RICHMOND, Calif.--(BUSINESS WIRE)--DIACARTA, Inc., a precision diagnostic company and leading developer of products for nucleic acid-based detection assays, announced today that it has received a $2 million National Cancer Institute (NCI) Small Business Innovation Research (SBIR) contract to continue development of its RadToxTM cfDNA radiation therapy toxicity monitoring test kit for cancer patients.
While radiation is required by 70 percent of cancer patients, there is currently no reliable methodology for determining its adverse effects during treatment. Under the two-year, Phase II NCI Agreement, DiaCarta’s clinical laboratory scientists in California will collaborate with Dr. Paul Okunieff, Co-Principal Investigator leading clinical aspects, and his Radiation Oncology Team at the University of Florida Health Cancer Center (UFHCC). Using the RadToxTM cfDNA Test, the teams will analyze blood specimens collected from up to 500 patients undergoing radiotherapy for prostate cancer at multiple U.S. clinical sites.
“This will be a breakthrough 'first-in-class' IVD test in the field of radiation therapy and one of the first cfDNA tests to be supported by the NCI for real-time detection of normal tissue responses to radiation,” commented Aiguo Zhang, Ph.D., Founder and CEO of DiaCarta, Inc. “We are therefore delighted to have been awarded this contract following successful completion of the $300,000 SBIR Phase I contract in June of this year.”
DiaCarta’s RadToxTM cfDNA Test, a platform diagnostic that monitors circulating cell-free DNA (cfDNA) in patient plasma during radiation therapy, runs on either luminometers or bead-based instrumentation found in many clinical reference laboratories and testing centers. RadToxTM cfDNA Test has the potential to be scaled and simply integrated into the workflow of radiation therapy centers. Once extensive clinical validation is completed, DiaCarta will pursue regulatory approval to market RadToxTM cfDNA Test kits worldwide.
DiaCarta has been invited to present RadToxTM cfDNA Test at the BIO Investor Forum in San Francisco on October 17-18, 2018, as part of the company’s commitment to a partnering and co-development strategy for the program.
“We are fulfilling an unmet medical need in cancer radiation therapy by enabling the direct monitoring of side effect severity and tumor response within days of treatment initiation,” said Dr. Okunieff, Chair of the Department of Radiation Oncology at the UF College of Medicine. “This NCI-supported contract puts us in a powerful position to begin development of quantitative and precision ‘liquid biopsies.’ It is a very exciting opportunity for the UF Department of Radiation Oncology and the Okunieff Lab to make a real difference in the quality and safety of care for individual cancer patients.”
Dr. Okunieff, a cofounder of DiaCarta, owns stock and serves on the board of directors.
Super branched DNA (SuperbDNA™) hybridization technology is a widely used signal amplification clinical platform to quantitatively detect specific nucleic acid sequences directly from the source without the need for DNA/RNA purification or RT-PCR. With a wide dynamic range, bDNA is sensitive enough to reliably detect very few target molecules using DiaCarta’s kits and reagents formatted on a luminometer or bead-based platform. DiaCarta’s SuperbDNA™ technology offers sensitivity for detection of over 4,000 target genes.
DiaCarta, a translational genomics and personalized diagnostics company based in Richmond, California, was established in 2011 to provide highly sensitive and advanced technologies that will improve the way molecular diagnostics and translational genomics impact healthcare treatment plans and the well-being of individuals around the world. DiaCarta offers a range of testing services, from single-gene QClamp® qPCR tests to its OptiSeq™ XNA-NGS panels. The company is well positioned as a leader in the new ‘liquid biopsy’ IVD (in vitro diagnostic) field with high-precision detection of cfDNA. DiaCarta is ISO13485 certified and manufactures IVD kits under cGMP, such as EGFR, BRAF, KRAS, NRAS, EML4-ALK, ROS-1, PIK3CA, and the highly sensitive ColoScapeTM colorectal cancer mutation detection kits. With over 18,000 square feet dedicated to a GMP-compliant lab space as well as CLIA and ISO 13485 certifications, a clinical laboratory facility in Nanjing, and offices in Shanghai, China, DiaCarta is changing the landscape of molecular diagnostics. For more information, visit diacarta.com.