Each step involved in neurohumoral transmission represents a potential point of drug attack . 神经递质传递中的每一步都可作为药物的潜在作用点。
2.
Various mechanisms have been reported , including vasoconstrictor substances , pharmacologic stimuli , and neurohumoral effects 各种机转曾被报告过,包括促血管收缩物质,药物的刺激及神经荷尔蒙的影响。
3.
In this paper , the author summarized the morphological features and functions of the ependymal and supraependymal ultrastructural structure , which is the main structural basis of " brain - csf neurohumoral circuit " 本文对“脑脑脊液神经体液回路”的主要结构基础室管膜和室管膜上超微结构的形态学特点及功能进行综述。
4.
Combined with a large number of animal experimentations and clinical observations , some scholars proposed a special information communication netwoks , known as " brain - csf neurohumoral circuit " , which can exchange the substance and information 结合大量的动物实验和临床观察,有学者提出了由这种物质和信息交流所构成的一种特殊的信息交流网络“脑脑脊液神经体液回路” 。
5.
Since 90th of 20 centery it has began to interest in their roles in neuroimmune modulation . as far as the supraependymal structures are concerned , such as supraependymal cells , fibers , and csf - contacting neurons they has been interest in their functions of neurohumoral modulation and in roles within neuro - endoerine - immune network . because cvos locate just at signal exchanging sites among blood , brain tissue and csf , their special locations may determine their decisive roles in neuro - endocrine - immune modulation 而有关室管膜上细胞,室管膜上纤维以及接触脑脊液神经元在神经体液调节以及神经-内分泌-免疫调节网络中的作用,目前越来越受到人们的重视,由于室周器官处于血液-神经-脑脊液三种信息流的交汇处,特殊的位置决定了它在神经-内分泌-免疫调节中可能起着举足轻重的作用。
