Objectives: To investigate the curative effects of various infusion volumes on liver-related metabolic mechanism in the treatment of hemorrhagic shock.
Methods: A severe hemorrhagic shock rabbit model was established in 30 rabbits. The rabbits were randomly divided into three groups: non-infusion group (A), conventional infusion group (B), and excessive infusion group (C) (n=10 in each group). Taking group B as the control, groups A and C were observed for the damage of non-infusion and excessive infusion, respectively. The outcomes in the three groups and their relations with liver tissue metabolism changes were analyzed with gas chromatograph-mass spectrometer (GC-MS).
Results: The mortality in groups A, B, and C group were 80%, 0%, and 70%, respectively. The liver tissue metabolic profile in group B showed statistically significant difference compared with that in groups A and B. In group C, the levels of 21 metabolites were lower than those in group B, and the levels of 8 metabolites were lower than those in group A. The relative contents of various metabolites were correlated with infusion volumes, and the succinic acid content was associated with death events (P<0.05).
Conclusions: The conventional infusion has significant curative effect on hemorrhagic shock. The metabolites of liver tissues with excessive infusion are generally decompensated and have longer survival time than those in non-infusion group, which may caused by the excessive infusion-induced blood volume increase after hemorrhagic shock. Tissue fluid dilution is an important cause of death.
题目: 不同输液量救治失血性休克的肝组织相关代谢机制.
目的: 探讨不同输液量救治失血性休克对肝组织相关代谢的影响。.
方法: 取30只家兔建立重度失血性休克模型,随机分为未输液组(A)、常量输液组(B)和过度输液组(C),每组10只,以常量输液组为对照,观察不输液和过度输液的危害。采用气相色谱-质谱法检测肝组织代谢物谱,分析3种不同情况与肝组织代谢变化的关系。.
结果: 过度输液组、未输液组的死亡率分别为70%和80%,常量输液组无死亡。过度输液组与常量输液组、未输液组的肝组织代谢轮廓差异有统计学意义。过度输液组肝组织代谢物中有21种低于常量输液组,8种低于未输液组。多种代谢物相对含量与输液量相关,琥珀酸含量与死亡相关(P<0.05)。.
结论: 常量输液救治失血性休克的疗效显著。过度输液肝组织代谢物普遍失代偿性降低,比未输液组家兔的存活时间长,可能是失血性休克后过度输液增加了血容量,组织液稀释是导致死亡的重要原因。.
关键词: 法医病理学;失血性休克;肝;代谢;输液量;兔.
Keywords: forensic pathology; hemorrhagic shock; liver; metabolism; infusion quantity; rabbits.
Copyright© by the Editorial Department of Journal of Forensic Medicine.