Abstract
With the advent of novel, highly effective therapies for multiple myeloma (MM), classical serologic monitoring appears insufficient for response assessment and prediction of relapse. Moreover, serologic studies in MM are hampered by interference of therapeutic antibodies. The detection of malignant plasma cell clones by next generation sequencing (NGS) or multiparameter flow cytometry (MFC) circumvents these difficulties and can be performed in the peripheral blood (pB) by targeting circulating cell-free DNA (cfDNA) or circulating plasma cells (CPCs), thus also avoiding an invasive sampling procedure. Here, we applied NGS of VJ light chain (LC) rearrangements in cfDNA and MFC of magnetically-enriched CD138-positive CPCs (me-MFC) to investigate disease burden in unselected MM patients. Sequencing was successful for 114/130 (87.7%) cfDNA samples and me-MFC results were analyzable for 196/205 (95.6%) samples. MM clones were detectable in 38.9% of samples taken at initial diagnosis or relapse (ID/RD), but only in 11.8% of samples taken during complete remission (CR). Circulating MM plasma cells were present in 83.3% of ID/RD samples and 9.9% of CR samples. Residual disease assessment by NGS or me-MFC in samples taken during very good partial remission or CR was 80% concordant. Notably, 4/4 (NGS) and 5/8 (me-MFC) positive CR samples were from patients with oligo- or non-secretory myeloma. The time to progression was shorter if there was evidence of residual myeloma in the pB. Together, our findings indicate that our two novel analytical approaches accurately indicate the course of MM and may be particularly valuable for monitoring patients with serologically non-trackable disease.
Highlights
The treatment landscape for multiple myeloma (MM) has expanded substantially in the past few decades
For the purpose of this study, stringent complete response was not separated from complete response and minor responses were classified as stable disease (SD) because of the low number of samples in this group (n = 2 in the cell-free DNA (cfDNA) set and n = 3 in the magnetic enrichment followed by multiparameter flow cytometry (me-multiparameter flow cytometry (MFC)) set)
Our sample set covered a comprehensive spectrum of response groups according to IMWG criteria, allowing us to evaluate next-generation sequencing (NGS) of light chain (LC) repertoires in cfDNA and quantification circulating plasma cells (CPCs) in the peripheral blood (pB) for the estimation of myeloma burden in both serologically detectable and minimal residual disease
Summary
The treatment landscape for multiple myeloma (MM) has expanded substantially in the past few decades.
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