The novel detection of EGFR-T790M mutations in exhaled breath condensate.

Abstract

9032 Background: The EGFR-T790M somatic mutation is the most common mechanism of resistance to Tyrosine Kinase Inhibitors (TKI) in NSCLC. However patients with advanced disease are not always amenable to repeat biopsy for further molecular analysis. Developing non-invasive methods to detect T790M in cell-free DNA (cfDNA), in the absence of tissue is being actively investigated. Furthermore these 'liquid biopsies' may also overcome the problem of tumour genomic heterogeneity. Unfortunately the sensitivity of plasma for T790M detection has been disappointing with a significant chance of a false negative result. Exhaled breath condensate (EBC) is an easily collected sample and is known to harbour cfDNA, including lung cancer mutations. We explored the potential of EBC as a novel method of T790M detection. Methods: We recruited 26 patients who were either 1) known T790M positive pre/during Osimertinib therapy or 2) other mEGFR positive patients on 1st/2nd generation TKI. We collected matched plasma and EBC samples in the majority of cases. EBC samples were collected using the RTube device. Plasma was collected using standard EDTA tubes and extracted within 90 minutes. Using UltraSEEK chemistry, a targeted PCR for ultra-sensitive somatic mutation profiling on the MassARRAY system (Agena Bioscience), we compared the performance of EBC to plasma for the detection of T790M. Results: See Table. Conclusions: In this pilot study we describe the first ever report of the successful and consistent detection of T790M in the EBC of patients with EGFR mutated NSCLC, using a commercially available targeted assay. Our results suggest EBC is responsive to recognised dynamic molecular changes that occur on TKI treatment. We believe this makes EBC analysis an attractive avenue for future research, to optimise the detection of T790M mutations in liquid biopsies. [Table: see text]