Influence of Ambient Temperature on Autonomic Nerve Function and Peripheral Sensation from Moderate-Intensity Treadmill Exercise.

Q1 Health Professions
International journal of exercise science Pub Date : 2024-04-01 eCollection Date: 2024-01-01
Sunao Wada, M H Mahbub, Natsu Yamaguchi, Ryosuke Hase, Tsuyoshi Tanabe
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引用次数: 0

Abstract

Objective: The main objective was to ascertain the acute responses in autonomic nervous activity and peripheral sensation induced by moderate-intensity treadmill exercise performed under different ambient temperatures.

Methods: Twelve young healthy subjects underwent three sessions of moderate-intensity treadmill exercise (warming, 5 min and running, 25 min), on different days under 10°C, 20°C and 30°C room temperatures. Pre- and post-intervention, heart rate variability (HRV) and plantar vibrotactile perception threshold (VPT) were measured. Additionally, rate of perceived exertion (RPE) was recorded after intervention.

Results: In comparison with the corresponding baseline values, after intervention, low frequency power (LF) and LF/high frequency power (HF) of HRV increased significantly and HF decreased significantly under the condition of 10°C only (p < .005). Following intervention, VPT increased significantly at the hallux for 31.5 Hz test frequency under 30°C and at the heel for 31.5 Hz test frequency under 10°C (both p < .05). In contrast, VPT decreased significantly at the hallux for 125 Hz test frequency under 10°C (p < .005). Exposure under the temperature of 20°C did not result in any significant change in VPT. After intervention, RPE under 30°C showed significantly higher values than those under 20°C (p < .01) and 10°C (p < .005) conditions with no difference between the latter two conditions.

Conclusions: Treadmill exercise under 20°C ambient temperature did not exert any negative impacts on autonomic and peripheral nerve function and resulted in a perceived exertion of moderate intensity among the study participants. Therefore, an ambient temperature around 20°C might be recommended for the mentioned purpose.

环境温度对中等强度跑步机运动的自律神经功能和外周感觉的影响
目的主要目的是确定在不同环境温度下进行中等强度跑步机运动所引起的自律神经活动和外周感觉的急性反应:12名年轻的健康受试者在10°C、20°C和30°C室温下进行了三次中等强度的跑步机运动(热身5分钟,跑步25分钟)。测量了干预前后的心率变异性(HRV)和足底振动触觉阈值(VPT)。此外,还记录了干预后的体力消耗率(RPE):结果:与相应的基线值相比,干预后,心率变异的低频功率(LF)和低频/高频功率(HF)显著增加,仅在 10°C 条件下,HF 显著下降(p < .005)。干预后,在 30°C 条件下,测试频率为 31.5 Hz 时,脚掌处的 VPT 明显增加;在 10°C 条件下,测试频率为 31.5 Hz 时,脚跟处的 VPT 明显增加(均 p < .05)。相比之下,在 10°C 下以 125 Hz 的测试频率进行测试时,脚掌处的 VPT 明显下降(p < .005)。在 20°C 的温度下,VPT 没有任何明显变化。干预后,30°C条件下的RPE值明显高于20°C(p < .01)和10°C(p < .005)条件下的RPE值,后两种条件下的RPE值没有差异:结论:在 20°C 环境温度下进行跑步机运动不会对自律神经和周围神经功能产生任何负面影响,而且研究参与者的体力消耗感知强度适中。因此,为达到上述目的,建议环境温度保持在 20°C 左右。
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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来源期刊
International journal of exercise science
International journal of exercise science Health Professions-Occupational Therapy
CiteScore
2.20
自引率
0.00%
发文量
47
审稿时长
26 weeks
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