粘弹性试验方法。

Advances in clinical chemistry Pub Date : 2023-01-01 Epub Date: 2023-11-03 DOI:10.1016/bs.acc.2023.09.001
Timothy Carll
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引用次数: 0

摘要

粘弹性测试方法检查全血样本中血块的实时形成,包括血栓弹性成像(TEG)、旋转血栓弹性测量(ROTEM)和其他几种测试平台。它们允许同时评估凝血的多个方面,包括血浆凝血因子、血小板、纤维蛋白原和纤溶途径。该检测快速,可在护理点进行,允许及时识别凝血疾病,指导集中和合理的血液制品管理以及抗凝作用的识别。随着最近行业向用户友好、基于卡带的便携式仪器的发展,粘弹性测试已在21世纪成为指导出血患者输血的有力工具,并在许多手术环境中识别和治疗出血和血栓性疾病,包括创伤手术、肝移植手术、心脏手术和产科。在这些情况下,由粘弹性测试数据指导的输血算法的使用导致了患者血液管理的广泛改善,以及选择患者结果的适度改善。为了解决粘弹性方法越来越广泛的应用,以及越来越多的医疗和实验室人员负责实施、执行和解释这些方法,本章概述了粘弹性测试背后的历史、生理学和技术,并对其临床应用和当前支持其使用的证据进行了实际回顾。还包括测试的局限性和粘弹性方法在所有凝血实验室测试中所起的背景作用的回顾。
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Viscoelastic Testing Methods.

Viscoelastic testing methods examine the real-time formation of a clot in a whole blood sample, and include thromboelastography (TEG), rotational thromboelastometry (ROTEM), and several other testing platforms. They allow for concurrent assessment of multiple aspects of clotting, including plasmatic coagulation factors, platelets, fibrinogen, and the fibrinolytic pathway. This testing is rapid and may be performed at the point-of-care, allowing for prompt identification of coagulopathies to guide focused and rational administration of blood products as well as the identification of anticoagulant effect. With recent industry progression towards user-friendly, cartridge-based, portable instruments, viscoelastic testing has emerged in the 21st century as a powerful tool to guide blood transfusions in the bleeding patient, and to identify and treat both bleeding and thrombotic conditions in many operative settings, including trauma surgery, liver transplant surgery, cardiac surgery, and obstetrics. In these settings, the use of transfusion algorithms guided by viscoelastic testing data has resulted in widespread improvements in patient blood management as well as modest improvements in select patient outcomes. To address the increasingly wide adoption of viscoelastic methods and the growing number of medical and laboratory personnel tasked with implementing, performing, and interpreting these methods, this chapter provides an overview of the history, physiology, and technology behind viscoelastic testing, as well as a practical review of its clinical utility and current evidence supporting its use. Also included is a review of testing limitations and the contextual role played by viscoelastic methods among all coagulation laboratory testing.

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