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老年人、中风患者和糖尿病性神经病变患者中噪声增强的振动触觉敏感性。

Noise-enhanced vibrotactile sensitivity in older adults, patients with stroke, and patients with diabetic neuropathy.

作者信息

Liu Wen, Lipsitz Lewis A, Montero-Odasso Manuel, Bean Jonathan, Kerrigan D Casey, Collins James J

机构信息

Center for BioDynamics and Department of Biomedical Engineering, Boston University, Boston, MA 02215, USA.

出版信息

Arch Phys Med Rehabil. 2002 Feb;83(2):171-6. doi: 10.1053/apmr.2002.28025.

DOI:10.1053/apmr.2002.28025
PMID:11833019
Abstract

OBJECTIVE

To test the hypothesis that vibrotactile detection thresholds in older adults, patients with stroke, and patients with diabetic neuropathy can be significantly reduced with the introduction of mechanical noise.

DESIGN

A randomized controlled study.

SETTING

A university research laboratory.

PARTICIPANTS

Twelve healthy elderly subjects (age range, 67-85y), 5 patients with stroke (age range, 24-64y), and 8 patients with diabetic neuropathy (age range, 53-77y).

INTERVENTIONS

Each subject's detection thresholds (ie, minimum level of stimulus to be detected) for a vibrotactile stimulus without and with mechanical noise (ie, random vibration with a small intensity) were determined by using a 4-, 2-, and 1-stepping algorithm. The stimuli were applied to the fingertip and/or to the first metatarsal of the foot.

MAIN OUTCOME MEASURE

Detection threshold for a vibrotactile stimulus.

RESULTS

The detection threshold at the fingertip for the vibration stimulus with mechanical noise was significantly lower than that without mechanical noise for all 12 elderly subjects, for 4 of the 5 patients with stroke, and all 8 patients with diabetic neuropathy. For the 8 patients with diabetes, mechanical noise also significantly reduced the vibrotactile detection threshold at the foot.

CONCLUSIONS

Reduced vibrotactile sensitivity in older adults, patients with stroke, and patients with diabetic neuropathy can be significantly improved with input mechanical noise. Noise-based techniques and devices may prove useful in overcoming age- and disease-related losses in sensorimotor function.

摘要

目的

验证以下假设,即引入机械噪声可显著降低老年人、中风患者及糖尿病性神经病变患者的振动触觉检测阈值。

设计

一项随机对照研究。

地点

一所大学研究实验室。

参与者

12名健康老年人(年龄范围67 - 85岁)、5名中风患者(年龄范围24 - 64岁)以及8名糖尿病性神经病变患者(年龄范围53 - 77岁)。

干预措施

使用4步、2步和1步算法,分别测定每位受试者在无机械噪声和有机械噪声(即小强度随机振动)情况下对振动触觉刺激的检测阈值(即能被检测到的最小刺激水平)。刺激施加于指尖和/或足部第一跖骨处。

主要观察指标

振动触觉刺激的检测阈值。

结果

对于所有12名老年受试者、5名中风患者中的4名以及所有8名糖尿病性神经病变患者,有机械噪声时指尖对振动刺激的检测阈值显著低于无机械噪声时。对于8名糖尿病患者,机械噪声也显著降低了足部的振动触觉检测阈值。

结论

通过输入机械噪声,可显著改善老年人、中风患者及糖尿病性神经病变患者降低的振动触觉敏感性。基于噪声的技术和设备可能在克服与年龄和疾病相关的感觉运动功能丧失方面有用。

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