OGT Expands Cytocell FISH Probe Portfolio for Lung Cancers
OXFORD, England, September 13, 2016 /PRNewswire/ --
New probes facilitate diagnosis and stratified treatment of NSCLC
Oxford Gene Technology (OGT), The Molecular Genetics Company, has launched two new CE-IVD labelled fluorescence in situ hybridisation (FISH) probes, further expanding its extensive lung cancer portfolio. The Cytocell Aquarius® ROS1 Plus Breakapart and RET Breakapart probes* specifically and accurately detect rearrangements in the genome associated with the most common form of lung cancer - non-small cell lung cancer (NSCLC). The new additions complement OGT's existing NSCLC probe range (including ALK Breakapart, EGFR Amplification and EML Breakapart), providing a comprehensive solution for diagnosis and patient stratification.
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Lung cancer is the most commonly diagnosed cancer as well as the leading cause of cancer death in males. Worldwide, lung cancer accounted for 1.8 million new cases in 2012, with NSCLC accounting for 85% of these. Manisha Maurya, Clinical Scientist, Royal Marsden NHS Foundation Trust, explained the significance of the new Cytocell probes: "As NSCLC can be classified into different molecular subtypes, accurate genomic identification of the correct subtype is of paramount importance for targeted treatment. In our validation studies, the new Cytocell probes for NCSLC showed tight, bright signals allowing easy visualisation and scoring of results. These probes will further improve our ability to stratify and treat NSCLC."
Senior Product Manager for Pathology at OGT, Steve Chatters also commented: "Cancer research is advancing at a rapid rate. At OGT, we work with leading clinical scientists to develop innovative products that utilise the latest scientific understanding. This is exemplified by our new Cytocell Aquarius ROS1 Plus Breakapart Probe, which has been designed to cover not only the ROS1 region but also the region deleted in ROS1-GOPC fusions, enabling more comprehensive analysis."
The probes are available in two economical sizes and are premixed in hybridisation buffer - saving time and minimising potential errors. Fully optimised for use on formalin-fixed, paraffin-embedded (FFPE) samples, Cytocell FISH probes deliver high-intensity signals with minimal background for accurate, reliable results and confident diagnoses.
Download OGT's new brochure at http://www.ogt.com/NSCLC to find out more about the extensive range of Cytocell FISH probes for NSCLC.
- Ervik M, et al (2016) Cancer Today. Lyon, France: International Agency for Research on Cancer. Cancer Today. Available from: http://gco.iarc.fr/today, accessed 30/08/2016
- Molina JR, et al (2008) Non-Small Cell Lung Cancer: Epidemiology, Risk Factors, Treatment, and Survivorship. Mayo Clinic proceedings Mayo Clinic. 83(5):584-594
Notes for editors:
About Oxford Gene Technology
Oxford Gene Technology (OGT) provides world-class genetics research solutions to leading clinical and academic research institutions. Founded by Professor Sir Edwin Southern, and with customers in over 60 countries worldwide, OGT has a strong reputation and increasing share in the large and growing genomic medicine market. The Company's Cytocell®, CytoSure™ and SureSeq™ range of fluorescence in situ hybridisation (FISH), microarray and next generation sequencing (NGS) products deliver high-quality genetic analysis, enabling accurate identification and confirmation of the causative variation underlying genetic disease.
* Cytocell Aquarius® RET Breakapart and ROS1 Plus Breakapart probes have received the CE-IVD label, and will be available from 8th September 2016.
CytoSure™, SureSeq™ and myProbes®: For Research Use Only; Not for Use in Diagnostic Procedures. Cytocell: Some products may not be available in the US.
For further information, please contact:
Oxford Gene Technology, Begbroke Science Park, Begbroke Hill, Woodstock Road, Begbroke, Oxfordshire, OX5 1PF, U.K.
T: +44(0)1865-856826 ; F: +44(0)1865-848684
E: firstname.lastname@example.org ; W: http://www.ogt.com ; Twitter: @OxfordGeneTech
SOURCE Oxford Gene Technology