猫口腔面部区域副交感神经血管舒张的交感神经抑制作用
Sympathetic attenuation of parasympathetic vasodilatation in oro-facial areas in the cat.
作者信息
Izumi H, Ito Y
机构信息
Department of Physiology, Tohoku University School of Dentistry, Sendai 980-8575, Japan.
出版信息
J Physiol. 1998 Aug 1;510 ( Pt 3)(Pt 3):915-21. doi: 10.1111/j.1469-7793.1998.915bj.x.
Abstract
- The present study was designed to examine the interaction between sympathetic and parasympathetic influences on blood flow in oro-facial areas such as lower lip, palate and submandibular gland (SMG) and in the common carotid artery (CCA) in anaesthetized cats. 2. Section of the ipsilateral superior cervical sympathetic trunk (CST) increased the basal CCA blood flow significantly. The control level with the nerve intact was comparable with that seen at 0.5-1 Hz CST stimulation, suggesting a spontaneous discharge of around 0. 5-1 Hz in the CST fibres innervating the beds supplied by the CCA. The basal blood flow at all sites examined was reduced by CST stimulation in a frequency-dependent manner. 3. Electrical stimulation of the central end of the lingual nerve (LN) evoked blood flow increases in the lower lip and palate. These blood flow increases were markedly reduced by concurrent CST stimulation in a manner that was frequency dependent, but not simply related to the vasoconstrictor effect of CST stimulation. This effect of CST stimulation was not observed in tongue or SMG, even though CST stimulation evoked vasoconstriction in these tissues. A significant reduction in the level of CCA blood flow attained during LN stimulation was observed on repetitive CST stimulation only at 10 Hz, indicating that this response behaved in a fashion different from that seen in the lower lip, palate, tongue and SMG. 4. The present study suggests that concurrent repetitive CST stimulation reduces parasympathetically mediated blood flow increases in certain oro-facial areas (such as the lower lip and palate), but not in the tongue and SMG. This inhibitory action was not a simple additive effect (between vasoconstriction and vasodilatation) and it disappeared rapidly after the cessation of CST stimulation.
摘要
- 本研究旨在探讨在麻醉猫中,交感神经和副交感神经对诸如下唇、腭部和下颌下腺(SMG)等口面部区域以及颈总动脉(CCA)血流影响之间的相互作用。2. 切断同侧颈上交感干(CST)可显著增加CCA的基础血流。神经完整时的对照水平与0.5 - 1 Hz CST刺激时所见水平相当,这表明支配CCA供血区域的CST纤维存在约0.5 - 1 Hz的自发放电。通过CST刺激,所有检测部位的基础血流均以频率依赖的方式减少。3. 电刺激舌神经(LN)的中枢端可引起下唇和腭部血流增加。这些血流增加在同时进行CST刺激时以频率依赖的方式显著减少,但并非简单地与CST刺激的血管收缩效应相关。即使CST刺激在这些组织中引起血管收缩,但在舌部或SMG中未观察到CST刺激的这种效应。仅在10 Hz重复CST刺激时,观察到LN刺激期间达到的CCA血流水平显著降低,这表明该反应的表现方式与下唇、腭部、舌部和SMG中所见不同。4. 本研究表明,同时进行重复的CST刺激可减少某些口面部区域(如下唇和腭部)由副交感神经介导的血流增加,但在舌部和SMG中则不然。这种抑制作用并非简单的叠加效应(血管收缩和血管舒张之间),并且在CST刺激停止后迅速消失。
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