QIAGENannounced the launch of QIAseq Targeted cfDNA Ultra Panels that will enable researchers studying cancer and other diseases to turn cell-free DNA (cfDNA) liquid-biopsy samples into libraries ready for next-generation sequencing (NGS) in less than eight hours. The new kit adds another innovation to the QIAseq Targeted DNA product portfolio. It will be one of the central features of QIAGEN's life-science offering at the 2023 annual meeting of the American Association for Cancer Research (AACR) in Orlando, Florida, from April 14 to 19, 2023.

Liquid biopsy centered on cfDNA has become a vital tool in the diagnosis, outcome prognosis and treatment monitoring of cancer and other diseases. Carried by blood and other body fluids, cfDNA eliminates the need for surgery to take tissue samples. But it often carries disease-relevant variants in low concentrations, which means researchers demand extremely sensitive and reliable tools.

The QIAseq Targeted cfDNA Ultra Panels meet this requirement as they enable reliable detection of somatic genetic variants in challenging detection scenarios as low as 0.1% variant allele frequency (VAF) by enhanced chemistry, reduced enzymatic error rates, and an optimized bioinformatics pipeline. The QIAcuity digital PCR system enables researchers to detect and quantify DNA and RNA targets with high precision and sensitivity, allowing for reliable analysis of rare and difficult-to-detect targets for a wide range of applications. The instruments integrate partitioning, thermocycling and imaging into one workflow, cutting processing times to only two hours.

QIAGEN will also add new pan-cancer panels to its digital PCR portfolio. These panels offer a cutting-edge solution for the investigation of the most important cancer-related genes and will be available to customers starting in fall 2023. With a focus on hallmark mutations within specific genes, these assays enable researchers to investigate samples in multiplex reactions, allowing for faster and more efficient analysis.

The panels are suitable for a range of applications, including biomarker validation, orthogonal validation of next-generation sequencing, resistance monitoring, drug monitoring, and tumor characterization.