Institute of Experimental Haematology and Transfusion Medicine, University Hospital Bonn, Bonn, Germany.
Thromb Haemost. 2018 Feb;118(2):381-387. doi: 10.1160/TH17-08-0568. Epub 2018 Jan 29.
Antithrombin (AT) activity tests are used for diagnosing hereditary AT deficiency, a main genetic determinant of thrombophilia. They are either based on inhibition of thrombin (FIIa) or activated factor X (FXa). FXa-based assays have been suggested to be preferable to FIIa-based assays due to their higher sensitivity for certain AT deficiency causing mutations. To assess the performance of these two methods in a real-world scenario, 745 consecutively collected samples from patients referred to our institute during a 3-month period for thrombophilia testing were analysed. In samples from patients not receiving direct-acting oral anticoagulants or heparins ( = 485), both methods showed good agreement ( = 0.874, Bland-Altman limits of agreement 6.57%, -15.76%). While similar results were obtained in patients receiving low-molecular-weight heparin (LMWH, = 76, = 0.891, 4.09%, -14.35%), the agreement was lower in patients receiving rivaroxaban ( = 86, = 0.570, 5.97%, -49.43%) and apixaban ( = 72, = 0.735, 3.77%, -42.45%). Direct FXa inhibitors but not LMWH increased FXa-based assay results in a dose-dependent manner, while the FIIa-based test was unaffected. Both assay types were equally successful in detecting hereditary AT deficiency in our study population, as samples from 9 out of 10 patients with AT deficiency causing mutations were detected by each method. These data suggest that FXa-based AT testing can be preferred over FIIa-based methods only in the absence of direct FXa inhibitors. In patients receiving direct FXa inhibitors, AT activity testing should be performed using FIIa-based assays.
抗凝血酶(AT)活性检测用于诊断遗传性 AT 缺乏症,这是血栓形成倾向的主要遗传决定因素。这些检测基于凝血酶(FIIa)或活化的因子 X(FXa)的抑制。由于 FXa 基检测法对某些 AT 缺乏症引起的突变具有更高的敏感性,因此建议优先选择 FXa 基检测法而不是 FIIa 基检测法。为了评估这两种方法在实际情况下的性能,我们分析了在 3 个月内因血栓形成倾向检测而被我院转介的 745 例连续采集的患者样本。在未接受直接作用口服抗凝剂或肝素的患者样本中( = 485),这两种方法均显示出良好的一致性( = 0.874,Bland-Altman 协议界限为 6.57%,-15.76%)。在接受低分子量肝素(LMWH, = 76, = 0.891,4.09%,-14.35%)的患者中获得了类似的结果,但在接受利伐沙班( = 86, = 0.570,5.97%,-49.43%)和阿哌沙班( = 72, = 0.735,3.77%,-42.45%)的患者中,一致性较低。直接 FXa 抑制剂而非 LMWH 以剂量依赖性方式增加 FXa 基检测法的结果,而 FIIa 基检测法不受影响。在我们的研究人群中,这两种检测类型在检测遗传性 AT 缺乏症方面都同样成功,因为每种方法都能检测到 10 名 AT 缺乏症引起突变患者中的 9 名患者的样本。这些数据表明,只有在没有直接 FXa 抑制剂的情况下,FXa 基 AT 检测才能优先于 FIIa 基方法。在接受直接 FXa 抑制剂的患者中,应使用 FIIa 基检测法进行 AT 活性检测。
