Cartridge-Based Thromboelastography Can Be Used to Monitor and Quantify the Activity of Unfractionated and Low-Molecular-Weight Heparins

TH open : companion journal to thrombosis and haemostasis Pub Date : 2019-07-01 DOI:10.1055/s-0039-1696658

J. Dias, C. Lopez-Espina, M. Panigada, H. Dalton, J. Hartmann, Hardean E. Achneck

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引用次数: 13

Abstract

Abstract Thromboelastography is increasingly utilized in the management of bleeding and thrombotic complications where heparin management remains a cornerstone. This study assessed the feasibility of the cartridge-based TEG® 6s system (Haemonetics Corp., Braintree, Massachusetts, United States) to monitor and quantify the effect of unfractionated and low-molecular-weight heparin (UFH and LMWH). Blood samples from healthy donors were spiked with UFH (n = 23; 0–1.0 IU/mL) or LMWH (enoxaparin; n = 22; 0–1.5 IU/mL). Functional fibrinogen maximum amplitude (CFF.MA), RapidTEG activated clotting time (CRT.ACT), and kaolin and kaolin with heparinase reaction time (CK.R and CKH.R) were evaluated for their correlation with heparin concentrations, as well as the combination parameters ΔCK.R − CKH.R, ratio CK.R/CKH.R, and ratio CKH.R/CK.R. Nonlinear mixed-effect modelling was used to study the relationship between concentrations and parameters, and Bayesian classification modelling for the prediction of therapeutic ranges. CK.R and CRT.ACT strongly correlated with the activity of LMWH and UFH (p < 0.001). Using combination parameters, heparin activity could be accurately quantified in the range of 0.05 to 0.8 IU/mL for UFH and 0.1 to 1.5 IU/mL for LMWH. CRT.ACT was able to quantify heparin activity at higher concentrations but was only different from the reference range (p < 0.05) at >0.5 IU/mL for UFH and >1.5 IU/mL for LMWH. Combination parameters classified blood samples into subtherapeutic, therapeutic, and supratherapeutic heparin ranges, with an accuracy of >90% for UFH, and >78% for LMWH. This study suggests that TEG 6s can effectively monitor and quantify heparin activity for LMWH and UFH. Additionally, combination parameters can be used to classify blood samples into therapeutic ranges based on heparin activity.

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基于药筒的血栓弹性成像可用于监测和量化未分离和低分子量肝素的活性

血栓弹性成像越来越多地用于出血和血栓性并发症的管理，其中肝素管理仍然是一个基石。本研究评估了基于药盒的TEG®6s系统(Haemonetics Corp.， Braintree, Massachusetts, United States)监测和量化未分级和低分子量肝素(UFH和LMWH)效果的可行性。健康献血者的血样中加入UFH (n = 23;0-1.0 IU/mL)或低分子肝素(依诺肝素;n = 22;0 - 1.5国际单位/毫升)。功能性纤维蛋白原最大振幅(CFF.MA)、RapidTEG活化凝血时间(CRT.ACT)、高岭土与高岭土与肝素酶反应时间(CK. act)。评估R和CKH.R)与肝素浓度以及联合参数ΔCK.R−CKH的相关性。R，比率CK.R/CKH。R和比值CKH.R/CK.R。采用非线性混合效应模型研究浓度与参数之间的关系，采用贝叶斯分类模型预测治疗范围。CK。R和CRT。ACT与低分子肝素和UFH活性密切相关(UFH≥0.5 IU/mL，低分子肝素≥1.5 IU/mL)。联合参数将血液样本分为亚治疗型、治疗型和超治疗型肝素范围，UFH准确度>90%，低分子肝素准确度>78%。本研究提示TEG 6s能够有效监测和量化低分子肝素和UFH的肝素活性。此外，组合参数可用于根据肝素活性将血液样本分类到治疗范围。

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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TH open : companion journal to thrombosis and haemostasis

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12 weeks