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RESEARCH PRODUCT
A machine learning model based on tumor and immune biomarkers to predict undetectable MRD and survival outcomes in multiple myeloma
Camila GuerreroNoemi PuigMaria-teresa CedenaIbai GoicoecheaCristina PerezJuan José GarcésCiro BottaMaria-jose CalasanzNorma C. GutierrezMaria-luisa Martin-ramosAlbert OriolRafael RiosMiguel-teodoro HernandezRafael Martinez-martinezJoan BargayFelipe De ArribaLuis PalomeraAna Pilar Gonzalez-rodriguezAdrian Mosquera-orgueiraMarta-sonia Gonzalez-perezJoaquin Martinez-lopezJuan José LahuertaLaura RosiñolJoan BladeMaria-victoria MateosJesus F. San MiguelBruno Paivasubject
Machine LearningSurvival Ratemultiple myelomaCancer ResearchNeoplasm ResidualMRDOncologyimmunomonitoringHumansBiomarkersAgedmachine learning.description
Abstract Purpose: Undetectable measurable residual disease (MRD) is a surrogate of prolonged survival in multiple myeloma. Thus, treatment individualization based on the probability of a patient achieving undetectable MRD with a singular regimen could represent a new concept toward personalized treatment, with fast assessment of its success. This has never been investigated; therefore, we sought to define a machine learning model to predict undetectable MRD at the onset of multiple myeloma. Experimental Design: This study included 487 newly diagnosed patients with multiple myeloma. The training (n = 152) and internal validation cohorts (n = 149) consisted of 301 transplant-eligible patients with active multiple myeloma enrolled in the GEM2012MENOS65 trial. Two external validation cohorts were defined by 76 high-risk transplant-eligible patients with smoldering multiple myeloma enrolled in the Grupo Español de Mieloma(GEM)-CESAR trial, and 110 transplant-ineligible elderly patients enrolled in the GEM-CLARIDEX trial. Results: The most effective model to predict MRD status resulted from integrating cytogenetic [t(4;14) and/or del(17p13)], tumor burden (bone marrow plasma cell clonality and circulating tumor cells), and immune-related biomarkers. Accurate predictions of MRD outcomes were achieved in 71% of cases in the GEM2012MENOS65 trial (n = 214/301) and 72% in the external validation cohorts (n = 134/186). The model also predicted sustained MRD negativity from consolidation onto 2 years maintenance (GEM2014MAIN). High-confidence prediction of undetectable MRD at diagnosis identified a subgroup of patients with active multiple myeloma with 80% and 93% progression-free and overall survival rates at 5 years. Conclusions: It is possible to accurately predict MRD outcomes using an integrative, weighted model defined by machine learning algorithms. This is a new concept toward individualized treatment in multiple myeloma. See related commentary by Pawlyn and Davies, p. 2482
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2022-01-21 |