在人类参与者的低强度振动过程中增加皮肤血流量：使用短时傅里叶变换分析控制机制。

Increased skin blood flow during low intensity vibration in human participants: Analysis of control mechanisms using short-time Fourier transform.

机构信息

Department of Physical Therapy, University of Illinois at Chicago, Chicago, Illinois, United States of America.

Department of Kinesiology and Nutrition, University of Illinois at Chicago, Chicago, Illinois, United States of America.

出版信息

PLoS One. 2018 Jul 12;13(7):e0200247. doi: 10.1371/journal.pone.0200247. eCollection 2018.

DOI:10.1371/journal.pone.0200247

PMID:30001409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6042750/

Abstract

AIM

Investigate the immediate effect of low intensity vibration on skin blood flow and its underlying control mechanisms in healthy human participants.

MATERIALS AND METHODS

One-group pre-post design in a university laboratory setting. Nine adults underwent two bouts of 10-minute vibration (30Hz, peak acceleration 0.4g). Outcome measures include skin blood flow, and skin temperature on the right foot. To examine the control mechanisms underlying the vibration-induced blood flow response, SHORT-TIME Fourier analyses were computed to obtain the spectral densities for three frequency bands: metabolic (0.0095-0.02Hz), neurogenic (0.02-0.06Hz), and myogenic (0.06-0.15Hz). Non-parametric Friedman's tests were computed to compare changes of the outcome measures and control mechanisms over the course of vibration.

RESULTS

Vibration increased skin blood flow during both bouts of vibration, however the effect did not last after vibration was terminated. Myogenic spectral density increased during both bouts of vibration, whereas the metabolic and neurogenic spectral densities increased only during the 2nd bout of vibration. Interestingly, only the metabolic spectral density remained elevated after vibration ended.

CONCLUSION

Low intensity vibration produced acute increases in skin blood flow mediated in part by vascular control mechanisms of myogenic origin. Further investigation is warranted to determine whether low intensity vibration induces similar increases in skin blood flow in populations prone to developing chronic non-healing wounds, such as spinal cord injury and diabetes.

摘要

目的

研究低强度振动对健康人体皮肤血流的即时影响及其潜在的控制机制。

材料和方法

在大学实验室环境中采用单组前后设计。9 名成年人接受了两次 10 分钟的振动（30Hz，峰值加速度 0.4g）。结果测量包括右脚的皮肤血流和皮肤温度。为了研究振动引起的血流反应的潜在控制机制，进行了SHORT-TIME Fourier 分析，以获得三个频率带的谱密度：代谢（0.0095-0.02Hz）、神经（0.02-0.06Hz）和肌源性（0.06-0.15Hz）。采用非参数 Friedman 检验比较振动过程中结果测量和控制机制的变化。

结果

振动在两次振动过程中均增加了皮肤血流，但振动停止后血流并未持续增加。在两次振动过程中，肌源性谱密度均增加，而代谢和神经谱密度仅在第二次振动过程中增加。有趣的是，只有代谢谱密度在振动结束后仍保持升高。

结论

低强度振动产生急性皮肤血流增加，部分由肌源性血管控制机制介导。需要进一步研究以确定低强度振动是否会在易发生慢性不愈合伤口的人群（如脊髓损伤和糖尿病）中引起类似的皮肤血流增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03f0/6042750/62c0f5d45970/pone.0200247.g001.jpg

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在人类参与者的低强度振动过程中增加皮肤血流量：使用短时傅里叶变换分析控制机制。

Increased skin blood flow during low intensity vibration in human participants: Analysis of control mechanisms using short-time Fourier transform.

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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