Evaluation of activated partial thromboplastin time coagulation waveform analysis for identification of patients with acquired factor VIII inhibitors

Introduction: Activated partial thromboplastin time (PTT) coagulation waveforms produced by optical detection system coagulation analyzers provide additional potentially useful and routinely underutilized information for the evaluation of a patient's coagulation system. We aimed to identify features of PTT coagulation waveforms, available for all PTT assays performed in our hospital laboratories, that may prove useful in directing early investigations in patients with unexplained prolonged PTT.

Methods: We retrospectively reviewed 211 PTT coagulation waveforms from patient testing and categorized them based on the underlying hemostatic abnormality: normal, therapeutic anticoagulation, lupus anticoagulant, congenital factor deficiency, or acquired factor VIII inhibitor. We compared quantitative waveform parameters and the frequency of qualitatively abnormal double-peaked first derivative waveform curves between these groups.

Results: Partial thromboplastin time and derivative curve maxima and minima differed significantly between acquired factor VIII inhibitors and other diagnostic categories, and the second derivative curve minimum demonstrated the highest area under the receiver operator characteristic curve for identification of acquired factor VIII inhibitors (0.860; maximum accuracy: 79.5% for 2Dmin> -39.3 mAbs/s² [sensitivity 90.5%; specificity 77.2%]). The presence of an abnormal double-peaked first derivative curve had a sensitivity of 83.3% and specificity of 81.6% for identification of acquired factor VIII inhibitors in cases with PTT >50 seconds.

Conclusion: Partial thromboplastin time coagulation waveform analysis can aid in identification of patients with acquired factor VIII inhibitors and may be of clinical utility in directing early laboratory investigations to identify patients at risk of severe bleeding without prompt intervention.