Mitochondrial and cardiovascular responses to aerobic exercise training in supine and upright positions in healthy young adults: a randomized parallel arm trial.

Translational exercise biomedicine Pub Date : 2025-03-26 eCollection Date: 2025-05-01 DOI:10.1515/teb-2025-0002

Nicholas Preobrazenski, Stuart P S Mladen, Ejaz Causer, Eveline Menezes, Hashim Islam, Patrick J Drouin, Michael E Tschakovsky, Brendon J Gurd

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Abstract

Objectives: Aerobic exercise training can increase skeletal muscle mitochondrial content. Supine exercise training with legs above the heart potentially augments these increases. However, the impact of supine exercise training on mitochondrial biogenesis and cardiovascular adaptations remains unclear.

Methods: In this single-centred, randomized, parallel arm trial, 19 recreationally active individuals underwent seven sessions of either supine with legs up (SUP; n=9, 6 females) or upright with legs down (UP; n=10, 7 females) aerobic training on a recumbent bike at 71 ± 7 % and 71 ± 2 % of peak work rate (WR_peak), respectively. The study aimed to test the effects of training with decreased muscle oxygenation on indices of muscle mitochondrial remodelling. Secondary outcomes included exercise performance, muscle oxygenation, and cardiovascular responses.

Results: Secondary outcomes revealed significant interaction effects for time to fatigue (TTF) and WR_peak in the SUP group during supine testing, suggesting enhanced exercise tolerance and performance. No between group interaction effects were observed for upright testing. No clear effects on mitochondrial biogenesis were observed based on expression of mitochondrial protein subunits and transcriptional regulators. Acutely, HR_peak was lower during the SUP Test compared to the UP Test. No central cardiovascular adaptations were observed following training.

Conclusions: Our exploratory analyses showed that supine aerobic training more effectively improves supine exercise tolerance and performance compared with upright training, despite no differences in measured proteins related to mitochondrial biogenesis. Further research is needed to elucidate the mechanisms underlying these postural-specific training effects.

Registration: clinicaltrials.gov: NCT04151095.

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线粒体和心血管对健康年轻人仰卧位和直立位有氧运动训练的反应：一项随机平行对照试验

目的：有氧运动训练可以增加骨骼肌线粒体含量。仰卧训练，腿在心脏上方，可能会增加这些增加。然而，仰卧运动训练对线粒体生物发生和心血管适应的影响尚不清楚。方法：在这项单中心、随机、平行的试验中，19名有娱乐活动的个体接受了7次仰卧和腿向上(SUP；n= 9,6名女性)或直立，腿向下(UP；n= 10,7名女性)，分别以峰值工作速率（WRpeak）的71±7 %和71±2 %在卧式自行车上进行有氧训练。本研究旨在测试低氧训练对肌肉线粒体重构指标的影响。次要结局包括运动表现、肌肉氧合和心血管反应。结果：次要结果显示，在仰卧测试中，SUP组的疲劳时间（TTF）和WRpeak有显著的相互作用，表明运动耐量和表现增强。直立测试没有观察到组间相互作用效应。基于线粒体蛋白亚基和转录调节因子的表达，未观察到对线粒体生物发生的明显影响。急性地，与UP试验相比，SUP试验期间的HRpeak较低。训练后未观察到中枢心血管适应。结论：我们的探索性分析表明，与直立训练相比，仰卧有氧训练更有效地提高了仰卧运动耐量和表现，尽管与线粒体生物发生相关的蛋白质测量没有差异。需要进一步的研究来阐明这些姿势特异性训练效应的机制。注册：clinicaltrials.gov: NCT04151095。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Translational exercise biomedicine

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