Institut für Immunologie und Transfusionsmedizin, Ernst-Moritz-Arndt Universität Greifswald, Germany.
Thromb Res. 2011 Sep;128(3):256-60. doi: 10.1016/j.thromres.2011.05.003. Epub 2011 May 28.
IgG-specific anti-PF4/heparin enzyme-immunoassays (EIAs) are sensitive but not specific for platelet-activating antibodies, the cause of heparin-induced thrombocytopenia (HIT). Two features of EIA reactivity predict for presence of HIT antibodies - the magnitude of a positive result (in optical density [OD] units) and the inhibition of reactivity at high heparin concentrations - but their combined utility remains uncertain.
To determine for an IgG-specific EIA how the OD values of a positive reaction and its inhibition by high heparin can be optimally combined.
We screened 1,000 consecutive patients with suspected HIT using an IgG-specific PF4/heparin in-house EIA with and without high heparin (100 IU/mL); and by the heparin-induced platelet activation test.
Platelet-activating antibodies were rarely detected (<0.2%) when the IgG-specific EIA was negative at the conventional cut-off (OD, 0.5). However, an OD cut-off of 1.0 resulted in an unacceptable loss of sensitivity (14/83=17%) for detecting platelet-activating antibodies. The high heparin step increased specificity for platelet-activating antibodies from 72% to 89% without loss of sensitivity when applied to weak-positive sera (OD≤1.0). However, decreased sensitivity was observed with strong-positive sera (OD>1.0): 11/69 such sera (16%) that did not show >40% inhibition by high heparin nevertheless contained platelet-activating antibodies.
Specificity of an IgG-specific EIA for detecting platelet-activating antibodies can be optimized by applying the high heparin inhibition step to weak-positive reactions (0.5-≤1.0 OD). However, applying the high heparin inhibition step to strong-positive reactions (>1.0 OD) in our in-house assay risks falsely classifying a serum as negative for platelet-activating antibodies.
IgG 特异性抗 PF4/肝素酶免疫测定(EIAs)虽然敏感,但并不特异于血小板激活抗体,而后者是肝素诱导的血小板减少症(HIT)的病因。EIA 反应的两个特征可预测 HIT 抗体的存在——阳性结果的幅度(在光密度 [OD] 单位中)和高肝素浓度下的反应抑制——但它们的联合应用仍然不确定。
确定 IgG 特异性 EIA 如何优化阳性反应的 OD 值及其对高肝素的抑制作用的组合。
我们使用 IgG 特异性 PF4/肝素内部 EIA 联合或不联合高肝素(100IU/mL)以及肝素诱导的血小板激活试验对 1000 例疑似 HIT 的连续患者进行了筛选。
当 IgG 特异性 EIA 在常规截止值(OD,0.5)处为阴性时,很少检测到血小板激活抗体(<0.2%)。然而,OD 截止值为 1.0 会导致检测血小板激活抗体的敏感性显著降低(14/83=17%)。当应用于弱阳性血清(OD≤1.0)时,高肝素步骤可将血小板激活抗体的特异性从 72%提高到 89%,而不降低敏感性。然而,在强阳性血清(OD>1.0)中观察到敏感性降低:11/69 例(16%)不显示>40%对高肝素抑制的此类血清仍然含有血小板激活抗体。
通过将高肝素抑制步骤应用于弱阳性反应(0.5-≤1.0 OD),可优化 IgG 特异性 EIA 检测血小板激活抗体的特异性。然而,在我们的内部检测中,将高肝素抑制步骤应用于强阳性反应(>1.0 OD)可能会错误地将血清分类为无血小板激活抗体。
