Solinski Hans Jürgen, Rukwied Roman
Department of Experimental Pain Research, Medical Faculty Mannheim, University of Heidelberg, Mannheim, Germany.
Front Med (Lausanne). 2021 Jan 20;7:627617. doi: 10.3389/fmed.2020.627617. eCollection 2020.
Administration of chemicals (pruritogens) into the skin evokes itch based on signal transduction mechanisms that generate action potentials mainly in mechanically sensitive and sensitive primary afferent C-fibers (pruriceptors). These signals from peripheral neurons are processed in spinal and supra-spinal centers of the central nervous system and finally generate the sensation of itch. Compared to chemical stimulation, electrical activation of pruriceptors would allow for better temporal control and thereby a more direct functional assessment of their activation. Here, we review the electrical stimulation paradigms which were used to evoke itch in humans in the past. We further evaluate recent attempts to explore electrically induced itch in atopic dermatitis patients. Possible mechanisms underlying successful pruritus generation in chronic itch patients by transdermal slowly depolarizing electrical stimulation are discussed.
将化学物质(致痒原)注入皮肤会基于信号转导机制引发瘙痒,该机制主要在机械敏感和敏感的初级传入C纤维(瘙痒感受器)中产生动作电位。来自外周神经元的这些信号在中枢神经系统的脊髓和脊髓上中枢进行处理,最终产生瘙痒感。与化学刺激相比,瘙痒感受器的电激活将实现更好的时间控制,从而对其激活进行更直接的功能评估。在此,我们回顾过去用于在人类中引发瘙痒的电刺激范式。我们进一步评估了最近在特应性皮炎患者中探索电诱导瘙痒的尝试。讨论了经皮缓慢去极化电刺激在慢性瘙痒患者中成功产生瘙痒的潜在机制。