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家兔和大鼠皮肤C纤维类型与逆向性血管舒张之间的关系。

The relationship between cutaneous C fibre type and antidromic vasodilatation in the rabbit and the rat.

作者信息

Gee M D, Lynn B, Cotsell B

机构信息

Department of Physiology, University College London, UK.

出版信息

J Physiol. 1997 Aug 15;503 ( Pt 1)(Pt 1):31-44. doi: 10.1111/j.1469-7793.1997.031bi.x.

DOI:10.1111/j.1469-7793.1997.031bi.x
PMID:9288672
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1159884/
Abstract
  1. Skin blood flow was monitored during antidromic stimulation of identified cutaneous C fibres in fine filaments dissected from the saphenous nerve of anaesthetized rabbits and rats. The techniques used to monitor skin blood flow were laser Doppler perfusion imaging and laser Doppler flowmetry. 2. In the rabbit filaments a total of thirty-three C fibres were tested for their ability to produce antidromic vasodilatation. The only C fibres found to have vasodilator actions were of the polymodal nociceptor afferent class, and fourteen (50%) of the twenty-eight polymodal nociceptor units tested were vasoactive. The afferent receptive fields of polymodal nociceptor afferents were mapped carefully using suprathreshold mechanical stimuli, and there was a good correlation between afferent receptive field area and area of vasodilatation. 3. In the rat, eleven of the fifty-four C fibres antidromically stimulated had vasodilator actions. All eleven vasoactive C fibres were nociceptive and comprised seven polymodal nociceptor units, two heat nociceptor units and two incompletely classified nociceptor units. The area of increased blood flow was always coincident with the afferent field of the stimulated unit. 4. In the rat the vasodilator units were not evenly distributed over the saphenous nerve receptive field. Nine of the eleven vasoactive C fibres had receptive fields located on the foot or the digits, and only two were on the ankle or lower leg. Overall, the population of nociceptive C fibres was evenly distributed over the saphenous nerve receptive field. 5. In both the rabbit and the rat, a subclass of polymodal nociceptor afferents form the majority of the vasoactive units and will make the main contribution to axon reflex flare and other neurogenic inflammatory responses involving vasodilatation. The vasoactive polymodal nociceptor units tend to have relatively low mechanical sensitivity, although they have typical heat thresholds. In the rat heat nociceptor units also have vasodilator actions. However, such heat nociceptor units form a minor functional class of afferent C fibre in the rat saphenous nerve, and are not found in the rabbit saphenous nerve. 6. The findings from this study in the rabbit and the rat are compared with the situation in pig skin. The close relationship between afferent receptive field area and spread of flare across species is noted, and the way these measures increase with body size is discussed.
摘要
  1. 在对从麻醉兔和大鼠的隐神经中分离出的细丝中已识别的皮肤C纤维进行逆向刺激期间,监测皮肤血流。用于监测皮肤血流的技术是激光多普勒灌注成像和激光多普勒血流测定法。2. 在兔的细丝中,总共测试了33根C纤维产生逆向血管舒张的能力。发现具有血管舒张作用的唯一C纤维是多模式伤害感受器传入纤维类,在测试的28个多模式伤害感受器单位中有14个(50%)具有血管活性。使用阈上机械刺激仔细绘制多模式伤害感受器传入纤维的传入感受野,传入感受野面积与血管舒张面积之间存在良好的相关性。3. 在大鼠中,逆向刺激的54根C纤维中有11根具有血管舒张作用。所有11根具有血管活性的C纤维都是伤害性的,包括7个多模式伤害感受器单位、2个热伤害感受器单位和2个分类不完全的伤害感受器单位。血流增加的区域总是与受刺激单位的传入区域一致。4. 在大鼠中,血管舒张单位在隐神经感受野上分布不均匀。11根具有血管活性的C纤维中有9根的感受野位于足部或趾部,只有2根位于踝部或小腿部。总体而言,伤害性C纤维群体在隐神经感受野上分布均匀。5. 在兔和大鼠中,多模式伤害感受器传入纤维的一个亚类构成了血管活性单位的大多数,并将对轴突反射性潮红和其他涉及血管舒张的神经源性炎症反应做出主要贡献。具有血管活性的多模式伤害感受器单位往往具有相对较低的机械敏感性,尽管它们具有典型的热阈值。在大鼠中,热伤害感受器单位也具有血管舒张作用。然而,这种热伤害感受器单位在大鼠隐神经中构成传入C纤维的一个次要功能类别,在兔隐神经中未发现。6. 将兔和大鼠的这项研究结果与猪皮肤的情况进行比较。注意到跨物种传入感受野面积与潮红扩散之间的密切关系,并讨论了这些测量值随体型增加的方式。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/75f7c323d7fa/jphysiol00381-0041-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/30c7f6274b7c/jphysiol00381-0036-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/44cf61f3c8db/jphysiol00381-0037-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/75f7c323d7fa/jphysiol00381-0041-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/30c7f6274b7c/jphysiol00381-0036-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/44cf61f3c8db/jphysiol00381-0037-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95e2/1159884/75f7c323d7fa/jphysiol00381-0041-a.jpg

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