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Next-Generation Sequencing-Based Oncology Test Designed to Support Therapy Selection Submitted for FDA Approval

Thermo Fisher Scientific
15 Nov 2016
Lois Manton-O'Byrne, PhD
Executive Editor

Product news

In its ongoing effort to help enable the era of precision therapies in oncology, Thermo Fisher Scientific today announced it has filed the final module of a premarket approval (PMA) application with the U.S. Food and Drug Administration (FDA) for its Oncomine Universal Dx test, a multi-gene, next-generation sequencing (NGS)-based assay for non-small cell lung cancer (NSCLC).

If approved, the universal gene panel could be the first of its kind in the United States, and would serve as a companion diagnostic (CDx) utilized to select patients for specific NSCLC therapies. The test would also be accessible to global pharmaceutical companies for ongoing development of therapeutic drugs.

The universal CDx is designed to simultaneously screen patient tumor samples for multiple gene variants with a single test - minimizing the need to perform numerous sequential tests that identify individual biomarkers one at a time. Sequential testing is difficult in NSCLC cases. Samples are often limited and can create the need for additional invasive and sometimes dangerous biopsies if the tissue is depleted before a complete genetic profile is obtained.

This traditional approach can also significantly delay identification of the right treatment, time that the patient often does not have given the rapid progression of the disease and that it is often detected at later stages. Alternatively, the Oncomine Universal Dx test can return genetic data in less than five days using just 10ng of DNA.

“As pharmaceutical companies shift toward developing new targeted therapies as opposed to “one-size-fits-all” drugs, there is a clear need to more efficiently stratify cancer patients and tailor their treatments to enable better health outcomes,” said Joydeep Goswami, president of clinical next generation sequencing at Thermo Fisher Scientific. “A companion diagnostic of this kind holds the promise to make precision medicine a reality. We are excited to reach this significant milestone, which brings us a step closer to realizing the potential that targeted NGS may bring to advance treatment for cancer patients.”

The Oncomine Universal Dx test has been optimized as part of Thermo Fisher’s previously announced long-term collaboration with Novartis and Pfizer aimed at driving a paradigm shift in the way cancer patients are selected for drug therapies and the speed at which new NSCLC drugs are developed and registered. Thermo Fisher’s PMA submission includes clinical and analytical claims associated with NSCLC biomarkers, and comes after the successful completion of clinical trials using patient samples provided by Novartis and Pfizer.

The end-to-end, highly sensitive solution has been developed using Thermo Fisher’s Oncomine and AmpliSeq technologies and validated on the Ion PGM Dx System. The genes and biomarkers included in the test were selected from the Oncomine Knowledgebase, one of the world’s largest collections of curated oncology data, and confirmed with industry-leading pharmaceutical partners.

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Genome AnalysisGenomics, the study of genomes, includes functional genomics, evolutionary genomics and comparative genomics. There are many genomic technologies such as DNA sequencing of whole genomes, computational biology and bioinformatics. DNA and nucleic acids must be isolated and concentrated from cells for analysis with kits, automated analyzers and software. Other useful technologies for studying genomics include PCR, microarrays and electrophoresis.Gene Expression and Molecular CloningMolecular cloning is a set of techniques that utilizes vectors to transfer recombinant DNA into host cells and is an essential tool for investigating the expression of genes and proteins in bacterial or mammalian cells. A variety of vectors optimized for gene cloning and expression in a range of host organisms are available, alongside competent cells for genetic replication. Here, you can explore a range of molecular tools, high-quality genomic and cDNA libraries, premade clones, transformation and transfection reagents and mutagenesis or gene expression detection assays and expression arrays. Find the best gene expression and molecular cloning products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Clinical GeneticsMolecular Genetics covers the analysis of hereditary genetic disease and chromosomal abnormalities. Genetics can be analysed using DNA, RNA, and protein microarrays, PCR, RT PCR and DNA sequencing. Genetic equipment includes genetic workstations, thermal cyclers, cooling blocks and electrophoresis products. Diagnostic kits are used for DNA / RNA extraction and purification.Next Generation SequencingNext-generation sequencing (NGS), also known as whole-genome sequencing, high-throughput sequencing and massive parallel sequencing, produces and analyses thousands to millions of nucleotide sequences at once. Sequencing systems operate via varying technologies depending on the manufacturer, including sequencing by synthesis, ligation, pyrosequencing, ion semiconductor and single-molecule real-time sequencing. For NGS, library preparation is paramount to successful sequencing. In this section, explore a range of library preparation kits, from targeted, amplicon-based or hybridization-based kits including epigenomic, transcriptomic and genomic workflows to fragmentation kits. Find the best next-generation sequencing products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Personalized medicinePersonalized medicine refers to the idea of customized healthcare, where medical decisions and treatments are tailored to the individual patient. Molecular diagnostics, companion diagnostics and Next Generation Sequencing (NGS) play a pivotal role in this approach.Cancer DiagnosticsThere are a wide variety of diagnostic tests for cancer available, and this range continues to expand as our knowledge of cancer improves. Current diagnostic methods include biopsy, imaging and blood tests for known biomarkers. New methods in research development include liquid biopsies and cancer breathalyzers.Lung CancerLung cancer is a leading cause of cancer-related deaths worldwide, often diagnosed at an advanced stage. Research focuses on early detection, targeted therapies, and personalized treatment strategies. Explore lung cancer research and diagnostic products in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.Precision MedicinePrecision medicine refers to the idea of customized healthcare, where medical decisions and treatments are tailored to the individual patient. Molecular diagnostics, companion diagnostics and Next Generation Sequencing (NGS) play a pivotal role in this approach. Cancer ResearchAlthough cancer is often referred to as a single condition, it actually consists of more than 100 different diseases. Microscopy, mass spectrometry, high throughput sequencing and flow cytometry are some of the most common techniques employed in cancer research labs.

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