Abstract
8569 Background: The current standard of care (SOC) for limited disease (LD) small cell lung cancer (SCLC) is definitive concurrent chemoradiotherapy (CCRT). Despite the high response rate to SOC, up to 70% of the patients potentially experience disease recurrence and fail to show the prolonged clinical benefit. We investigated the feasibility of cell-free DNA (cfDNA) based genomic alteration and fragmentomic analysis using pre-and post-treatment samples to investigate the predictive value of disease recurrence in LD-SCLC. Methods: The blood sample from fifty LD-SCLC who were treated with definitive CCRT were collected before and after the treatment. Target sequencing, AlphaLiquid scan (IMBdx, Korea), composed of 106 target genes, was conducted using cfDNA and peripheral blood mononuclear cells. Based on the recurrence-free survival (RFS) interval of 12 months, patients were categorized into group with persistent response (PeR, n = 29) and non-PeR (n = 21). Fragmentomics analyses were collected using the proportion of cfDNA fragments sized in P1 (100 – 155 bp) and P2 (160 – 180 bp) ranges. Results: Initial analysis was conducted based on the gene of interest. Patients with RB1 mutation (n = 11) detected in follow-up sample demonstrated significant shorter RFS compared to the RB1 wild type (WT) patients (n = 39) (7.9 mon. vs. NR, P = 0.002). Among the patients who were available for our fragmentomics analysis in follow up samples (n = 19), non-PeR (n = 9) group were significantly high in P1 range ( P = 0.003) and low in P2 range ( P = 0.002) compared to PeR group (n = 10). AUCs using the fragment proportion in P1, proportion in P2, and the fragmentation ratio (proportion in P1 / proportion in P2), were 0.889, 0.911, and 0.889, respectively. The survival analysis using fragmentation ratio showed significantly longer RFS in fragmentation ratio low group compared to the high group (7.6 mon. vs. NR, P = 0.002). Integrating RB1 mutation status with fragmentation ratio, patients with both RB1 WT and fragmentation ratio low (n = 9) showed the most favorable outcomes ( P = 0.006). On the contrary, patients with either RB1 mutated or high in fragmentation ratio (n = 10) showed median RFS of rest than 12 months. Conclusions: In this study, we investigated the clinical feasibility of cfDNA detected mutation and size of the fragment in disease recurrence of LD-SCLC using the sample collected before and after definitive CCRT. It is observed that patients with either RB1 mutation or high fragmentation ratio detected from cfDNA after the completion of CCRT are likely to experience early disease recurrence. Our findings suggest that cfDNA could provide supplementary information in predicting early treatment failure and support the clinical decision in selecting high-risk patients who might need intense monitoring and additional consolidative treatment.
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