Revisiting the effects of spectral interfering substances in optical end-point coagulation assays.

INTRODUCTION: Hemolysis, icterus, and lipemia (HIL) are common pre-analytical variables in the clinical laboratory. Understanding their effects on coagulation laboratory results is essential. METHODS: HIL effects on the prothrombin time (PT), activated partial thromboplastin time (APTT), dilute Russell's viper venom time (DRVVT), thrombin time (TT), and protein C chromogenic activity (CFx) were evaluated on the ACL TOP 750 optical analyzer and STA-R Evolution mechanical analyzer (PT and APTT only) by spiking normal donor, patient, and commercial control samples with varying concentrations of hemolysate, bilirubin, or a lipid emulsion. The relative difference or bias compared to the original results was determined. RESULTS: Hemolysis (H) indices up to 900 mg/dL did not affect the APTT, PT, DRVVT Confirm, TT, and CFx; however, H indices above approximately 200 mg/dL resulted in a false-negative DRVVT screen and screen/confirm ratio in samples with a lupus anticoagulant. There was an artifactual prolongation of the PT and APTT when conjugated bilirubin was dissolved in aqueous solvents and not when it was dissolved in dimethyl sulfoxide. Icterus (I) indices up to 45 mg/dL did not result in significant (>15%) bias for all assays evaluated. The PT and APTT assays failed to produce a robust clot curve when the lipemia (L) index exceeded 6000 milliabsorbance units (mAbs), and the TT and DRVVT assays failed when the L index exceeded 3000 mAbs; the CFx assay was unaffected by lipemia. CONCLUSIONS: Verification of the manufacturer's recommended interference thresholds is important since it may avoid inappropriate instrument flagging and/ or sample rejection.

Monitoring Ravulizumab effect on complement assays.

Ravulizumab is a new C5 inhibitor therapeutic monoclonal antibody with a longer half-life than eculizumab. Monitoring complete complement blockade by eculizumab has allowed personalized therapy in specific settings. Similar action is expected with ravulizumab. Ravulizumab has 4 different amino acids from eculizumab, which allow greater affinity for the FcRn immunoglobulin receptor and change the affinity of the molecule for C5. Here we investigate if clinical lab tests traditionally used to monitor complement blockade for eculizumab are appropriate for monitoring complement blockade caused by ravulizumab. De-identified serum samples with known normal complement activity were spiked with increasing amounts of ravulizumab, from zero to 1000 µg/mL. Measurement of classical pathway function (CH50) and C5 function using a liposome method (Wako Diagnostics) showed >50% complement inhibition starting with 50 µg/mL of ravulizumab, but inhibition >95% of complement activity was not achieved, with residual measurements of 11% at 700 µg/mL. In contrast, measurement of alternative pathway function using an ELISA (AH50, Wieslab) showed alternative pathway function inhibition of 80% at 50 µg/mL of ravulizumab and > 95% at 200 µg/mL, which is consistent with expected therapeutic concentrations of ravulizumab >175 µg/mL. If replicated in patient sera, AH50 could be a suitable therapeutic monitoring tool.