麻醉犬中左心室对颈动脉体化学感受器刺激的变力性反应。
Left ventricular inotropic responses to stimulation of carotid body chemoreceptors in anaesthetized dogs.
作者信息
Hainsworth R, Karim F, Sofola O A
出版信息
J Physiol. 1979 Feb;287:455-66. doi: 10.1113/jphysiol.1979.sp012670.
Abstract
- Dogs were anaesthetized with chloralose and artificially ventilated. The regions of both carotid bifurcations were vascularly isolated and perfused at constant pressure with arterial blood or with venous or hypoxic blood. 2. Inotropic responses were assessed by measuring the maximum rate of change of left ventricular pressure (dP/dtmax) with aortic pressure and heart rate held constant. 3. Stimulation of the chemoreceptors with venous blood from the inferior vena cava resulted in a decrease in dP/dtmax from 510 +/- 27 kPa.s-1 to 418 +/- 21 kPa.s-1 (mean +/- S.E.): a change of 17.9 +/- 1.0% 4. In experiments in which the oxygen tension of the blood perfusing the carotid chemoreceptors was decreased in steps between 10 and 3 kPa, by use of an oxygenator, graded responses of dP/dtmax were obtained at each step. 5. The inotropic responses to chemoreceptor stimulation were abolished by raising carotid pressure. 6. The inotropic responses were abolished either by crushing both carotid bodies or both ansae subclaviae, indicating that the reflex originates from the carotid bodies and that the efferent pathway is in the cardiac sympathetic nerves.
摘要
- 用氯醛糖麻醉狗并进行人工通气。双侧颈动脉分叉区域进行血管分离,并用动脉血、静脉血或低氧血进行恒压灌注。2. 在主动脉压力和心率保持恒定的情况下,通过测量左心室压力的最大变化率(dP/dtmax)来评估心肌收缩反应。3. 用来自下腔静脉的静脉血刺激化学感受器,导致dP/dtmax从510±27kPa·s-1降至418±21kPa·s-1(平均值±标准误):变化为17.9±1.0%。4. 在实验中,通过使用氧合器逐步降低灌注颈动脉化学感受器的血液的氧分压,从10kPa降至3kPa,在每个步骤中均获得了dP/dtmax的分级反应。5. 通过提高颈动脉压力,消除了对化学感受器刺激的心肌收缩反应。6. 通过挤压双侧颈动脉体或双侧锁骨下神经,消除了心肌收缩反应,表明该反射起源于颈动脉体,传出通路位于心脏交感神经中。
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