振动触觉和温度觉及其与手指皮肤厚度的关系。

Vibrotactile and thermal perception and its relation to finger skin thickness.

作者信息

Lundström Ronnie, Dahlqvist Håkan, Hagberg Mats, Nilsson Tohr

机构信息

Department of Radiation Sciences, Biomedical Engineering and Radiation Physics, Umeå University, Umeå, Sweden.

ElMeKon HB, Karlstad, Sweden.

出版信息

Clin Neurophysiol Pract. 2018 Feb 12;3:33-39. doi: 10.1016/j.cnp.2018.01.001. eCollection 2018.

DOI:10.1016/j.cnp.2018.01.001

PMID:30215005

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6133778/

Abstract

OBJECTIVE

Quantitative measurements of vibrotactile and thermotactile perception thresholds (VPT and TPT, respectively) rely on responses from sensory receptors in the skin when mechanical or thermal stimuli are applied to the skin. The objective was to examine if there is a relation between skin thickness (epidermis and dermis) and VPT or TPT.

METHODS

Perception thresholds were measured on the volar side of the fingertip on 148 male subjects, out of which 116 were manual workers exposed to hand-transmitted vibration and 32 were white-collar (office) workers. Skin thickness was measured using a high-frequency ultrasonic derma scanner system.

RESULTS

The difference in age, perception thresholds and skin thickness between manual and office workers was small and non-significant except for the perception of cold, which was decreased by vibration exposure. Skin thickness for both subgroups was mean 0.57 mm (range 0.25-0.93 mm). Increased age was associated with decreased perception of warmth and vibration. Lifetime cumulative exposure to vibration, but not age, was associated with decreased perception of cold.

CONCLUSION

No association ( > .05) was found between finger skin thickness in the range of about 0.1-1 mm and vibration perception threshold for test frequencies from 8 to 500 Hz and thermotactile perception thresholds for warmth and cold. Increasing age was associated with reduced perception of vibration and warmth. Vibration exposure was associated with decreased perception of cold.

SIGNIFICANCE

Skin thickness is a factor that may affect the response from sensory receptors, e.g., due to mechanical attenuation and thermal insulation. Thus, to evaluate perception threshold measurements, it is necessary to know if elevated thresholds can be attributed to skin thickness. No previous studies have measured skin thickness as related to vibrotactile and thermotactile perception thresholds. This study showed no association between skin thickness and vibrotactile perception or thermotactile perception.

摘要

目的

定量测量振动触觉和温度触觉感知阈值（分别为VPT和TPT）依赖于对皮肤施加机械或热刺激时皮肤中感觉受体的反应。目的是研究皮肤厚度（表皮和真皮）与VPT或TPT之间是否存在关联。

方法

在148名男性受试者的指尖掌侧测量感知阈值，其中116名是接触手部传递振动的体力劳动者，32名是白领（办公室）工作人员。使用高频超声皮肤扫描仪系统测量皮肤厚度。

结果

体力劳动者和办公室工作人员在年龄、感知阈值和皮肤厚度方面的差异很小且无统计学意义，但冷觉感知除外，振动暴露会降低冷觉感知。两个亚组的皮肤厚度平均为0.57毫米（范围为0.25 - 0.93毫米）。年龄增加与温暖和振动感知的降低有关。终生累积振动暴露而非年龄与冷觉感知降低有关。

结论

在约0.1 - 1毫米范围内的手指皮肤厚度与8至500赫兹测试频率的振动感知阈值以及温暖和寒冷的温度触觉感知阈值之间未发现关联（>0.05）。年龄增加与振动和温暖感知的降低有关。振动暴露与冷觉感知降低有关。

意义

皮肤厚度是一个可能影响感觉受体反应的因素，例如由于机械衰减和隔热作用。因此，为了评估感知阈值测量，有必要了解升高的阈值是否可归因于皮肤厚度。以前没有研究测量过与振动触觉和温度触觉感知阈值相关的皮肤厚度。本研究表明皮肤厚度与振动触觉感知或温度触觉感知之间没有关联。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6fe7/6133778/f82caa3e799b/gr1.jpg

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振动触觉和温度觉及其与手指皮肤厚度的关系。

Vibrotactile and thermal perception and its relation to finger skin thickness.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

SIGNIFICANCE

目的

方法

结果

结论

意义

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