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Molecular residual disease (MRD) analysis from the ADAURA trial of adjuvant (adj) osimertinib in patients (pts) with resected EGFR-mutated (EGFRm) stage IB–IIIA non-small cell lung cancer (NSCLC).

Tom John, Christian Grohé, Jonathan W. Goldman, Terufumi Kato, К. К. Лактионов, Laura Bonanno, Marcello Tiseo, Margarita Majem, Manuel Dómine, Myung‐Ju Ahn, M. Pérol, Ryan J. Hartmaier, Jacqulyne Robichaux, Preetida J. Bhetariya, Aleksandra Markovets, Yuri Rukazenkov, Caitlin Muldoon, Roy S. Herbst, Masahiro Tsuboi, Yi‐Long Wu

2024Journal of Clinical Oncology27 citationsDOI

Abstract

8005 Background: Osimertinib (osi) is a third-generation, central nervous system-active EGFR-TKI, that potently and selectively inhibits EGFR-TKI sensitizing and EGFR T790M resistance mutations. Adj osi (3 years [yrs]) is recommended for resected EGFRm stage IB–IIIA NSCLC, based on significant improvements in disease-free survival (DFS) and overall survival (OS) in the Phase III ADAURA study (NCT02511106). A trend towards an increased DFS event rate beyond 3 yrs suggests some pts may benefit from longer adj osi treatment (tx). We explored if plasma ctDNA-based, tumor-informed MRD could predict disease recurrence. Methods: Eligible pts (≥18 yrs [≥20 in Japan/Taiwan], WHO PS 0/1 with completely resected EGFRm [Ex19del/L858R] stage IB, II or IIIA [AJCC 7th edition] NSCLC) were randomized 1:1 to osi 80 mg once daily or placebo (pbo) until disease recurrence, tx completion (up to 3 yrs), or a discontinuation criterion was met. Personalized MRD panels (RaDaR, NeoGenomics) were used, comprised of ≤50 tumor-specific variants, based on whole exome sequencing of resected tumor tissue (variants identified in germline DNA removed). Plasma sample collection: baseline (BL; at randomization surgery and adj Ctx, if received), on tx (every 12 weeks [wks]), tx discontinuation, and post-tx completion (wk 12, wk 24, then every 24 wks until 5 yrs). Plasma samples were analyzed for detection of ctDNA (MRD+). Molecular recurrence or DFS (MRD/DFS) was defined as time from randomization to post-BL MRD+, disease recurrence, or death and was compared across arms. DFS was investigator-assessed. Results: Of 682 pts randomized, 245 (36%) had samples required to produce MRD panels, which were evaluable for 220 (32%) pts across both arms. In the osi vs pbo arms, 5/112 (4%) vs 13/108 (12%) pts were MRD+ at BL; 4/5 pts became MRD– during osi tx vs 0/13 pts on pbo. On tx, MRD detection had clinical sensitivity of 65% (62 MRD+/96 DFS+), specificity of 95% (118 MRD–/124 DFS–) and preceded a DFS event by a median (95% CI) of 4.7 (2.2, 5.6) months (mos) across both arms. Median follow-up time from randomization was 44.2 (95% CI 42.4, 49.1) and 19.1 (95% CI 11.1, 28.3) mos for osi and pbo arms, respectively. Overall, 86% (95% CI 78, 92) vs 36% (95% CI 27, 45) pts in the osi vs pbo arms were MRD/DFS event free at 36 mos (HR: 0.23; 95% CI 0.15, 0.36). MRD/DFS events in the osi arm were detected at any time post-BL in 28 (25%) pts, of whom 19/28 (68%) had events post-adj osi. Most (11/19 [58%]) MRD/DFS events detected occurred within 12 mos of osi tx completion. Conclusions: MRD+ preceded DFS events in most pts with a median lead time of 4.7 mos across both arms. MRD– was maintained for most pts during adj osi tx with the majority of MRD/DFS events occurring after osi tx completion. MRD detection could potentially identify a subset of pts likely to benefit from longer adj osi. Clinical trial information: NCT02511106 .

Topics & Concepts

MedicineOsimertinibAdjuvantOncologyStage (stratigraphy)non-small cell lung cancer (NSCLC)Internal medicineLung cancerDiseaseCancerCancer researchEpidermal growth factor receptorErlotinibPaleontologyBiologyA549 cellLung Cancer Treatments and MutationsLung Cancer Diagnosis and TreatmentRadiomics and Machine Learning in Medical Imaging