Oxford University Press, The Journal of Applied Laboratory Medicine, 4(7), p. 910-915, 2022
DOI: 10.1093/jalm/jfab174
Full text: Unavailable
Abstract Introduction The advent of therapeutic monoclonal antibodies (tmAbs) in treatment of multiple myeloma poses unique challenges for the clinical laboratory. These tmAbs may appear as a detectable monoclonal protein by electrophoretic methods resulting in misinterpretation or inability to measure therapeutic responses in some patients, and there are currently limited techniques for identifying interference. In this study we performed a preliminary assessment of the SPIFE anti-daratumumab (SPIFE anti-Dara) reagent to determine whether it would be a feasible aid in resolving the interference of tmAbs with serum protein electrophoresis (SPE) and immunofixation electrophoresis (IFE). Methods We performed a pilot study with 20 serum samples and clinical correlates. All samples had a characteristic daratumumab electrophoretic pattern (cathodal IgG/κ). A pre-electrophoretic sample treatment was performed with SPIFE anti-Dara. The reagent is a derivatized anti-Dara that forms multiple antibody/daratumumab complexes. SPE and IFE technical procedures were performed on Helena SPIFE 3000 according to the manufacturer instructions. Results Of the 20 patients, 14 patients were identified to be on daratumumab therapy. In 14/14 of cases, the daratumumab interference was successfully removed both from SPE and IFE assays. Disease associated M-protein was still visible after pretreatment, and quantification of M-protein may be possible with the use of SPIFE anti-Dara procedure. Discussion SPIFE anti-Dara is a promising method to remove the interference of therapeutic monoclonal antibody daratumumab with SPE and IFE results in clinical laboratories and warrants further assessment.