Breathing Motion Pattern in Cyclists: Role of Inferior against Superior Thorax Compartment.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2023-11-15 DOI:10.1055/a-2211-9421
Ana Luiza Lopes, Karine Jacon Sarro, Isabella Martins Rodrigues, Richard Diego Leite, Carlo Massaroni, Paulo Roberto Dos Santos Amorim, Pietro Cerveri, Amanda P Silvatti
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Abstract

The thoracoabdominal breathing motion pattern is being considered in sports training because of its contribution, along with other physiological adaptations, to overall performance. We examined whether and how experience with cycling training modifies the thoracoabdominal motion patterns. We utilized optoelectronic plethysmography to monitor ten trained male cyclists and compared them to ten physically active male participants performing breathing maneuvers. Cyclists then participated in a self-paced time trial to explore the similarity between that observed during resting breathing. From the 3D coordinates of 32 markers positioned on each participant's trunk, we calculated the percentage of contribution of the superior thorax, inferior thorax, and abdomen and the correlation coefficient among these compartments. During the rest maneuvers, the cyclists showed a thoracoabdominal motion pattern characterized by an increased role of the inferior thorax relative to the superior thorax (26.69±5.88%, 34.93±5.03%; p=0.002, respectively), in contrast to the control group (26.69±5.88%; 25.71±6.04%, p=0.4, respectively). In addition, the inferior thorax showed higher coordination in phase with the abdomen. Furthermore, the results of the time trial test underscored the same pattern found in cyclists breathing at rest, suggesting that the development of a permanent modification in respiratory mechanics may be associated with cycling practice.

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骑自行车者的呼吸运动模式:下胸腔对上胸腔隔室的作用。
胸腹呼吸运动模式在运动训练中被考虑,因为它的贡献,连同其他生理适应,对整体表现。我们研究了骑车训练是否以及如何改变胸腹运动模式。我们利用光电脉搏波描记术对10名训练有素的男性自行车手进行监测,并将他们与10名进行呼吸动作的体力活动男性参与者进行比较。然后,骑自行车的人参加了一个自定节奏的计时赛,以探索在休息呼吸时观察到的相似性。根据每个参与者躯干上32个标记的三维坐标,我们计算了上胸、下胸和腹部的贡献百分比以及这些间隔之间的相关系数。在休息动作中,骑自行车者表现出胸腹联合运动模式,下胸相对于上胸的作用增加(26.69±5.88%,34.93±5.03%;P = 0.002),对照组(26.69±5.88%;25.71±6.04%,p = 0.4)。此外,下胸与腹部呈较高的相位协调性。此外,计时赛测试的结果强调了自行车运动员休息时呼吸的相同模式,这表明呼吸力学的永久性改变的发展可能与自行车练习有关。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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