PURPOSE OF REVIEW:The conventional view in severe sepsis or septic shock is that most of the lactate that accumulates in the circulation is due to cellular hypoxia and the onset of anaerobic glycolysis. A number of papers have suggested that lactate formation during sepsis is not due to hypoxia. I discuss this hypothesis and outline the recent advances in the understanding of lactate metabolism in shock. RECENT FINDINGS:Numerous experimental data have demonstrated that stimulation of aerobic glycolysis - that is, glycolysis not attributable to oxygen deficiency - and glycogenolysis occurs not only in resting, well-oxygenated skeletal muscles but also during experimental haemorrhagic shock and experimental sepsis, and is closely linked to stimulation of sarcolemmal Na+/K+ -ATPase under epinephrine stimulation. A human study of hyperkinetic septic shock demonstrated that skeletal muscle is a leading source of lactate production by exaggerated aerobic glycolysis through Na+/K+ -ATPase stimulation. SUMMARY:There is increasing evidence that sepsis is accompanied by a hypermetabolic state, with enhanced glycolysis and hyperlactataemia. This should not be rigorously interpreted as an indication of hypoxia. It now appears, at least in the hyperkinetic state, that increased lactate production and concentration as a result of hypoxia are often the exception rather than the rule.

译文

审查的目的:严重败血症或败血性休克的传统观点是,循环中积累的大多数乳酸是由于细胞缺氧和厌氧糖酵解的开始所致。许多论文表明败血症期间乳酸的形成不是由于缺氧引起的。我讨论了这一假设,并概述了休克中乳酸代谢的最新研究进展。
最近的发现:大量的实验数据表明,有氧糖酵解的刺激-即不是由于缺氧引起的糖酵解-糖原分解不仅发生在静息的,充氧的骨骼肌中,而且发生在实验性失血性休克和实验性败血症中,并且密切相关与肾上腺素刺激下肌膜Na / K -ATPase的刺激有关。一项针对运动过度性败血性休克的人体研究表明,骨骼肌是通过Na / K -ATPase刺激导致的过度有氧糖酵解产生乳酸的主要来源。
摘要:有越来越多的证据表明败血症伴有代谢亢进状态,并伴有糖酵解和高乳酸血症。不应将其严格解释为缺氧的征兆。现在看来,至少在运动亢进状态下,缺氧导致的乳酸产生和浓度增加通常是例外而不是规则。

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