The value of perioperative biomarker release for the assessment of myocardial injury or infarction in cardiac surgery

生物标志物 医学 围手术期 心肌梗塞 心脏病学 肌钙蛋白 临床试验 内科学 外科 化学 生物化学
作者
Ulrich Schneider,Murat Mukharyamov,Friedhelm Beyersdorf,Oliver Dewald,Andreas Liebold,Mario Gaudino,Stephen E. Fremes,Torsten Doenst
出处
期刊:European Journal of Cardio-Thoracic Surgery [Oxford University Press]
卷期号:61 (4): 735-741 被引量:16
标识
DOI:10.1093/ejcts/ezab493
摘要

Cardiac biomarkers are indicators of irreversible cell damage. Current myocardial infarction (MI) definitions require concomitant clinical characteristics. For perioperative MI, a correlation of biomarker elevations and mortality has been suggested. Definitions emerged relying on cardiac biomarker release only. This approach is questionable as several clinical and experimental scenarios exist where relevant biomarker release can occur apart from MI.We reviewed the clinical and basic science literature and revealed important aspects regarding the use and interpretation of cardiac biomarker release with special focus on their interpretation in the perioperative setting.Ischaemic biomarkers may be released without cell death in multiple conditions, such as after endurance runs in athletes, temporary inotropic stimulation in animal models and flow variations in in vitro cell models. In addition, access through atrial tissue during cannulation or concomitant valve procedures adds sources of enzyme release that may not be related to ventricular ischaemia (i.e. MI). Such non-cell death-related mechanisms may explain the lack of poor correlations of enzyme release and long-term outcomes in recent trials. In addition, the 3 main biomarkers, troponin T, I and creatine kinase myocardial band, differ in their release kinetics, which may differentially trigger MI events in trial patients.The identification of irreversible myocardial injury in cardiac surgery based only on biomarker release is unreliable. Cell death- and non-cell death-related mechanisms create a mix in the perioperative setting that requires additional markers for proper identification of MI. In addition, the 3 most common ischaemic biomarkers display different release kinetics adding to the confusion. We review the topic.
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