Abstract 5692: Cross-platform detection and quantification of actionable mutations in cell-free DNA shows high concordance and correlation between next-generation sequencing and droplet digital PCR

Abstract

Abstract Background: Non-invasive genotyping of cell-free DNA (cfDNA) provides physicians with the ability to identify genomic alterations, evaluate response to treatment, and uncover potential mechanisms of resistance. Here, we analyze the concordance of next-generation sequencing (NGS) and droplet digital PCR (ddPCR) in detecting and quantifying actionable mutations from cfDNA of lung, colorectal, and breast cancer patients. Methods: We studied a cohort of 221 advanced cancer cfDNA samples with completed Guardant360 digital sequencing results. Variant allele frequencies (% AFs) ranged from less than 0.2% to greater than 90% for common driver and resistance mutations. Blinded to plasma NGS results, we performed ddPCR using our validated assays for EGFR L858R, exon19 del, T790M (113 presumed lung cases); BRAF V600E, KRAS G12X (77 colorectal cases); ESR1 D538G, Y537C and PIK3CA H1047R (31 breast cases). Following unblinding, qualitative and quantitative accuracy were compared. Results: Qualitative results (Table 1) show a high concordance between NGS and ddPCR, with 98.3% (576/586) of all assays run being concordant. 9/22 of samples that had an AF below 0.4% were discordant, while only one sample above 0.4% AF was discordant. AFs calculated by NGS and ddPCR were strongly correlated by linear regression (R between 0.951 and 0.999). Notably, the slope of the ddPCR AF versus NGS AF graph for EGFR ex19del was 0.725, which improved to 0.95 with the adoption of an alternate calling method. Conclusions: This interlaboratory comparison of actionable mutations in cfDNA from lung, colorectal, and breast cancers by orthogonal genotyping platforms demonstrates a substantial concordance in detection and quantification between NGS and ddPCR. Our cross-platform study establishes the feasibility of standardization of qualitative and quantitative measurements of cfDNA-detected alterations. Table 1LungEGFR L858REGFR Ex19 delEGFR T790M(n=113)G360+G360-G360+G360-G360+G360-ddPCR+580510530ddPCR-055458456BreastESR1 Y537CESR1 D538GPIK3CA H1047R(n=31)G360+G360-G360+G360-G360+G360-ddPCR+1022020ddPCR-03009029ColorectalBRAF V600EKRAS G12X(n=78)G360+G360-G360+G360-ddPCR+220571ddPCR-055118 Citation Format: Bryan C. Ulrich, Rebecca J. Nagy, Justin I. Odegaard, Richard B. Lanman, Geoffrey R. Oxnard, Cloud P. Paweletz. Cross-platform detection and quantification of actionable mutations in cell-free DNA shows high concordance and correlation between next-generation sequencing and droplet digital PCR [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 5692. doi:10.1158/1538-7445.AM2017-5692