Whereas cancer patients have benefited from liquid biopsies, the scenario for gastric adenocarcinoma (GAC) is still dismal. We used next‐generation deep sequencing of TP53 ‐ a highly mutated and informative gene in GAC ‐ to assess mutations in tumor biopsies, plasma (PL) and stomach fluids (gastric wash ‐ GW). We evaluated their potential to reveal tumor‐derived mutations, useful for monitoring mutational dynamics at diagnosis, progression, and treatment. Exon‐capture libraries were constructed from 46 patients including tumor biopsies, GW and PL pre and post‐treatment (196 samples), with high vertical coverage >8,000X. At diagnosis, we detected TP53 mutations in 15/46 biopsies (32.6%), 7/46 GW‐ (15.2%) and 6/46 PL‐samples (13%). Biopsies and GW were concordant in 38/46 cases (82.6%) for the presence/absence of mutations and, furthermore, four GW‐exclusive mutations were identified, suggesting tumor heterogeneity. Considering the combined analysis of GW and PL, TP53 mutations found in biopsies were also identified in 9/15 (60%) of cases, the highest detection level reported for GAC. Our study indicates that GW could be useful to track DNA alterations, especially if anchored to a comprehensive gene‐panel designed for this malignancy.
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