麻醉犬内脏血量的反射性控制
Reflex control of splanchnic blood volume in anaesthetized dogs.
作者信息
Noble B J, Drinkhill M J, Myers D S, Hainsworth R
机构信息
Institute for Cardiovascular Research, University of Leeds, Leeds LS2 9JT, UK.
出版信息
J Physiol. 1998 Nov 15;513 ( Pt 1)(Pt 1):263-72. doi: 10.1111/j.1469-7793.1998.263by.x.
Abstract
- In chloralose-anaesthetized, artificially ventilated dogs, the splenic pedicle was tied and the carotid sinuses were vascularly isolated and perfused at controlled pressures. In Series 1 experiments, the hepatosplanchnic circulation was perfused through the abdominal aorta with a tie on the aorta separating it from the caudal circulation, which was perfused through the femoral arteries. The two circulations were drained from cannulae in the inferior vena cava and the femoral veins, with a tie on the inferior vena cava separating the two. In Series 2, the splanchnic circulation drained from the portal vein. In both series, inflows and outflows were measured and integrated to derive volume changes. Capacitance responses were assessed during constant flow, and capacitance plus passive responses were obtained during constant pressure perfusion. 2. In Series 1, an increase in carotid sinus pressure (from 8 to 26 kPa) during constant flow and constant pressure perfusion increased hepatosplanchnic volume by 2.5 and 5.7 ml (kg body weight)-1, respectively. The volume of the subdiaphragmatic circulation did not increase during constant flow, but during constant pressure it increased by 2.0 ml (kg body weight)-1. 3. In Series 2, increasing carotid pressure during constant flow and constant pressure increased the volume of the splanchnic circulation by 0.5 and 4.2 ml (kg body weight)-1, respectively. 4. These results confirm that carotid baroreceptor stimulation causes larger volume changes during constant pressure perfusion than during constant flow perfusion. Also, the active capacitance change in the splanchnic circulation is small in relation to the passive response. We propose that in dogs (following splenic ligation), the major active capacitance control is from the liver. However, large passive changes in splanchnic volume occur due to changes in flow.
摘要
- 在用氯醛糖麻醉、人工通气的犬中,结扎脾蒂,对颈动脉窦进行血管分离并在控制压力下灌注。在系列1实验中,通过腹主动脉灌注肝内脏循环,在主动脉上扎一道结扎线将其与尾侧循环分开,尾侧循环通过股动脉灌注。两个循环分别从下腔静脉和股静脉的插管引流,在下腔静脉上扎一道结扎线将两者分开。在系列2中,内脏循环从门静脉引流。在两个系列中,测量并整合流入量和流出量以得出容积变化。在恒定流量期间评估容量反应,在恒压灌注期间获得容量加被动反应。2. 在系列1中,在恒定流量和恒压灌注期间,颈动脉窦压力升高(从8kPa升至26kPa)分别使肝内脏容积增加2.5和5.7ml/(kg体重)。在恒定流量期间,膈下循环的容积未增加,但在恒压期间增加了2.0ml/(kg体重)。3. 在系列2中,在恒定流量和恒压期间升高颈动脉压力分别使内脏循环容积增加0.5和4.2ml/(kg体重)。4. 这些结果证实,与恒定流量灌注相比,颈动脉压力感受器刺激在恒压灌注期间引起更大的容积变化。此外,内脏循环中的主动容量变化相对于被动反应较小。我们提出,在犬中(脾结扎后),主要的主动容量控制来自肝脏。然而,由于流量变化,内脏容积会发生较大的被动变化。
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