Scientific Reports (Aug 2022)
Fragment size and dynamics of EGFR-mutated tumor-derived DNA provide prognostic information regarding EGFR-TKI efficacy in patients with EGFR-mutated NSCLC
Abstract
Abstract Circulating tumor DNA (ctDNA)-based next-generation sequencing (NGS) is a complementary and alternative test to tissue-based NGS. We performed NGS analysis of ctDNA samples collected from patients with EGFR-mutated non-small cell lung cancer (NSCLC) who received osimertinib; the samples were collected after second-line treatment, before osimertinib treatment, one week and one month after osimertinib treatment, and at the time of resistance formation. We examinedthe correlation with osimertinib efficacy. From January to December 2018, 34 patients with EGFR-mutated NSCLC harboring EGFR T790M mutations were enrolled, and a total of 132 peripheral blood samples were collected. The fragment sizes of EGFR-mutated ctDNAs were significantly shorter than that of their corresponding normal fragments. Osimertinib treatment of patients with shorter EGFR-mutated ctDNA fragments resulted in shorter progression-free survival (PFS). The disappearance time of EGFR-mutated fragment fractions and clonal evolution patterns (new driver mutation group, additional mutation group vs. attenuation group) were each associated with the PFS achieved with osimertinib treatment; however,multivariate analysis revealed that only shorter EGFR-mutated ctDNA fragments were associated with the PFS resulting from osimertinib treatment. EGFR-mutated ctDNA fragment size, time of disappearance of these fragments, and clonal evolution pattern were related to the effects of osimertinib. In particular, short EGFR-mutated ctDNA fragmentation may be closely related to osimertinib efficacy prediction.