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Discovery Genomics, Inc. is a Minneapolis, MN-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
Avelas Biosciences is a San Diego, CA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Arteriocyte, Inc. is one of the leading companies in the Healthcare, Pharmaceuticals, & Biotech sector.
Rubius Therapeutics is a biopharmaceutical company pioneering a new era of cellular medicines. Our proprietary RED PLATFORM™ was designed to genetically engineer and culture Red Cell Therapeutics™ that are selective, potent and ready to-use cellular therapies for the potential treatment of several diseases across multiple therapeutic areas. Our initial focus is to advance RCT™ product candidates for the treatment cancer and autoimmune diseases by leveraging two distinct therapeutic modalities — potent cell-cell interaction and tolerance induction. We are currently enrolling patients in a Phase 1/2 clinical trial of RTX-240; the trial has two Phase 1 arms enrolling adult patients with advanced solid tumors: an ongoing monotherapy dose escalation arm in adults with relapsed/refractory or locally advanced solid tumors and a combination therapy dose escalation arm with pembrolizumab in adults with relapsed/refractory or locally advanced solid tumors. In April 2022, the combination arm with pembrolizumab was expanded to focus on non-small cell lung cancer and renal cell carcinoma patients. We are also enrolling patients in a Phase 1/2 clinical trial of RTX-224 for the treatment of patients with certain advanced solid tumors, including non-small cell lung cancer, cutaneous melanoma, head and neck squamous cell carcinoma, urothelial (bladder) carcinoma and triple-negative breast cancer.
We have developed a high-sensitivity next-generation sequencing-based system for the detection of cancer mutations in miniscule concentrations of circulating cell-free DNA (cfDNA) in blood. Our technology addresses the significant barriers associated with harnessing the information contained in cfDNA by combining our proprietary techniques in molecular biology and computational algorithm for error suppression. With our technology, nanogram quantities of highly-fragmented cfDNA can be amplified more than 1000-fold, and a panel of tens to hundreds of cancer-related genes can be screened with a sensitivity at the single-digit molecular level.