Lefaucheur Jean-Pascal, Abbas Samar A, Lefaucheur-Ménard Isabelle, Rouie Denis, Tebbal Denise, Bismuth Julie, Nordine Tarik
Univ Paris Est Creteil, EA4391, ENT, F-94010 Creteil, France; AP-HP, Henri Mondor University Hospital, Clinical Neurophysiology Unit, F-94010 Creteil, France.
AP-HP, Henri Mondor University Hospital, Clinical Neurophysiology Unit, F-94010 Creteil, France.
Neurophysiol Clin. 2021 Aug;51(4):357-374. doi: 10.1016/j.neucli.2021.06.004. Epub 2021 Jul 23.
In clinical neurophysiology practice, various methods of stimulation can be used to activate small-diameter nociceptive cutaneous afferents located in the epidermis. These methods include different types of laser and intraepidermal electrical stimulation techniques. The diffusion of the stimulation in the skin, inside or under the epidermis, depends on laser wavelength and electrode design, in particular. The aim of this study was to compare several of these techniques in their ability to selectively stimulate small nerve fibers.
In 8 healthy subjects, laser stimulation (using a CO or Nd:YAP laser) and intraepidermal electrical stimulation (using a micropatterned, concentric planar, or concentric needle electrode), were applied at increasing energy or intensity on the dorsal or volar aspect of the right hand or foot. The subjects were asked to define the perceived sensation (warm, pinprick, or electric shock sensation, corresponding to the activation of C fibers, Aδ fibers, or Aβ fibers, respectively) after each stimulation. Depending on the difference in the sensations perceived between dorsal (hairy skin with thin stratum corneum) and volar (glabrous skin with thick stratum corneum) stimulations, the diffusion of the stimulation inside or under the epidermis and the nature of the activated afferents were determined.
Regarding laser stimulation, the perceived sensations turned from warm to pinprick with increasing energies of stimulation, in particular with the Nd:YAP laser, of which pulse could penetrate deep in the skin according to its short wavelength. In contrast, CO laser stimulation produced only warm sensations and no pricking sensation when applied to the glabrous skin, perhaps due to a thicker stratum corneum and the shallow penetration of the CO laser pulse. Regarding intraepidermal electrical stimulation using concentric electrodes, the perceived sensations turned from pinprick to a combination of pinprick and electrical shocks with increasing intensities. Using the concentric planar electrode, the sensations perceived at high stimulation intensity even consisted of electric shocks without concomitant pinprick. In contrast, using the micropatterned electrode, only pinprick sensations were produced by the stimulation of the hairy skin, while the stimulation of the glabrous skin produced no sensation at all within the limits of stimulation intensities used in this study.
Using the CO laser or the micropatterned electrode, pinprick sensations were selectively produced by the stimulation of hairy skin, while only warm sensation or no sensation at all were produced by the stimulation of glabrous skin. These two techniques appear to be more selective with a limited diffusion of the stimulation into the skin, restricting the activation of sensory afferents to the most superficial and smallest intraepidermal nerve fibers.
在临床神经生理学实践中,可采用多种刺激方法来激活位于表皮的小直径伤害性皮肤传入神经。这些方法包括不同类型的激光和表皮内电刺激技术。刺激在皮肤内、表皮内或表皮下的扩散尤其取决于激光波长和电极设计。本研究的目的是比较其中几种技术在选择性刺激小神经纤维方面的能力。
对8名健康受试者的右手或右脚背侧或掌侧施加激光刺激(使用CO或Nd:YAP激光)和表皮内电刺激(使用微图案化、同心平面或同心针电极),并逐渐增加能量或强度。要求受试者在每次刺激后确定所感受到的感觉(温热、刺痛或电击感,分别对应C纤维、Aδ纤维或Aβ纤维的激活)。根据背侧(角质层薄的有毛皮肤)和掌侧(角质层厚的无毛皮肤)刺激所感受到的感觉差异,确定刺激在表皮内或表皮下的扩散以及被激活的传入神经的性质。
关于激光刺激,随着刺激能量的增加,尤其是使用Nd:YAP激光时,所感受到 的感觉从温热转变为刺痛,Nd:YAP激光的脉冲由于波长较短可深入皮肤。相比之下,CO激光刺激应用于无毛皮肤时仅产生温热感,未产生刺痛感,这可能是由于角质层较厚以及CO激光脉冲穿透较浅。关于使用同心电极的表皮内电刺激,随着强度增加,所感受到的感觉从刺痛转变为刺痛和电击的组合。使用同心平面电极时,在高刺激强度下所感受到的感觉甚至仅由电击组成,无伴随的刺痛。相比之下,使用微图案化电极时,刺激有毛皮肤仅产生刺痛感,而在本研究使用的刺激强度范围内,刺激无毛皮肤未产生任何感觉。
使用CO激光或微图案化电极时,刺激有毛皮肤可选择性地产生刺痛感,而刺激无毛皮肤仅产生温热感或根本不产生感觉。这两种技术似乎更具选择性,刺激在皮肤内的扩散有限,将感觉传入神经的激活限制在最浅表和最小的表皮内神经纤维。
Zotero 插件