Litcius/Paper detail

Up-front cell-free DNA next generation sequencing improves target identification in UK first line advanced non-small cell lung cancer (NSCLC) patients

Wanyuan Cui, Charlotte Milner-Watts, Hazel O’Sullivan, Hannah Lyons, Anna Minchom, Jaishree Bhosle, Michael Davidson, Nadia Yousaf, Sophie Scott, Iris Faull, M. Kushnir, Rebecca J. Nagy, Mary O’Brien, Sanjay Popat

2022European Journal of Cancer38 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Genomic sequencing is necessary for first-line advanced non-small cell lung cancer (aNSCLC) treatment decision-making. Tissue next generation sequencing (NGS) is standard but tissue quantity, quality, and time-to-results remains problematic. Here, we compare upfront cell-free-DNA (cfDNA) NGS clinical utility against routine tissue testing in patients with aNSCLC. METHODS: cfDNA-NGS was performed in consecutive, newly identified aNSCLC patients between December 2019-October 2021 alongside routine tissue genotyping. Variants were interpreted using AMP/ASCO/CAP guidelines. The primary endpoint was tier-1 variants detected on cfDNA-NGS. cfDNA-NGS results were compared to tissue results. RESULTS: Of 311 patients, 282 (91%) had an informative cfDNA-NGS test; 118 (38%) patients had a tier-1 variant identified by cfDNA-NGS. Of 243 patients with paired tissue-cfDNA tests, 122 (50%) tissue tests were informative; 85 (35%) tissue tests identified a tier-1 variant. cfDNA-NGS detected 39 additional tier-1 variants compared to tissue alone, increasing the tier-1 detection rate by 46% (from 85 to 124). The sensitivity of cfDNA-NGS relative to tissue was 75% (25% tissue tier-1 variants were not detected on cfDNA-NGS); 33% of cfDNA tier-1 variants were not identified on tissue tests. Median time from request-to-report was shorter for cfDNA-NGS versus tissue (8 versus 22 days; p < 0.0001). A total of 245 (79%) patients received first-line systemic-therapy: 49 (20%) with cfDNA-NGS results alone. Median time from sampling-to-commencement of first-line treatment was shorter for cfDNA-NGS blood draw versus first tissue biopsy (16 versus 35 days; p < 0.0001). CONCLUSIONS: cfDNA-NGS increased the tier-1 variant detection rate with high concordance with tissue, and halves time-to-treatment. 'Plasma-first' upfront cfDNA-NGS use should be considered routinely for aNSCLC.

Topics & Concepts

Cell-free fetal DNALung cancerGenotypingMedicineOncologyInternal medicineDNA sequencingGenotypeBiologyDNAGeneticsGenePregnancyFetusPrenatal diagnosisCancer Genomics and DiagnosticsLung Cancer Treatments and MutationsLung Cancer Diagnosis and Treatment
Up-front cell-free DNA next generation sequencing improves target identification in UK first line advanced non-small cell lung cancer (NSCLC) patients | Litcius