响应三种常用振动频率下的侧交替全身振动时的能量消耗与底物氧化

Energy Expenditure and Substrate Oxidation in Response to Side-Alternating Whole Body Vibration across Three Commonly-Used Vibration Frequencies.

作者信息

Fares Elie-Jacques, Charrière Nathalie, Montani Jean-Pierre, Schutz Yves, Dulloo Abdul G, Miles-Chan Jennifer L

机构信息

Laboratory of Integrative Cardiovascular and Metabolic Physiology, Division of Physiology, Department of Medicine, University of Fribourg, Fribourg, Switzerland.

出版信息

PLoS One. 2016 Mar 14;11(3):e0151552. doi: 10.1371/journal.pone.0151552. eCollection 2016.

DOI:10.1371/journal.pone.0151552

PMID:26974147

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4790855/

Abstract

BACKGROUND AND AIM

There is increasing recognition about the importance of enhancing energy expenditure (EE) for weight control through increases in low-intensity physical activities comparable with daily life (1.5-4 METS). Whole-body vibration (WBV) increases EE modestly and could present both a useful adjuvant for obesity management and tool for metabolic phenotyping. However, it is unclear whether a "dose-response" exists between commonly-used vibration frequencies (VF) and EE, nor if WBV influences respiratory quotient (RQ), and hence substrate oxidation. We aimed to investigate the EE-VF and RQ-VF relationships across three different frequencies (30, 40, and 50Hz).

METHODS

EE and RQ were measured in 8 healthy young adults by indirect calorimetry at rest, and subsequently during side-alternating WBV at one of 3 VFs (30, 40, and 50 Hz). Each frequency was assessed over 5 cycles of intermittent WBV (30s vibration/30s rest), separated by 5 min seated rest. During the WBV participants stood on the platform with knees flexed sufficiently to maintain comfort, prevent transmission of vibration to the upper body, and minimise voluntary physical exertion. Repeatability was assessed across 3 separate days in a subset of 4 individuals. In order to assess any sequence/habituation effect, an additional group of 6 men underwent 5 cycles of intermittent WBV (30s vibration/30s rest) at 40 Hz, separated by 5 min seated rest.

RESULTS

Side-alternating WBV increased EE relative to standing, non-vibration levels (+36%, p<0.001). However, no differences in EE were observed across VFs. Similarly, no effect of VF on RQ was found, nor did WBV alter RQ relative to standing without vibration.

CONCLUSION

No relationship could be demonstrated between EE and VF in the range of 30-50Hz, and substrate oxidation did not change in response to WBV. Furthermore, the thermogenic effect of intermittent WBV, whilst robust, was quantitatively small (<2 METS).

摘要

背景与目的

人们越来越认识到，通过增加与日常生活相当的低强度体力活动（1.5 - 4梅脱）来提高能量消耗（EE）对于体重控制的重要性。全身振动（WBV）能适度增加能量消耗，可能是肥胖管理的有用辅助手段和代谢表型分析工具。然而，尚不清楚常用振动频率（VF）与能量消耗之间是否存在“剂量反应”关系，也不清楚全身振动是否会影响呼吸商（RQ），进而影响底物氧化。我们旨在研究三种不同频率（30、40和50赫兹）下的能量消耗 - 振动频率关系以及呼吸商 - 振动频率关系。

方法

对8名健康年轻成年人在静息状态下以及随后在三种振动频率（30、40和50赫兹）之一的侧向交替全身振动过程中，通过间接测热法测量能量消耗和呼吸商。每个频率在5个间歇性全身振动周期（30秒振动/30秒休息）中进行评估，中间间隔5分钟坐姿休息。在全身振动过程中，参与者站在平台上，膝盖充分弯曲以保持舒适，防止振动传递到上半身，并尽量减少自主体力消耗。在4名个体的子集中，在3个不同日期评估重复性。为了评估任何序列/习惯化效应，另外一组6名男性在40赫兹下进行5个间歇性全身振动周期（30秒振动/30秒休息），中间间隔5分钟坐姿休息。

结果

相对于站立、无振动状态，侧向交替全身振动使能量消耗增加（+36%，p<0.001）。然而，在不同振动频率之间未观察到能量消耗的差异。同样，未发现振动频率对呼吸商有影响，全身振动相对于无振动站立状态也未改变呼吸商。

结论

在30 - 50赫兹范围内，无法证明能量消耗与振动频率之间存在关系，底物氧化也未因全身振动而改变。此外，间歇性全身振动的产热效应虽然显著，但在数量上较小（<2梅脱）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fa43/4790855/173c0f48cda8/pone.0151552.g001.jpg

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响应三种常用振动频率下的侧交替全身振动时的能量消耗与底物氧化

Energy Expenditure and Substrate Oxidation in Response to Side-Alternating Whole Body Vibration across Three Commonly-Used Vibration Frequencies.

作者信息

机构信息

出版信息

BACKGROUND AND AIM

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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