慢通道抑制剂对脑功能的影响:大鼠对严重缺氧的耐受性
Slow channel inhibitor effects on brain function: tolerance to severe hypoxia in the rat.
作者信息
Cartheuser C F
机构信息
Zentrum Physiologie, Medizinische Hochschule Hannover, FRG.
出版信息
Br J Pharmacol. 1988 Nov;95(3):903-13. doi: 10.1111/j.1476-5381.1988.tb11720.x.
Abstract
- The protective effects of ten slow channel inhibitor drugs against severe progressive hypoxia were investigated in rats breathing spontaneously during light anaesthesia. Respiration, heart rate, electrocorticogram (ECoG) and/or electroencephalogram (EEG) were recorded. 2. Tolerance times were monitored from hypoxia onset until cessation of respiration, ECoG, EEG synchronization, and 'background-EEG'. Drugs were administered i.v. 5 min before the onset of hypoxia. 3. Verapamil, gallopamil, and nimodipine resulted in a significant increase of tolerance times; fendiline and bepridil showed a small increase (not significant); bencyclan and prenylamine were ineffective; cinnarizine and diltiazem slightly reduced tolerance times as did flunarizine at low doses. 4. At protective doses, verapamil, gallopamil, and nimodipine significantly raised the respiration rate but had little or no cardiac depressor effects. Bencyclan showed ventilatory drive but cardiocirculatory depression. A clear-cut ventilatory drive did not occur with the other ineffective slow channel inhibitors. 5. It is suggested that the protective actions observed were not due to slow channel inhibition per se, nor to spasmolytic potency or increased cerebral blood flow. Ventilatory drive associated with other cardiopulmonary actions which secondarily raise the brain oxygen supply are likely to be responsible for this effect.
摘要
- 在轻度麻醉下自主呼吸的大鼠中,研究了十种慢通道抑制剂药物对严重进行性缺氧的保护作用。记录了呼吸、心率、皮质电图(ECoG)和/或脑电图(EEG)。2. 监测从缺氧开始到呼吸停止、ECoG、EEG同步化和“背景脑电图”的耐受时间。在缺氧开始前5分钟静脉注射药物。3. 维拉帕米、加洛帕米和尼莫地平使耐受时间显著延长;芬地林和苄普地尔有小幅延长(不显著);苄环烷和普尼拉明无效;桂利嗪和地尔硫䓬以及低剂量氟桂利嗪使耐受时间略有缩短。4. 在保护剂量下,维拉帕米、加洛帕米和尼莫地平显著提高呼吸频率,但对心脏几乎没有或没有降压作用。苄环烷有通气驱动作用,但有心血管抑制作用。其他无效的慢通道抑制剂未出现明显的通气驱动作用。5. 研究表明,观察到的保护作用并非源于慢通道抑制本身,也不是由于解痉效力或脑血流量增加。与其他心肺作用相关的通气驱动作用,这些作用继而增加脑氧供应,可能是造成这种效应的原因。
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