Granulocytes and no-reflow phenomenon in irreversible hemorrhagic shock

180Citations
Citations of this article
11Readers
Mendeley users who have this article in their library.

Abstract

Recent evidence shows that circulating granulocytes play an important role in capillary stasis and tissue injury. We investigated two aspects of the problem in a Wiggers hemorrhagic shock model of the rat: the survival rate and the microvascular no-reflow phenomenon. A conventional group of rats with normal blood cells and a neutropenic group of rats pretreated with intraperitoneal antigranulocyte antibody were used to evaluated the effects of granulocytes. Two hemorrhagic shock protocols (HSP) were carried out. In HSP-1, the rats were subjected to 40 mm Hg mean arterial pressure for 3 hours. The conventional group (n = 11) showed a 36% survival rate compared with 100% in the neutropenic group (n = 6). In HSP-2, the hypotension was more severe, 30 mm Hg mean arterial pressure for 7 hours. There were no survivors in the conventional group (n = 8), compared with a 100% survival rate in the neutropenic group (n = 6). The extent, location, and mechanism of the no-reflow phenomenon was investigated by examining histological sections from several organs after infusion of a contrast medium to mark vessels with flow in a control group without shock and in the HSP-2 model 2 hours after blood replacement. The arterioles and venules uniformly contained contrast medium in all three groups; only capillaries showed no-reflow. A significant higher percentage of no-reflow was observed in the capillaries of the conventional shock group than in the neutropenic shock group. We conclude that the obstruction of capillaries was largely due to trapped granulocytes, suggesting that these leukocytes play a key role in the capillary no-reflow phenomenon and survival from hemorrhagic shock.

Cite

CITATION STYLE

APA

Barroso-Aranda, J., Schmid-Sconbein, G. W., Zweifach, B. W., & Engler, R. L. (1988). Granulocytes and no-reflow phenomenon in irreversible hemorrhagic shock. Circulation Research, 63(2), 437–447. https://doi.org/10.1161/01.RES.63.2.437

Register to see more suggestions

Mendeley helps you to discover research relevant for your work.

Already have an account?

Save time finding and organizing research with Mendeley

Sign up for free