Abstract
The therapeutic landscape of multiple myeloma has undergone a profound transformation with the incorporation of anti-CD38 monoclonal antibody (mAb)-based quadruplet regimens in the frontline setting and T-cell redirecting immunotherapies in the relapsed setting. In this article, we synthesize evidence from pivotal trials to guide treatment decisions and sequencing across the disease trajectory. For transplant-eligible, transplant-deferred, and fit transplant-ineligible patients who are younger than 80 years old, we use anti-CD38 mAb-, lenalidomide-, and bortezomib/carfilzomib-based quadruplets as an induction regimen. For early relapse (1-3 prior lines), chimeric antigen receptor T-cell therapies targeting B-cell maturation antigen (BCMA) have demonstrated superiority over standard regimens, with ciltacabtagene autoleucel (cilta-cel) being the most efficacious product currently, albeit with some unique toxicities such as parkinsomism. Belantamab mafadotin-based triplets have shown impressive efficacy in lenalidomide and anti-CD38 mAb-refractory patients, although ocular toxicity remains a concern. Anti-CD38 mAb and carfilzomib-based triplets remain an essential therapeutic option in patients not refractory to anti-CD38 mAb. In late relapse (≥4 prior lines), bispecific antibodies (BsAbs) targeting BCMA (teclistamab, elranatamab, and linvoseltamab) and GPRC5D (talquetamab) have demonstrated impressive single-agent activity with distinct toxicity profiles. Emerging evidence supports prioritizing chimeric antigen receptor T-cell therapy before BsAbs when clinically feasible, as sequential efficacy appears compromised in the reverse sequence. For patients with BCMA- and GPRC5D-refractory disease, FcRH5-targeting BsAb (cevostamab), BCL2 inhibitors for t(11;14)-positive disease, and novel trispecific antibodies (BCMAXCD38; BCMAXGPRC5D) offer promising options. Strategic sequencing trials represent a critical unmet need, with PFS (progression-free survival)-2 potentially serving as a valuable intermediate end point to guide clinical decision-making while waiting for mature survival data.
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