大量输血时输注柠檬酸盐对病理生理学的影响

Critical Care Explorations Pub Date : 2023-05-31 eCollection Date: 2023-06-01 DOI:10.1097/CCE.0000000000000925
Jacob B Schriner, J Michael Van Gent, M Adam Meledeo, Scott D Olson, Bryan A Cotton, Charles S Cox, Brijesh S Gill
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这篇叙述性综述文章旨在强调枸橼酸盐对出血患者大量输血时生理机能的影响:我们使用 "枸橼酸中毒"、"枸橼酸大量输血"、"枸橼酸药代动力学"、"创伤性低钙血症"、"枸橼酸磷酸葡萄糖 "和 "大量输血中的低钙血症 "等检索词创建了一个有限的文章库。综述文章以及前瞻性和回顾性研究均根据其相关性纳入本综述:鉴于相关研究的数量有限,因此对以英语撰写的研究进行了审查和纳入。本综述既非系统综述,也非荟萃分析:由于这不是一项荟萃分析,因此没有进行新的统计分析。正文中对相关数据进行了总结:枸橼酸盐对低钙血症的生理效应尚不清楚。虽然健康人可以迅速清除单位血液中的柠檬酸盐(通过柠檬酸循环或直接从尿液中排出),但失血性休克的生理学会导致柠檬酸盐清除率下降和循环时间延长。所谓的出血 "死亡钻石"--凝血病、酸血症、低体温和低钙血症--与柠檬酸盐之间的动态相互作用可导致死亡螺旋。低体温和酸血症都会降低枸橼酸盐的清除率,而循环中的枸橼酸盐会降低凝血酶的生成和血小板的功能,从而导致电离性低钙血症、凝血病,并需要进一步输血,造成新的枸橼酸盐负荷。与单纯成分治疗相比,全血输注所需的输血量通常较低,因此枸橼酸负荷也较低。应努力限制失血性休克患者的枸橼酸输注量,同时解决诱发的低钙血症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Impact of Transfused Citrate on Pathophysiology in Massive Transfusion.

This narrative review article seeks to highlight the effects of citrate on physiology during massive transfusion of the bleeding patient.

Data sources: A limited library of curated articles was created using search terms including "citrate intoxication," "citrate massive transfusion," "citrate pharmacokinetics," "hypocalcemia of trauma," "citrate phosphate dextrose," and "hypocalcemia in massive transfusion." Review articles, as well as prospective and retrospective studies were selected based on their relevance for inclusion in this review.

Study selection: Given the limited number of relevant studies, studies were reviewed and included if they were written in English. This is not a systematic review nor a meta-analysis.

Data extraction and synthesis: As this is not a meta-analysis, new statistical analyses were not performed. Relevant data were summarized in the body of the text.

Conclusions: The physiologic effects of citrate independent of hypocalcemia are poorly understood. While a healthy individual can rapidly clear the citrate in a unit of blood (either through the citric acid cycle or direct excretion in urine), the physiology of hemorrhagic shock can lead to decreased clearance and prolonged circulation of citrate. The so-called "Diamond of Death" of bleeding-coagulopathy, acidemia, hypothermia, and hypocalcemia-has a dynamic interaction with citrate that can lead to a death spiral. Hypothermia and acidemia both decrease citrate clearance while circulating citrate decreases thrombin generation and platelet function, leading to ionized hypocalcemia, coagulopathy, and need for further transfusion resulting in a new citrate load. Whole blood transfusion typically requires lower volumes of transfused product than component therapy alone, resulting in a lower citrate burden. Efforts should be made to limit the amount of citrate infused into a patient in hemorrhagic shock while simultaneously addressing the induced hypocalcemia.

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