study provides evidence that changes in the acid–base balance and lactate metabolism might be responsible for the improvement in sprint performance. 相似文献
19.
高住高练低训(HiHiLo)是在模拟高原训练一高住低训(HiLo)基础上发展而来的一种新兴的模拟高原训练方法,本实验以16名男性足球运动员为受试者,随机分为实验组(8人)和对照组(8人).实验组接受运用低氧房模拟的3 000米海拔高度的高住高练低训,对照组常压常氧居住、训练,追踪观察连续4周的训练期间受试者外周血T淋巴细胞及其亚群的变化.结果显示,T淋巴细胞总数CD3+在实验前后变化不大,运动训练决定其变化趋势,低氧对其有一定的影响;低氧暴露2周后T淋巴细胞亚群CD4+和T淋巴细胞亚群CD8+分别出现显著性下降和显著性升高,且均持续到实验结束;CD4+/CD8+的比值在低氧暴露2周后出现显著性降低,且持续至实验结束;两组的各值变化趋势相当,但HiHiLo实验组的机体免疫机能均低于对照组. 相似文献