Angiotensin-converting gene and hypoxic exercise tolerance: a randomized crossover trial.

IF 2 4区医学 Q2 SPORT SCIENCES

International journal of sports medicine Pub Date : 2025-01-09 DOI:10.1055/a-2477-0512

Yuki Muramoto, Mizuki Momoi, Daisuke Nakashima, Kakeru Omae, Kazuhisa Sugai, Kyohei Daigo, Yuji Iwasawa, Genki Ichihara, Hiroki Okawara, Tomonori Sawada, Akira Kinoda, Yuichi Yamada, Takeshi Kimura, Kazuki Sato, Yoshinori Katsumata

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Abstract

Hypoxic training enhances endurance sports tolerance. However, individual responses vary due to physiological differences. This study investigated the relationship between genetic factors and exercise tolerance in hypoxic conditions. This randomized crossover study included 22 male university students (age 20.8±1.3 years, peak oxygen uptake 54.5±6.5 mL/min/kg). Incremental load tests were conducted to assess the symptomatic limit on separate days under normoxic and hypoxic conditions (oxygen concentration 15.4±0.8%) using an ergometer. The initial test environment was randomized. The peak oxygen uptake and blood lactate were monitored every minute, and Δ peak oxygen uptake (peak oxygen uptake under hypoxia - peak oxygen uptake under normoxia) was calculated. Sixteen genotypes linked to exercise tolerance (such as angiotensin-converting enzyme [ACE]) were examined. Peak oxygen uptake significantly decreased under hypoxia (p<0.01). Δ peak oxygen uptake varied among individuals (minimum: 0.7 and maximum: - 18.9). Among analyzed genetic polymorphisms, ACE-II genotypes showed significantly greater Δ peak oxygen uptake than ACE-ID/ACE-DD genotypes (p=0.02). ACE-II genotypes exhibited lower blood lactate elevation at peak exercise in normoxic (p=0.01) and hypoxic (p=0.03) conditions. Participants with the ACE-II genotype had lower lactate concentrations and greater reductions in peak oxygen uptake under hypoxic conditions. Optimizing hypoxic training requires individualized programs incorporating genetic analysis.

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血管紧张素转换基因与低氧运动耐量：一项随机交叉试验。

低氧训练提高耐力运动的耐受力。然而，个体反应因生理差异而异。本研究探讨了遗传因素与低氧条件下运动耐量的关系。这项随机交叉研究纳入22名男性大学生（年龄20.8±1.3岁，峰值摄氧量54.5±6.5 mL/min/kg）。在正常和低氧条件下（氧浓度15.4±0.8%），分别进行增量负荷试验，使用测功仪评估症状极限。初始测试环境是随机的。每分钟监测血乳酸和摄氧量峰值，计算Δ摄氧量峰值（缺氧下摄氧量峰值-常氧下摄氧量峰值）。研究人员检测了16种与运动耐受性相关的基因型（如血管紧张素转换酶[ACE]）。缺氧条件下峰值摄氧量显著降低(p

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来源期刊

International journal of sports medicine 医学-运动科学

CiteScore

4.80

自引率

4.00%

发文量

111

审稿时长

3-8 weeks

期刊介绍： The IJSM provides a forum for the publication of papers dealing with both basic and applied information that advance the field of sports medicine and exercise science, and offer a better understanding of biomedicine. The journal publishes original papers, reviews, short communications, and letters to the Editors.