抑制一氧化氮生物合成对门静脉高压大鼠全身及内脏循环的影响。
Effects of inhibiting nitric oxide biosynthesis on the systemic and splanchnic circulation of rats with portal hypertension.
作者信息
Pizcueta M P, Piqué J M, Bosch J, Whittle B J, Moncada S
机构信息
Hepatic Haemodynamics Laboratory, Hospital Clinic i Provincial, University of Barcelona, Spain.
出版信息
Br J Pharmacol. 1992 Jan;105(1):184-90. doi: 10.1111/j.1476-5381.1992.tb14233.x.
Abstract
- The effects of inhibiting endogenous nitric oxide (NO) synthesis with NG-monomethyl-L-arginine (L-NMMA) on the systemic and splanchnic circulation have been investigated in rats with experimental chronic portal hypertension, anaesthetized with ketamine. 2. Portal hypertension was induced by partial portal vein ligation, 2 weeks prior to study. This procedure induced a reduction in systemic arterial blood pressure (MAP), an increase in cardiac output as measured by radiolabelled microspheres, a reduction in peripheral and splanchnic vascular resistance and an increased portal venous inflow (PVI) and portal pressure, as compared to control non-ligated rats. 3. L-NMAA (6.25 and 50 mg kg-1, i.v.) dose-dependently increased MAP, reduced cardiac output and PVI, and increased peripheral and splanchnic vascular resistance. With L-NMMA (50 mg kg-1), PVI and the vascular resistances returned to values comparable to those determined in control non-ligated anaesthetized rats under resting conditions. 4. Porto-collateral resistance was also increased by these doses of L-NMMA, whereas portal pressure was unchanged. The increase in renal blood flow and decrease in renal vascular resistance also seen in portal-hypertensive rats was reversed by L-NMMA (50 mg kg-1). 5. These effects of L-NMMA (50 mg kg-1) were inhibited by prior administration of L-arginine (300 mg kg-1, i.v.). 6. These findings indicate that the chronic hyperdynamic circulatory characteristics following portal vein stenosis can be attenuated by L-NMMA. Thus, the excessive formation of endogenous NO may be implicated in the pathogenesis of the haemodynamic disturbances and splanchnic vasodilatation associated with chronic portal hypertension.
摘要
- 用氯胺酮麻醉的实验性慢性门静脉高压大鼠,研究了用N-甲基-L-精氨酸(L-NMMA)抑制内源性一氧化氮(NO)合成对全身和内脏循环的影响。2. 在研究前2周,通过部分门静脉结扎诱导门静脉高压。与未结扎的对照大鼠相比,该操作导致全身动脉血压(MAP)降低,放射性微球测量的心输出量增加,外周和内脏血管阻力降低,门静脉流入量(PVI)和门静脉压力增加。3. L-NMAA(6.25和50mg kg-1,静脉注射)剂量依赖性地增加MAP,降低心输出量和PVI,并增加外周和内脏血管阻力。使用L-NMMA(50mg kg-1)时,PVI和血管阻力恢复到与静息状态下未结扎麻醉对照大鼠测定的值相当的水平。4. 这些剂量的L-NMMA也增加了门体侧支循环阻力,而门静脉压力未改变。门静脉高压大鼠中观察到的肾血流量增加和肾血管阻力降低也被L-NMMA(50mg kg-1)逆转。5. L-精氨酸(300mg kg-1,静脉注射)预先给药可抑制L-NMMA(50mg kg-1)的这些作用。6. 这些发现表明,L-NMMA可减轻门静脉狭窄后慢性高动力循环特征。因此,内源性NO的过度形成可能与慢性门静脉高压相关的血流动力学紊乱和内脏血管扩张的发病机制有关。
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