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. 2024 Sep 25:14:1420162.
doi: 10.3389/fonc.2024.1420162. eCollection 2024.

ASPYRE-Lung: validation of a simple, fast, robust and novel method for multi-variant genomic analysis of actionable NSCLC variants in FFPE tissue

Ryan T Evans  1 Elizabeth Gillon-Zhang  1 Julia N Brown  1 Katherine E Knudsen  1 Candace King  1 Amanda S Green  1 Ana-Luisa Silva  2 Justyna M Mordaka  2 Rebecca N Palmer  2 Alessandro Tomassini  2 Alejandra Collazos  2 Christina Xyrafaki  2 Iyelola Turner  2 Chau Ha Ho  2 Dilyara Nugent  2 Jinsy Jose  2 Simonetta Andreazza  2 Nicola D Potts  2 Kristine von Bargen  2 Eleanor R Gray  2 Magdalena Stolarek-Januszkiewicz  2 Aishling Cooke  2 Honey V Reddi  1 Barnaby W Balmforth  1 Robert J Osborne  2
Affiliations

ASPYRE-Lung: validation of a simple, fast, robust and novel method for multi-variant genomic analysis of actionable NSCLC variants in FFPE tissue

Ryan T Evans et al. Front Oncol. .

Abstract

Introduction: Genomic variant testing of tumors is a critical gateway for patients to access the full potential of personalized oncology therapeutics. Current methods such as next-generation sequencing are costly and challenging to interpret, while PCR assays are limited in the number of variants they can cover. We developed ASPYRE® (Allele-Specific PYrophosphorolysis REaction) technology to address the urgent need for rapid, accessible and affordable diagnostics informing actionable genomic target variants of a given cancer. The targeted ASPYRE-Lung panel for non-small cell carcinoma covers 114 variants in 11 genes (ALK, BRAF, EGFR, ERBB2, KRAS, RET, ROS1, MET & NTRK1/2/3) to robustly inform clinical management. The assay detects single nucleotide variants, insertions, deletions, and gene fusions from tissue-derived DNA and RNA simultaneously.

Methods: We tested the limit of detection, specificity, analytical accuracy and analytical precision of ASPYRE-Lung using FFPE lung tissue samples from patients with non-small cell lung carcinoma, variant-negative FFPE tissue from healthy donors, and FFPE-based contrived samples with controllable variant allele fractions.

Results: The sensitivity of ASPYRE-Lung was determined to be ≤ 3% variant allele fraction for single nucleotide variants and insertions or deletions, 100 copies for fusions, and 200 copies for MET exon 14 skipping. The specificity was 100% with no false positive results. The analytical accuracy test yielded no discordant calls between ASPYRE-Lung and expected results for clinical samples (via orthogonal testing) or contrived samples, and results were replicable across operators, reagent lots, runs, and real-time PCR instruments with a high degree of precision.

Conclusions: The technology is simple and fast, requiring only four reagent transfer steps using standard laboratory equipment (PCR and qPCR instruments) with analysis via a cloud-based algorithm. The ASPYRE-Lung assay has the potential to be transformative in facilitating access to rapid, actionable molecular profiling of tissue for patients with non-small cell carcinoma.

Keywords: NSCLC; assay validation; molecular diagnosis; precision oncology; pyrophosphorolysis; targeted panel.

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Conflict of interest statement

Authors RE, EG-Z, JB, KK, CK, AG, and BB are employed by the company Biofidelity Inc. Authors A-LS, JM, RP, AT, AC, CX, IT, CH, DN, JJ, SA, NP, KB, EG, MS-J, AC and RO are employees of Biofidelity Ltd, a privately held company. All authors may hold stock or stock options. Author HR was a consultant of Biofidelity Inc at the time of the study. Biofidelity has filed patent applications on aspects of this research WO2021130494A1. The author HR declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision. The authors declare that this study received funding from Biofidelity Ltd. The following had the following involvement in the study: study design, data collection, analysis, decision to publish, and preparation of the manuscript.

Figures

Figure 1
Figure 1
Parallelized workflow of the ASPYRE-Lung targeted mutation panel. Workflow schematic, showing the four separate steps of the assay for DNA (Section 2, left) and RNA (Section 2, right). While steps shown in section 2 differ technically between DNA and RNA, there is no difference to the user in handling the assay, facilitating ease of use.
See this image and copyright information in PMC

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