Abstract 13P
Background
The limit of detection (LoD) represents the minimum number of reads to detect a variant in a given depth, especially in multigene panel testing (MGPT). The reliability of MGPT depends on LoD in detecting somatic variants with precision. Comparison based LoD calculations require multiple inputs like population and non-tumorous data, which needs a high computational power. The standard MGPTs calculate in-run LoD rather than allele specific. Here, we aim to introduce a single-data-driven parallelized algorithm that overcomes these limitations.
Methods
The algorithm utilizes VCF and BAM files and derives the log-odds score from the binomial probabilities of true positive and false positive along with the variant allele fraction. Subsequently, the algorithm determines the minimum VAF threshold, indicating that the variant is confidently detectable above the specified error rate (default: 0.0001). A total of 652 liquid biopsy samples reported by a MGPT (20 genes), were used for benchmarking. We performed Fisher's exact test (p<0.05) both at the variant and gene-based level to analyze the association between true and false positive predictions.
Results
In our study, we optimized the algorithm's execution time by implementing it in a parallel processing framework. We were able to calculate LoDs in 44.32 kb/min speed within the configuration of 64 cores and 256 GB of memory. Based on reported detectable variants, the algorithm significantly demonstrated 89.92% positive predictive value (p=0.0001). When we assessed the algorithm at the gene-based level, all of 20 cancer-related genes were found statistically significant (p<0.003), which proves our testing accuracy.
Conclusions
The algorithm achieved highly significant associations by overcoming the limitations of comparison-based LoD calculations, both at the variant- and gene-based levels. These findings highlight the potential of our tool to aid precision oncogenomics from liquid biopsy samples. Overall, the study presents a novel LoD tool for all NGS applications, particularly in the scope of MGPT for somatic variants. The tool holds promise in advancing precision oncogenomics and may serve as a valuable asset in all personalized treatment strategies.
Editorial acknowledgement
Clinical trial identification
Legal entity responsible for the study
Acibadem Mehmet Ali Aydinlar University, Institute of Health Sciences, Department of Genome Studies.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
104P - Hypomethylated immune gene promoters as potential biomarkers in oral and oropharyngeal cancer
Presenter: Petra Anić
Session: Cocktail & Poster Display session
Resources:
Abstract
105P - Implementation of technical improvements in cfMeDIP-Seq library preparation
Presenter: Martina Dameri
Session: Cocktail & Poster Display session
Resources:
Abstract
106P - Clinical application of next-generation sequencing in metastatic colorectal cancer (mCRC): Experience from a comprehensive cancer centre
Presenter: David Lluís Garulo
Session: Cocktail & Poster Display session
Resources:
Abstract
107P - Unveiling mismatch repair deficiency (dMMR) and microsatellite-instability high (MSI-H) detection in cancer patients (pt) using a next-generation sequencing (NGS)-based molecular pre-screening program (MPP)
Presenter: Lucia Notario Rincon
Session: Cocktail & Poster Display session
Resources:
Abstract
108P - Validation and implementation of a large NGS panel to test liquid biopsies from patients with suspected advanced non-small cell lung cancer (NSCLC) in an NHS genomic laboratory for the QuicDNA biomarker study
Presenter: Rachel Dodds
Session: Cocktail & Poster Display session
Resources:
Abstract
109P - A multiomic, single-cell measurable residual disease (scMRD) assay for phasing DNA mutations and surface immunophenotypes
Presenter: Simone Formisano
Session: Cocktail & Poster Display session
Resources:
Abstract
110P - Multicellular three-dimensional tumor spheroid of nasopharyngeal carcinoma
Presenter: Shiau Chuen Cheah
Session: Cocktail & Poster Display session
Resources:
Abstract
111P - Development of digital PCR for accurate measurement of HER2 amplification in 184 gastric cancer patients
Presenter: So Young Kang
Session: Cocktail & Poster Display session
Resources:
Abstract
112P - A novel methylation-sensitive assay for early detection of hepatocellular carcinoma to improve surveillance
Presenter: Jeong Sil Ha
Session: Cocktail & Poster Display session
Resources:
Abstract
113P - Evaluation of effects of tissue preservation methods on the proteome abundance through deep proteomics of breast cancer tissue
Presenter: Shashwati parihari
Session: Cocktail & Poster Display session
Resources:
Abstract