Pathophysiology of septic shock and implications for therapy.

Barron Rl
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引用次数: 34

Abstract

: Current knowledge about the pathophysiology of septic shock is reviewed, and biotechnology-based therapies under development are discussed. Patients with septic shock begin their clinical course with leukocytosis, fever, tachycardia, tachypnea, and organ hypoperfusion; shock ensues as immunologic and vasoactive mediators produce hypotension. There are many metabolic and cardiovascular responses, and single- or multiple-organ failure is common. Patients may experience adult respiratory distress syndrome. A multitude of endogenous and exogenous factors have been linked to the pathophysiology of sepsis and septic shock, including (1) endotoxin from gram-negative bacteria, (2) peptidoglycan and exotoxins from gram-negative bacteria, (3) endotoxin-binding proteins and receptors, (4) bactericidal proteases, (5) exotoxins from gram-positive bacteria, (6) acute-phase proteins and proteases, (7) cytokines, (8) arachidonic acid metabolites, (9) complement, (10) beta-endorphin, (11) histamine, (12) stimulation of intrinsic and extrinsic coagulation pathways and proteases, and (13) endothelium-derived factors and adhesion molecules. Molecular entities and strategies under development to combat septic shock include monoclonal antibodies to endotoxin, active immunization with lipid-A analogues, bactericidal permeability-increasing protein, interleukin inhibitors, and inhibitors of tumor necrosis factor-alpha. Successful treatment of septic shock will probably require a combination of agents, including antimicrobials. An ideal goal for biotechnology in the area of septic shock is to prevent invading pathogens from overstimulating the host's immune system and to systematically eliminate those pathogens. Biotechnology is opening new avenues to the treatment of septic shock.
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脓毒性休克的病理生理学及其治疗意义。
综述了目前关于脓毒性休克的病理生理知识,并讨论了基于生物技术的治疗方法。脓毒性休克患者的临床病程以白细胞增多、发热、心动过速、呼吸急促和器官灌注不足开始;当免疫和血管活性介质产生低血压时,休克随之而来。有许多代谢和心血管反应,单器官或多器官衰竭是常见的。患者可能会出现成人呼吸窘迫综合征。许多内源性和外源性因素与败血症和感染性休克的病理生理有关,包括(1)革兰氏阴性菌的内毒素,(2)革兰氏阴性菌的肽聚糖和外毒素,(3)内毒素结合蛋白和受体,(4)杀菌蛋白酶,(5)革兰氏阳性菌的外毒素,(6)急性期蛋白和蛋白酶,(7)细胞因子,(8)花生四烯酸代谢物,(9)补体,(10)-内啡肽,(11)组胺,(12)刺激内源性和外源性凝血途径和蛋白酶,(13)内皮衍生因子和粘附分子。正在开发的对抗感染性休克的分子实体和策略包括内毒素单克隆抗体、脂质-a类似物的主动免疫、杀菌通透性增加蛋白、白细胞介素抑制剂和肿瘤坏死因子- α抑制剂。成功治疗感染性休克可能需要多种药物联合使用,包括抗菌素。生物技术在感染性休克领域的理想目标是防止入侵的病原体过度刺激宿主的免疫系统,并系统地消除这些病原体。生物技术为感染性休克的治疗开辟了新的途径。
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