Reilly P M, Bulkley G B
Department of Surgery, Johns Hopkins Medical Institutions, Baltimore, MD.
Crit Care Med. 1993 Feb;21(2 Suppl):S55-68. doi: 10.1097/00003246-199302001-00011.
To provide an overview of the splanchnic hemodynamic response to circulatory shock.
Previous studies performed in our own laboratory, as well as a computer-assisted search of the English language literature (MEDLINE, 1966 to 1991), followed by a selective review of pertinent articles.
Studies were selected that demonstrated relevance to the splanchnic hemodynamic response to circulatory shock, either by investigating the pathophysiology or documenting the sequelae. Article selection included clinical studies as well as studies in appropriate animal models.
Pertinent data were abstracted from the cited articles.
The splanchnic hemodynamic response to circulatory shock is characterized by a selective vasoconstriction of the mesenteric vasculature mediated largely by the renin-angiotensin axis. This vasospasm, while providing a natural selective advantage to the organism in mild-to-moderate shock (preserving relative perfusion of the heart, kidneys, and brain), may, in more severe shock, cause consequent loss of the gut epithelial barrier, or even hemorrhagic gastritis, ischemic colitis, or ischemic hepatitis. From a physiologic standpoint, nonpulsatile cardiopulmonary bypass, a controlled form of circulatory shock, has been found experimentally to significantly increase circulating levels of angiotensin II, the hormone responsible for this selective splanchnic vasoconstriction.
While angiotensin II has been viewed primarily as the mediator responsible for the increased total vascular resistance seen during (and after) cardiopulmonary bypass, it may also cause the disproportionate decrease in mesenteric perfusion, as measured in human subjects by intraluminal gastric tonometry and galactose clearance by the liver, as well as the consequent development of the multiple organ failure syndrome seen in 1% to 5% of patients after cardiac surgery.
概述内脏血流动力学对循环性休克的反应。
在我们自己实验室进行的既往研究,以及对英文文献(MEDLINE,1966年至1991年)进行计算机辅助检索,随后对相关文章进行选择性综述。
选择那些通过研究病理生理学或记录后遗症来证明与内脏血流动力学对循环性休克的反应相关的研究。文章选择包括临床研究以及在合适动物模型中的研究。
从引用的文章中提取相关数据。
内脏血流动力学对循环性休克的反应特征为肠系膜血管床的选择性血管收缩,这主要由肾素 - 血管紧张素轴介导。这种血管痉挛在轻度至中度休克时为机体提供了自然的选择性优势(保留心脏、肾脏和大脑的相对灌注),但在更严重的休克中,可能导致肠道上皮屏障丧失,甚至出血性胃炎、缺血性结肠炎或缺血性肝炎。从生理学角度来看,非搏动性体外循环作为一种可控形式的循环性休克,实验发现可显著增加血管紧张素II的循环水平,血管紧张素II是负责这种选择性内脏血管收缩的激素。
虽然血管紧张素II主要被视为体外循环期间(及之后)所见总血管阻力增加的介质,但它也可能导致肠系膜灌注不成比例地降低,如通过腔内胃张力测定法和肝脏半乳糖清除率在人体中所测量的那样,以及心脏手术后1%至5%的患者中出现的多器官功能衰竭综合征。
