人类皮肤中C类伤害感受器无感觉分支的敏化作用。
Sensitization of insensitive branches of C nociceptors in human skin.
作者信息
Schmelz M, Schmidt R, Ringkamp M, Handwerker H O, Torebjörk H E
机构信息
Department of Clinical Neurophysiology, University Hospital, Uppsala, Sweden.
出版信息
J Physiol. 1994 Oct 15;480 ( Pt 2)(Pt 2):389-94. doi: 10.1113/jphysiol.1994.sp020368.
Abstract
- Eighteen cutaneous mechanosensitive C nociceptors were recorded from the peroneal nerves of healthy human subjects. Their identity was continuously monitored by intracutaneous electrical stimulation, and their activation by mechanical or transcutaneous electrical stimulation was detected by slowing of conduction velocity during the relative refractory period. 2. Mechanoreceptive fields (mRFs) mapped with suprathreshold von Frey hair stimuli covered an area of 99 +/- 21 mm2 (mean +/- S.E.M.). Two of the units had separate mRFs, with borders about 0.5-1.5 cm apart from each other and the largest of these units had a maximal diameter of 4.5 cm. 3. Successive topical application of mustard oil and capsaicin induced expansions of mRFs by 57 +/- 14 mm2 in eight of fifteen units. 4. In twelve units transcutaneous electrical stimulation delivered through a pointed electrode was used for mapping the electroreceptive fields (eRFs). The borders of the eRFs and the mRFs were identical for two of twelve units only. In the other ten units additional mechano-insensitive areas (55 +/- 22 mm2) were detected from which transcutaneous electrical stimuli could activate the respective unit. 5. Application of mustard oil and capsaicin to these mechano-insensitive areas sensitized five of eight units to mechanical stimuli. In these cases the mRF after sensitization exactly corresponded to the eRF. 6. It is concluded that there are insensitive branches in human mechanosensitive cutaneous C nociceptors that can be detected by transcutaneous electrical stimulation and sensitized by topical application of chemical irritants. Activation of those branches in the course of inflammatory processes may contribute to spatial summation at central synapses and hence to hyperalgesia.
摘要
- 从健康人体受试者的腓神经记录了18个皮肤机械性敏感C类伤害感受器。通过皮内电刺激持续监测它们的特性,并在相对不应期通过传导速度减慢检测它们对机械或经皮电刺激的激活。2. 用阈上von Frey毛刺激绘制的机械感受野(mRFs)覆盖面积为99±21平方毫米(平均值±标准误)。其中两个单元有独立的mRFs,边界彼此相距约0.5 - 1.5厘米,其中最大的单元最大直径为4.5厘米。3. 在15个单元中的8个单元中,连续局部应用芥子油和辣椒素使mRFs扩大了57±14平方毫米。4. 在12个单元中,通过尖电极进行经皮电刺激以绘制电感受野(eRFs)。仅在12个单元中的2个单元中,eRFs和mRFs的边界相同。在其他10个单元中,检测到额外的机械不敏感区域(55±22平方毫米),经皮电刺激可从这些区域激活相应单元。5. 向这些机械不敏感区域应用芥子油和辣椒素使8个单元中的5个对机械刺激敏感。在这些情况下,致敏后的mRF与eRF完全对应。6. 得出结论,人类机械性敏感皮肤C类伤害感受器中存在不敏感分支,可通过经皮电刺激检测到,并可通过局部应用化学刺激剂使其敏感。在炎症过程中激活这些分支可能有助于中枢突触处的空间总和,从而导致痛觉过敏。
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