Comparative analysis of a novel next-generation sequencing-based IGH clonality assay for measurable residual disease detection in pediatric B-cell acute lymphoblastic leukemia patients

Measurable residual disease (MRD) is critical in guiding therapeutic strategies for B-cell acute lymphoblastic leukemia (B-ALL). This study evaluated the performance of a novel next-generation sequencing-based Celemics IGH assay (CM-IGH; Celemics, Seoul, Korea) compared with the LymphoTrack^® IGH FR1 assay (LT-IGH; Invivoscribe Technologies, USA) and multiparameter flow cytometry (MFC). A total of 31 diagnostic and 60 follow-up bone marrow aspirate samples, all from the same 31 pediatric patients with B-ALL, were analyzed using the CM-IGH and LT-IGH assays on the MiSeq platform, as well as MFC according to EuroFlow guidelines. Initial IGH clonality was detected in 83.9% of CM-IGH samples and 90.3% of LT-IGH samples (p = 0.060). MRD positivity rates in follow-up samples were 74.5% for CM-IGH, 61.1% for LT-IGH, and 56.7% for MFC. CM-IGH showed concordance rates of 78.3% with LT-IGH and 68.1% with MFC, while LT-IGH demonstrated an 81.5% concordance rate with MFC. The correlation coefficients (r) of MRD levels were 0.831 between CM-IGH and LT-IGH, 0.702 between CM-IGH and MFC, and 0.776 between LT-IGH and MFC. The CM-IGH assay demonstrates substantial concordance with LT-IGH and MFC in detecting MRD in pediatric patients with B-ALL, highlighting the complementary value of IGH clonality assays and MFC.