[The interrelationship of pain and temperature reception in human skin].

Neirofiziologiia = Neurophysiology Pub Date : 1992-01-01
G Kh Abeuova, S Zh Tleulin, A V Chemeris, M B Abuziarova, S A Ibragimova
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Abstract

Local cooling (14-16 degrees C) and warming (40-42 degrees C) of different crus areas or healthy volunteers have been studied for their effect on pain sensitivity. The latter was estimated by means of the tibialis anterior flexor reflex (FR) and EMC-recording. It was established that changes in FR parameters depended not on the thermostimulus modality, but on its position. The FR was enhanced when the warm or cold stimulus was applied over the ipsilateral tested flexor muscle, and it was mainly inhibited when the thermostimulus was over the extensor or contralateral flexor. An assumption is made that the loss of the temperature modality is caused by convergence of temperature and pain information to the spinal interneurons of the "bimodal type". These neurons change their impulse activity under the effect of both temperature modalities. Different reactions of FR on thermostimulation of different areas of the crus are explained by the locomotor generation control of afferent information.

[人体皮肤疼痛与温度接受的相互关系]。
对健康志愿者的不同小腿部位进行局部冷却(14-16摄氏度)和加热(40-42摄氏度),研究了它们对疼痛敏感性的影响。后者是通过胫骨前屈反射(FR)和电磁记录来估计的。结果表明,FR参数的变化与热刺激方式无关,而与热刺激位置有关。当热刺激或冷刺激作用于同侧屈肌时,FR增强,而当热刺激作用于伸肌或对侧屈肌时,FR主要被抑制。假设温度模态的丢失是由温度和疼痛信息向“双峰型”的脊髓中间神经元收敛引起的。这些神经元在两种温度模式的作用下改变了它们的冲动活动。FR对小腿不同部位热刺激的不同反应可以通过传入信息的运动产生控制来解释。
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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