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一项针对年轻成年男性训练有素的游泳运动员、自行车运动员和未受过训练男性的横断面研究中对节段性动脉僵硬度的调查。

Investigations of segmental arterial stiffness in a cross-sectional study on young adult male trained swimmers, cyclists, and non-trained men.

作者信息

Nishiwaki Masato, Kume Daisuke, Matsumoto Naoyuki

机构信息

Faculty of Engineering, Osaka Institute of Technology, Osaka, Japan.

Faculty of Information Science and Technology, Osaka Institute of Technology, Hirakata, Osaka, Japan.

出版信息

Physiol Rep. 2025 Jan;13(1):e70186. doi: 10.14814/phy2.70186.

DOI:10.14814/phy2.70186
PMID:39743375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11693416/
Abstract

Contrary to cardiovascular risk reductions by aerobic exercise, arterial stiffness, as assessed by brachial-ankle pulse wave velocity (PWV), is higher in swimmers and controls than in other aerobically trained individuals. The main muscles actively recruited in swimming are in the upper limbs, so this study aimed to investigate heart-brachial PWV in swimmers and to compare arterial stiffness indices between modes and measurement localities. Subjects comprised 60 individuals (18-22 years), including 20 untrained controls (Con), 20 aerobically trained cyclists (Aero), and 20 swimmers (Swim). Characteristics and strength did not differ, but peak oxygen uptake was significantly higher in Aero and Swim than in Con. Brachial-ankle PWV was significantly lower in Aero than in Con and Swim and no significant difference was observed between Con and Swim (Con, 1070 ± 115; Aero, 916 ± 109; Swim, 1035 ± 91 cm/s). Nevertheless, heart-brachial PWV was significantly lower in Swim than in Con and tended to be lower in Swim than in Aero (Con, 344 ± 25; Aero, 330 ± 41; Swim, 308 ± 31 cm/s). Heart-ankle PWV was significantly lower in both Swim and Aero than in Con (Con, 618 ± 47; Aero, 580 ± 54; Swim, 576 ± 43 cm/s). Therefore, these findings indicate that swimmers can develop segment-specific reductions in heart-brachial arterial stiffness, unlike aerobically trained cyclists.

摘要

与有氧运动降低心血管风险相反,通过臂踝脉搏波速度(PWV)评估的动脉僵硬度在游泳者和对照组中高于其他接受有氧训练的个体。游泳时主要积极参与运动的肌肉在上肢,因此本研究旨在调查游泳者的心脏-臂部PWV,并比较不同运动模式和测量部位之间的动脉僵硬度指标。受试者包括60名年龄在18 - 22岁之间的个体,其中包括20名未经训练的对照组(Con)、20名接受有氧训练的自行车运动员(Aero)和20名游泳者(Swim)。各组的特征和力量无差异,但Aero组和Swim组的峰值摄氧量显著高于Con组。Aero组的臂踝PWV显著低于Con组和Swim组,Con组和Swim组之间未观察到显著差异(Con组,1070±115;Aero组,916±109;Swim组,1035±91 cm/s)。然而,Swim组的心脏-臂部PWV显著低于Con组,且有低于Aero组的趋势(Con组,344±25;Aero组,330±41;Swim组,308±31 cm/s)。Swim组和Aero组的心脏-踝部PWV均显著低于Con组(Con组,618±47;Aero组,580±54;Swim组,576±43 cm/s)。因此,这些发现表明,与接受有氧训练的自行车运动员不同,游泳者可使心脏-臂部动脉僵硬度出现节段特异性降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/678e/11693416/def6a7a6ff93/PHY2-13-e70186-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/678e/11693416/def6a7a6ff93/PHY2-13-e70186-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/678e/11693416/def6a7a6ff93/PHY2-13-e70186-g001.jpg

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