Light transmission platelet aggregometry with native platelet-rich plasma was non-inferior to adjusted plasma for detecting bleeding disorders (AUROC difference non-inferiority margin <0.15).
Cohort (n=253)
Is light transmission platelet aggregometry with native platelet-rich plasma non-inferior to platelet count adjusted samples for detecting bleeding disorders?
Light transmission platelet aggregometry (LTA) is important to diagnose bleeding disorders. Experts recommend testing LTA with native (N) rather than platelet count adjusted (A) platelet-rich plasma (PRP), although it is unclear if this provides non-inferior, or superior, detection of bleeding disorders. Our goal was to determine if LTA with NPRP is non-inferior to LTA with APRP for bleeding disorder assessments. A prospective cohort of patients, referred for bleeding disorder testing, and healthy controls, were evaluated by LTA using common agonists, NPRP and APRP (adjusted to 250 x 10⁹ platelets/l). Recruitment continued until 40 controls and 40 patients with definite bleeding disorders were tested. Maximal aggregation (MA) data were assessed for the detection of abnormalities from bleeding disorders (all causes combined to limit bias), using sample-type specific reference intervals. Areas under receiver-operator curves (AUROC) were evaluated using pre-defined criteria (area differences: 0 for superiority). Forty-four controls and 209 patients were evaluated. Chart reviews for 169 patients indicated 67 had bleeding disorders, 28 from inherited platelet secretion defects. Mean MA differences between NPRP and APRP were small for most agonists (ranges, controls: -3.3 to 5.8; patients: -3.0 to 13.7). With both samples, reduced MA with two or more agonists was associated with a bleeding disorder. AUROC differences between NPRP and APRP were small and indicated that NPRP were non-inferior to APRP for detecting bleeding disorders by LTA, whereas APRP met superiority criteria. Our study validates using either NPRP or APRP for LTA assessments of bleeding disorders.
Castilloux et al. (Sat,) conducted a cohort in bleeding disorders (n=253). Light transmission platelet aggregometry with native platelet-rich plasma vs. Light transmission platelet aggregometry with platelet count adjusted platelet-rich plasma was evaluated on Detection of abnormalities from bleeding disorders (AUROC). Light transmission platelet aggregometry with native platelet-rich plasma was non-inferior to adjusted plasma for detecting bleeding disorders (AUROC difference non-inferiority margin <0.15).