Abstract 5018: Evaluation of whole blood fractionation conditions for optimal liquid biopsy NGS applications

Abstract “For research use only. Not for diagnostic procedures.” Introduction: Liquid biopsy is a non-invasive alternative to tissue biopsies for cancer profiling using cell-free total nucleic acids (cfTNA; including cell free DNA (cfDNA) and cell free RNA (cfRNA)), the biological analytes derived from tumor cells floating in blood. However, it is crucial to optimize the whole blood fractionation workflows, since limited access to a suitable centrifuge at blood collection sites poses a challenge to this critical fractionation step, causing delays in processing the blood, leading to decreased sensitivity of variant detection and increased occurrence of false positives. Current study shows a systematic comparison of the effects of 8 different blood fractionation conditions for spin speeds, temperatures and duration on the levels of cfTNA derived from K2-EDTA-derived blood from multiple healthy and non-small cell lung cancer (NSCLC) donors, using next generation sequencing (NGS). Methods: CfTNA from K2-EDTA derived plasma was isolated using the MagMAXTM Cell-Free Total Nucleic Acid kit and the Genexus™ Cell free total nucleic acid kit, utilizing the KingFisher TM Flex and GenexusTMpurification systems. Yield and integrity of cfTNA isolated was evaluated by Qubit™, Agilent Tapestation and quantitative real time PCR (qRT-PCR). Furthermore, the impact of these test conditions on quality control specifications of DNA and RNA was assessed by performing sequencing on an Ion TorrentTM GenexusTM sequencing instrument using the AmpliSeqTM HD target amplification assay, that reports sequence variations in DNA for 42 cancer related genes and RNA in 7 cancer related genes. Results: Results showed comparable performance for all the 8 blood fractionation conditions tested, for yield and cfDNA profiles compared to control condition, indicating that there is no significant impact of these conditions on either yield or integrity of the cfDNA isolated. In addition, NGS data also showed that on target reads and median molecular coverage for DNA are comparable for all the conditions tested. However, sequencing data demonstrated that one test condition showed significantly better performance for RNA quality control specifications in terms of RNA mapped reads and molecular coverage for process controls used in the assay, compared to all other conditions tested. Conclusion: Data suggests that one of the whole blood fractionation conditions tested impact the cfRNA recovery from plasma without negatively affecting the yield, and integrity of isolated cfDNA and shows increased sensitivity for RNA process controls in NGS. Citation Format: MADHU JASTI, Sergio Hernandez, Nick Siepert, Lokesh Kodandaramaswamy, Thilanka Jayaweera, Jeoffrey Schageman, Angie Cheng, Susanne Lopez, Miao Der Chen. Evaluation of whole blood fractionation conditions for optimal liquid biopsy NGS applications [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 5018.