Anatomy and Histology and Centre for Neuroscience, Flinders University, Adelaide, South Australia, Australia.
J Sex Med. 2011 Jul;8(7):1985-95. doi: 10.1111/j.1743-6109.2011.02258.x. Epub 2011 Apr 7.
The structural and neurochemical characterization of the sensory innervation of the external genitalia of females is poorly known.
To immunohistochemically map the sensory innervation of external genitalia and surrounding structures of female guinea pigs and mice.
Large-diameter sensory fibers, presumably mechanoreceptors, were identified by their immunoreactivity to neuron-specific enolase (NSE) or vesicular glutamate transporter 1 (VGluT1). Peptidergic sensory fibers, presumably unmyelinated nociceptors, were identified by their immunoreactivity to calcitonin gene-related peptide (CGRP), substance P, or both. Multiple-labelled tissues were examined with high-resolution confocal microscopy.
Microscopic identification of sensory endings, including potential nociceptors, characteristic of the external genitalia.
Large complex nerve endings immunoreactive for NSE and VGluT1 were abundant in dermal papillae of the clitoris. Each large ending was accompanied by one or two fine fibers immunoreactive for CGRP but neither substance P nor VGluT1. More simple NSE-immunoreactive endings occurred within dermal papillae in non-hairy skin of the labia and anal canal but were rare in pudendal or perineal hairy skin. Fine intra-epithelial fibers immunoreactive for NSE but not CGRP were abundant in hairy skin but rare in non-hairy genital skin and the clitoris. Only fine varicose fibers immunoreactive for both CGRP and substance P occurred in connective tissue underlying the mucosal epithelium of cervix and endometrium.
Compared with surrounding tissues, the sensory innervation of the clitoris is highly specialized. The coactivation of nociceptors containing CGRP but not substance P within each mechanoreceptor complex could be the explanation of pain disorders of the external genitalia.
女性外生殖器的感觉神经支配的结构和神经化学特性知之甚少。
用免疫组织化学方法描绘雌性豚鼠和小鼠外生殖器和周围结构的感觉神经支配。
大直径感觉纤维,推测为机械感受器,通过其对神经元特异性烯醇化酶(NSE)或囊泡谷氨酸转运体 1(VGluT1)的免疫反应性来识别。肽能感觉纤维,推测为无髓鞘伤害感受器,通过其对降钙素基因相关肽(CGRP)、P 物质或两者的免疫反应性来识别。用高分辨率共焦显微镜检查多标记组织。
感觉末梢,包括潜在的伤害感受器,的微观识别,这些末梢是外生殖器的特征。
在阴蒂的真皮乳头中,富含对 NSE 和 VGluT1 呈免疫反应性的大型复杂神经末梢。每个大的末梢都伴随着一个或两个对 CGRP 呈免疫反应但对 P 物质或 VGluT1 均不呈免疫反应的细纤维。在阴唇和肛门管的非多毛皮肤的真皮乳头中,出现更多的简单的 NSE 免疫反应性末梢,但在阴部或会阴多毛皮肤中则很少见。在有毛皮肤中,对 NSE 呈免疫反应但对 CGRP 不呈免疫反应的细上皮内纤维丰富,但在外生殖器非多毛皮肤和阴蒂中则很少见。在宫颈和子宫内膜粘膜上皮下的结缔组织中,只有对 CGRP 和 P 物质均呈免疫反应的细静脉曲张纤维。
与周围组织相比,阴蒂的感觉神经支配高度专业化。每个机械感受器复合体中包含 CGRP 但不包含 P 物质的伤害感受器的共同激活可能是外生殖器疼痛障碍的解释。
