• First next-generation sequencing platform to receive funding from BARDA
• Up to $51.9 million, contract to support testing and FDA clearance of DNAe’s sequencing platform for a series of applications
• Initial focus to address two of the most significant threats to global health, antimicrobial resistance and influenza
London, UK and Carlsbad, CA, USA – 30 September 2016 DNA Electronics (‘DNAe’), the inventors of semiconductor-based next-generation DNA sequencing (NGS) technology and developers of a revolutionary blood-to-result test for bloodstream infections, announces that the Biomedical Advanced Research and Development Authority (BARDA) a division of the Assistant Secretary for Preparedness and Response (ASPR) in the U.S. Department of Health and Human Services (HHS) has awarded the Company a contract worth up to $51.9 million to develop its sequencing platform for rapid diagnosis in two key applications; antimicrobial resistant infections and influenza.
Genomic information derived from DNA sequencing is transforming many areas of medicine. This is the first NGS platform supported by BARDA, with game-changing potential in the diagnosis and treatment of infectious diseases.
The Centers for Disease Control and Prevention (CDC) have estimated that more than 2 million people per year in the U.S. suffer antimicrobial resistant infections resulting in 23,000 deaths. The CDC also predicts that a flu pandemic could result in between 89,000 and 207,000 deaths in the U.S. and could cost the economy $71.3-166.5 billion.
The contract for the project entitled PISCES (Pathogen Identification from Specimen, via Capture Extraction and Sequencing) will enable DNAe to complete the development and validation of its ground-breaking Genalysis® platform and support a series of applications to the U.S. Food and Drug Administration for marketing clearance.
The Genalysis® platform will combine the ability to sequence the DNA of the infectious organism, in a sealed microchip based system, direct from clinical specimen, with analysis that enables actionable identification of the disease agent within a few hours, a key requirement in the effective treatment of infectious diseases.
DNAe’s first product will be a rapid blood-to-result diagnostic system to meet an unmet need in the treatment of serious bloodstream infections leading to sepsis. Sepsis is an area of very high unmet medical need, responsible for over 200,00 deaths per annum in the US, more than prostate cancer, breast cancer and AIDS combined1. In late stage development and testing, the new system is set for commercial launch in 2018.
In 2014, BARDA awarded a $21.5 million, contract to DNAe’s US operation (then called nanoMR, Inc.) to develop an automated sample preparation system that could reduce the time needed to test for bloodstream infections and biothreat agents such as anthrax from days to hours. DNAe acquired nanoMR in January 2015 to complete the workflow of its sample-to-result solution by combining nanoMR’s novel Pathogen Capture System, which extracts and concentrates pathogens, such as bacteria or fungi directly from a raw blood sample, with its Genalysis® technology.
Sam Reed, President, U.S. Office, DNAe, based in Washington DC, and who is leading DNAe’s sequencing program commented: “Our platform is truly revolutionary as it brings a powerful sequencing-based diagnostic capability into a rapid, user-friendly format. Importantly the platform can be operated by users who are not specially-trained in sequencing, enabling it to be used in a wide range of near-to-patient clinical environments where sequencing has not been possible before. Unlike existing sequencing devices, the platform operates ‘push button’ directly from raw clinical specimens such as blood or swabs, delivering a clinically-relevant report for the physician.”
Bloodstream infections afflict over 1 million patients per year in the US alone, making it the single most expensive disease in terms of total healthcare expenditure2. DNAe’s Genalysis® platform will revolutionize care by very rapidly identifying the causative pathogens and their antibiotic resistance profile from a wide range of potential causes. This has the potential to drive reduced mortality, reduced length of stay in critical care, reduced healthcare expenditure, and improved management of antibiotics. In influenza testing, the platform has the potential to ultimately identify the strain subtype and antiviral resistance markers, guiding antiviral usage in critical patients or for management of patients during a pandemic.
Dr Steve Allen, CEO DNAe Group Holdings said: “DNA sequencing-based tests that can rapidly provide accurate diagnostic information on infectious diseases will be a game-changer in terms of how clinicians treat infectious diseases in the future. It will enable the choice of treatment to be highly specific and tailored to the causative pathogens. Antimicrobial resistance and the threat of an influenza pandemic are two of the most critical threats to human life, and areas of huge unmet need. The support and cooperation of the U.S. Government will be instrumental in our mission to provide rapid diagnostics to support healthcare professionals, enabling a more effective public health response to these crises.”
Semiconductor-based DNA sequencing was invented by DNAe’s Founder, Executive Chairman, and Regius Professor at Imperial College London (Department of EEE), Professor Chris Toumazou and his group at Imperial. A highly acclaimed serial entrepreneur, this invention has earned him the UK Institution of Engineering and Technology (IET)’s highest honour, the Faraday Medal and the European Patent Office’s prestigious Inventor of the Year Award for Research in 2014, and the Gabor Medal of the Royal Society in 2013. DNAe owns and applies his patented technology to create rapid diagnostics that address critical unmet needs in healthcare applications. The semiconductor sequencing technology is licensed to Thermo-Fisher for research use.
Professor Toumazou, DNAe said: “This collaboration demonstrates the suitability of DNAe’s NGS-based platform to address a range of clinical needs, demonstrated by the applications in antimicrobial resistance and influenza testing, where there is a very high unmet need.”
Source – DNAe