Background: High-dose osimertinib shows modest anti-tumor activity and acceptable toxicity in patients with advanced non-small cell lung cancer (NSCLC) harboring an epidermal growth factor receptor exon 20 mutation (EGFRex20+). Plasma-derived circulating tumor DNA (ctDNA) is promising in monitoring responses and detecting resistance mechanisms to therapy.
Objective: We aimed to assess the concordance between variants detected in ctDNA to those found in corresponding tissue samples at baseline and progression, to analyze alterations in mutant ctDNA levels of EGFRex20+ variants as predictors of therapy response, and to identify resistance mechanisms to high-dose osimertinib as well as examine changes in mutant ctDNA levels of EGFRex20+ variants.
Patients and methods: Twenty-five patients with EGFRex20+ NSCLC received double dose (160 mg) osimertinib daily. Blood plasma was collected at baseline, 6 weeks after therapy start (T6), and at progression. ctDNA analysis was performed using the NGS Guardant360 CDx panel. The molecular profile at progression was compared with baseline/T6, and changes in ctDNA levels of the EGFRex20+ variants were linked to response or resistance.
Results: Collected ctDNA samples were analyzed retrospectively. Baseline ctDNA showed somatic alterations in 19/20 patients (95%) and the corresponding tumor biopsy NGS EGFRex20+ variant in 65%. Among 14 patients with profiling at all timepoints, there was no significant correlation between changes in mutant ctDNA levels and osimertinib response. At T6, nine patients showed decreased EGFRex20+ levels, with eight also showing tumor shrinkage. At disease progression, 9/14 (64%) patients had increased EGFRex20+ levels, correlating with tumor growth. Variants potentially associated with resistance were found in 11/18 patients (61%): single nucleotide variants (SNV, n = 14), insertions (n = 2), and gene fusions (n = 1). Mutations previously related to osimertinib resistance were found, including EGFR p.C797S (n = 1).
Conclusions: ctDNA analysis tracks variant dynamics and can identify resistance mechanisms in patients with EGFRex20+ NSCLC treated with high-dose osimertinib, offering valuable new insights.
© 2025. The Author(s).