Apnoea as a novel method to improve exercise performance: A current state of the literature.

IF 2.6 4区 医学 Q2 PHYSIOLOGY Experimental Physiology Pub Date : 2024-07-19 DOI:10.1113/EP091905
Janne Bouten, Louise Declercq, Jan Boone, Franck Brocherie, Jan G Bourgois
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Abstract

Acute breath-holding (apnoea) induces a spleen contraction leading to a transient increase in haemoglobin concentration. Additionally, the apnoea-induced hypoxia has been shown to lead to an increase in erythropoietin concentration up to 5 h after acute breath-holding, suggesting long-term haemoglobin enhancement. Given its potential to improve haemoglobin content, an important determinant for oxygen transport, apnoea has been suggested as a novel training method to improve aerobic performance. This review aims to provide an update on the current state of the literature on this topic. Although the apnoea-induced spleen contraction appears to be effective in improving oxygen uptake kinetics, this does not seem to transfer into immediately improved aerobic performance when apnoea is integrated into a warm-up. Furthermore, only long and intense apnoea protocols in individuals who are experienced in breath-holding show increased erythropoietin and reticulocytes. So far, studies on inexperienced individuals have failed to induce acute changes in erythropoietin concentration following apnoea. As such, apnoea training protocols fail to demonstrate longitudinal changes in haemoglobin mass and aerobic performance. The low hypoxic dose, as evidenced by minor oxygen desaturation, is likely insufficient to elicit a strong erythropoietic response. Apnoea therefore does not seem to be useful for improving aerobic performance. However, variations in apnoea, such as hypoventilation training at low lung volume and repeated-sprint training in hypoxia through short end-expiratory breath-holds, have been shown to induce metabolic adaptations and improve several physical qualities. This shows promise for application of dynamic apnoea in order to improve exercise performance. HIGHLIGHTS: What is the topic of this review? Apnoea is considered as an innovative method to improve performance. This review discusses the effectiveness of apnoea (training) on performance. What advances does it highlight? Although the apnoea-induced spleen contraction and the increase in EPO observed in freedivers seem promising to improve haematological variables both acutely and on the long term, they do not improve exercise performance in an athletic population. However, performing repeated sprints on end-expiratory breath-holds seems promising to improve repeated-sprint capacity.

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将呼吸暂停作为提高运动成绩的一种新方法:文献现状。
急性屏气(呼吸暂停)会引起脾脏收缩,导致血红蛋白浓度短暂升高。此外,事实证明,呼吸暂停引起的缺氧会导致促红细胞生成素浓度在急性屏气后 5 小时内增加,这表明血红蛋白会长期增加。血红蛋白是氧气运输的重要决定因素,鉴于其提高血红蛋白含量的潜力,呼吸暂停被认为是提高有氧运动表现的一种新型训练方法。本综述旨在提供有关这一主题的最新文献资料。虽然呼吸暂停引起的脾脏收缩似乎能有效改善摄氧动力学,但当呼吸暂停与热身结合时,这似乎并不能立即转化为有氧运动成绩的提高。此外,只有憋气经验丰富的人在长时间和高强度的呼吸暂停方案中才会显示出促红细胞生成素和网织红细胞的增加。迄今为止,对缺乏经验的人进行的研究未能诱发呼吸暂停后促红细胞生成素浓度的急性变化。因此,呼吸暂停训练方案无法显示血红蛋白质量和有氧表现的纵向变化。从轻微的氧饱和度来看,低氧剂量可能不足以引起强烈的促红细胞生成素反应。因此,呼吸暂停似乎无助于提高有氧运动成绩。然而,呼吸暂停的变化,如在低肺活量下的低通气训练和通过短促呼气末屏气在缺氧状态下进行的重复冲刺训练,已被证明可诱导新陈代谢适应性和改善多种身体素质。这为应用动态呼吸暂停提高运动表现带来了希望。重点:本综述的主题是什么?呼吸暂停被认为是提高运动成绩的创新方法。本综述讨论了呼吸暂停(训练)对运动成绩的影响。它强调了哪些进展?虽然在自由潜水员身上观察到的呼吸暂停引起的脾脏收缩和 EPO 增加似乎有望在急性和长期改善血液变量,但它们并不能改善运动员的运动表现。不过,在呼气末屏气状态下进行重复冲刺似乎有望提高重复冲刺能力。
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来源期刊
Experimental Physiology
Experimental Physiology 医学-生理学
CiteScore
5.10
自引率
3.70%
发文量
262
审稿时长
1 months
期刊介绍: Experimental Physiology publishes research papers that report novel insights into homeostatic and adaptive responses in health, as well as those that further our understanding of pathophysiological mechanisms in disease. We encourage papers that embrace the journal’s orientation of translation and integration, including studies of the adaptive responses to exercise, acute and chronic environmental stressors, growth and aging, and diseases where integrative homeostatic mechanisms play a key role in the response to and evolution of the disease process. Examples of such diseases include hypertension, heart failure, hypoxic lung disease, endocrine and neurological disorders. We are also keen to publish research that has a translational aspect or clinical application. Comparative physiology work that can be applied to aid the understanding human physiology is also encouraged. Manuscripts that report the use of bioinformatic, genomic, molecular, proteomic and cellular techniques to provide novel insights into integrative physiological and pathophysiological mechanisms are welcomed.
期刊最新文献
Imaging the large-scale and cellular response to focal traumatic brain injury in mouse neocortex. Inhibition of TrkB kinase activity impairs autophagy in cervical motor neurons of young but not old mice. Measuring position sense. Born high, born fast: Does highland birth confer a pulmonary advantage for sea level endurance? Aerobic capacity and muscle proteome: Insights from a mouse model.
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