未训练/训练的 V̇o、循环经济和线粒体呼吸之间的关系。
Relationship between V̇o, cycle economy, and mitochondrial respiration in untrained/trained.
机构信息
Department of Nutrition Sciences, University of Alabama at Birmingham, Birmingham, Alabama.
Department of Surgery, University of Alabama at Birmingham, Birmingham, Alabama.
出版信息
J Appl Physiol (1985). 2019 Dec 1;127(6):1562-1568. doi: 10.1152/japplphysiol.00223.2019. Epub 2019 Sep 26.
Aerobic capacity is negatively related to locomotion economy. The purpose of this paper is to determine what effect aerobic exercise training has on the relationship between net cycling oxygen uptake (inverse of economy) and aerobic capacity [peak oxygen uptake (V̇o)], as well as what role mitochondrial coupled and uncoupled respiration may play in whole body aerobic capacity and cycling economy. Cycling net oxygen uptake and V̇o were evaluated on 31 premenopausal women before exercise training (baseline) and after 8-16 wk of aerobic training. Muscle tissue was collected from 15 subjects at baseline and post-training. Mitochondrial respiration assays were performed using high-resolution respirometry. Pre- ( = 0.46, < 0.01) and postexercise training ( = 0.62, < 0.01) V̇o and cycling net oxygen uptake were related. In addition, uncoupled and coupled fat respiration were related both at baseline ( = 0.62, < 0.01) and post-training ( = 0.89, < 01). Post-training coupled ( = 0.74, < 0.01) and uncoupled carbohydrate respiration ( = 0.52, < 05) were related to cycle net oxygen uptake. In addition, correlations between V̇o and cycle net oxygen uptake persist both at baseline and after training, even after adjusting for submaximal cycle respiratory quotient (an index of fat oxidation). These results suggest that the negative relationship between locomotion economy and aerobic capacity is increased following exercise training. In addition, it is proposed that at least one of the primary factors influencing this relationship has its foundation within the mitochondria. Strong relationships between coupled and uncoupled respiration appear to be contributing factors for this relationship. The negative relationship between cycle economy and aerobic capacity is increased following exercise training. The strong relationship between coupled and uncoupled respiration, especially after training, appears to be contributing to this negative relationship between aerobic capacity and cycling economy, suggesting that mitochondrial economy is not increased following aerobic exercise training. These results are suggestive that training programs designed to improve locomotion economy should focus on changing biomechanics.
有氧能力与运动经济性呈负相关。本文旨在确定有氧训练对净循环耗氧量(经济性的倒数)与有氧能力[峰值耗氧量(V̇o)]之间关系的影响,以及线粒体耦联和非耦联呼吸在全身有氧能力和循环经济性中的作用。在有氧训练前(基线)和 8-16 周后,对 31 名绝经前女性进行了自行车净耗氧量和 V̇o 的评估。在基线和训练后,从 15 名受试者中采集肌肉组织。使用高分辨率呼吸计进行线粒体呼吸测定。运动前( = 0.46, < 0.01)和运动后训练( = 0.62, < 0.01)的 V̇o 和自行车净耗氧量相关。此外,基线时( = 0.62, < 0.01)和训练后( = 0.89, < 01)非耦联和耦联脂肪呼吸相关。训练后耦联( = 0.74, < 0.01)和非耦联碳水化合物呼吸( = 0.52, < 05)与自行车净耗氧量相关。此外,即使在调整亚最大自行车呼吸商(脂肪氧化指数)后,V̇o 与自行车净耗氧量之间的相关性在基线和训练后仍然存在。这些结果表明,运动经济性与有氧能力之间的负相关关系在运动训练后增加。此外,建议至少有一个影响这种关系的主要因素是基于线粒体的。耦联和非耦联呼吸之间的强关系似乎是这种关系的一个促成因素。运动经济性与有氧能力之间的负相关关系在运动训练后增加。耦联和非耦联呼吸之间的强关系,尤其是在训练后,似乎是导致有氧能力与循环经济性之间负相关的原因,这表明有氧运动训练后线粒体的经济性并没有提高。这些结果表明,旨在提高运动经济性的训练计划应侧重于改变生物力学。
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