Molecular Sequencing And Gene Fusion Detection In Non-Small Cell Lung Cancer (Nsclc) Patients. Irnpact Of Co-Existing Alterations

e23103 Background: There is a growing need for accurate molecular diagnostics for proper targeted therapeutics selection in NSCLC patients (pts). We assess whether next generation techniques increase the identification of alterations in a prospective cohort of NSCLC pts, and evaluate prognostic value of different molecular alterations. Methods: Next generation sequencing (Amplicon-seq, 60 genes) and NanoString Gene fusion (20 genes) testing were conducted in NSCLC pts treated in a single center from November 2014 to May 2016. Overall survival (OS) according to the molecular profile was analysed by Kaplan-Meier method and Cox models. Results: Molecular tests were performed in 73advanced NSCLC pts.Median age was 54 year, 50% were women. Histology: 73% adenocarcinoma; 7% squamous, 20% others (Neuroendocrine, NOS). Tests were performed in biopsies from metastatic sites in 55% of pts.These techniques identified molecular alterations in 89% of cases: TP53 mutation (mut) 37/73 (51%); KRASmut 21/73 (29%); EGFRmut 11/73 (15%) ; CDKN2mut 7/73 (9%); BRAFmut (pG469R), ERBB2mut and METexon14mut in (1/73) 1.3%, respectively; ALKfusion (fus) 2/73 (2.7%); ROS1fus 1/73 (1.3%) , and RET fus 3/73 (4%). Concomitant mutations were identified in 32% of pts mainly with TP53 (TP53/EGFR: (5/11) 45% and TP53/KRAS: (7/21) 33%). Matched targeted treatment was offered in 17/73 (23%), mostly tyrosine kinase inhibitors (TKI); anti-EGFR in 11/17 (65%) and ALK/ROS TKI in 3/17 (17.5%). Three pts (17.5%) received anti-MET or anti-HER2 TKI. OS in this whole population treated with target therapies (n = 17) was 45.7 months (m) (CI95% 26.8-NA). The KRASmut group had median OS of 10 m (CI95% 7.5-NA), while the remaining population with wild type (WT) for all driver alterations had median OS of 23 m (CI95% 20-NA), (HR 1.71 for KRASmut vs WT pts, p = 0.18). The presence of coexisting TP53mut did not negatively impact on OS in the cohorts with EGFRmut and KRASmut (p > 0.1) in a multivariate model. Conclusions: Combined next generation techniques for molecular profile in NSCLC pts identifies molecular alterations that have clinically relevant impact in survival. Coexisting TP53mut alteration shows no detrimental effect in OS.