From the Institute of Medical Sciences, University of Toronto, Toronto, Ontario, Canada.
Department of Critical Care Medicine, St Michael's Hospital, Toronto, Ontario, Canada.
Anesth Analg. 2018 Oct;127(4):840-849. doi: 10.1213/ANE.0000000000003341.
Despite its central role in early trauma coagulopathy, abnormal fibrinolysis continues to be poorly understood. Excessive fibrinolysis is a known contributor to mortality. Recent studies with thromboelastography (TEG) suggest decreased fibrinolysis (or shutdown) may be just as harmful. Considering the broad use of 2 different viscoelastic assays, which are not interchangeable, we proposed for the first time to define and characterize fibrinolysis shutdown using rotational thromboelastometry (ROTEM).
Retrospective cohort study of severely injured patients with admission ROTEM. Shutdown was defined by the best Youden index value of the maximum lysis. Fibrinolysis phenotypes were physiologic, hyperfibrinolysis, and shutdown. Multivariable logistic regression evaluated association between Injury Severity Score and the fibrinolysis phenotypes, and the association among shutdown phenotype with mortality, blood transfusion, and thrombotic events.
Five hundred fifty patients were included. Maximum lysis <3.5% was selected to define shutdown. Predominant phenotype was physiologic (70.7%), followed by shutdown (25.6%) and hyperfibrinolysis (3.6%). Shutdown patients had higher Injury Severity Score, lower base excess, and required more transfusions than physiologic group. Shutdown was associated with acidosis (base excess: odds ratio [OR] for a 1 mEq/L increase, 0.93; 95% confidence interval [CI], 0.88-0.98; P = .0094) and the combination of clotting derangements, higher clot firmness (maximum clot formation: OR for a 2 mm increase, 1.8; 95% CI, 1.5-2.27; P < .0001), lower fibrinogen (OR for a 0.5 g/dL decrease, 1.47; 95% CI, 1.18-1.84; P = .0006), and poor clot formation dynamics (clot formation time: OR for a 5 seconds increase, 1.25; 95% CI, 1.15-1.36; P < .0001). Fibrinolysis shutdown was not independently associated with mortality (OR, 0.61; 95% CI, 0.28-1.33; P = .21), massive transfusion (OR, 2.14; 95% CI, 0.79-5.74; P = .1308), or thrombotic events (OR, 1.08; 95% CI, 0.37-3.15; P = .874). Shutdown was associated with increased 24-hour transfusion (OR, 2.24; 95% CI, 1.24-4.04; P = .007).
Despite higher injury burden, evidence of shock, and greater need for blood transfusions, early fibrinolysis shutdown was not associated with mortality, suggesting that it could represent an adaptive physiologic response to life-threatening trauma.
尽管纤溶异常在早期创伤性凝血病中起着核心作用,但对其仍了解不足。纤溶过度是导致死亡率增加的一个已知因素。最近的血栓弹性描记术(TEG)研究表明,纤溶功能降低(或关闭)可能同样有害。鉴于两种不同的粘弹性检测方法(不能互换)的广泛应用,我们首次提出使用旋转血栓弹性描记术(ROTEM)定义和描述纤溶功能关闭。
对严重创伤患者入院时 ROTEM 的回顾性队列研究。关闭状态通过最大纤溶的最佳约登指数值定义。纤溶表型为生理性、纤溶亢进和关闭。多变量逻辑回归评估损伤严重度评分与纤溶表型之间的关联,以及关闭表型与死亡率、输血和血栓事件之间的关联。
共纳入 550 例患者。选择最大纤溶率<3.5%来定义关闭。主要表型为生理性(70.7%),其次是关闭(25.6%)和纤溶亢进(3.6%)。与生理性组相比,关闭组患者的损伤严重度评分更高,基础碱缺失更低,需要更多的输血。酸中毒与关闭(基础碱缺失:每增加 1 mEq/L,OR 为 0.93;95%置信区间 [CI],0.88-0.98;P =.0094)以及凝血紊乱、更高的凝块硬度(最大凝块形成:每增加 2 mm,OR 为 1.8;95% CI,1.5-2.27;P <.0001)、更低的纤维蛋白原(每降低 0.5 g/dL,OR 为 1.47;95% CI,1.18-1.84;P =.0006)和较差的凝块形成动力学(凝块形成时间:每增加 5 秒,OR 为 1.25;95% CI,1.15-1.36;P <.0001)有关。纤溶功能关闭与死亡率(OR,0.61;95% CI,0.28-1.33;P =.21)、大量输血(OR,2.14;95% CI,0.79-5.74;P =.1308)或血栓事件(OR,1.08;95% CI,0.37-3.15;P =.874)均无独立相关性。关闭与 24 小时输血增加有关(OR,2.24;95% CI,1.24-4.04;P =.007)。
尽管损伤负担更高,有休克的证据,并且需要更多的输血,但早期纤溶功能关闭与死亡率无关,这表明它可能代表对危及生命的创伤的适应性生理反应。
Zotero 插件