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ViaCyte is a privately held regenerative medicine company developing novel cell replacement therapies as potential long-term diabetes treatments to achieve glucose control targets and reduce the risk of hypoglycemia and diabetes-related complications. ViaCyte`s product candidates are based on directed differentiation of pluripotent stem cells into PEC-01 pancreatic islet progenitor cells, which are then implanted in durable and retrievable cell delivery devices. ViaCyte demonstrated that when effectively engrafted, PEC-01 cells can mature into glucose-responsive insulin producing cells in patients with type 1 diabetes. To accelerate and expand its efforts, ViaCyte has established collaborative partnerships with leading companies including CRISPR Therapeutics and W.L. Gore & Associates.
Aktis Oncology is a biotechnology company pioneering the discovery and development of a new class of targeted radiopharmaceuticals to treat a broad range of solid tumor cancers.
Leading with purpose; Briotech is dedicated to change health, healing, and disinfection with our proven pure HOCl and create jobs & partnerships globally.
Connect Biopharma (Nasdaq: CNTB) is a global clinical-stage biopharmaceutical company dedicated to improving the lives of patients with chronic inflammatory diseases through the development of therapies derived from T cell-driven research. With operations and expertise in China, the United States and Australia and clinical development activities in those geographies as well as Europe, Connect Biopharma is building a rich pipeline of internally designed, wholly owned small molecules and antibodies targeting several aspects of T cell biology. Our core expertise is in the use of functional cellular assays with T cells to screen and discover potent drug candidates against immune targets. Our two most advanced clinical-stage programs include highly differentiated product candidates against validated targets.
Exonics Therapeutics was launched in February 2017 to advance the research of our scientific founder, Dr. Eric Olson and his laboratory at the University of Texas Southwestern Medical Center (UTSW) to develop treatments for patients with neuromuscular diseases. Dr. Olson is one of the world’s leading experts in the study of muscle cells and the application of gene editing to treat these types of diseases. In particular, Dr. Olson’s laboratory has used adeno-associated virus (AAV) to deliver a CRISPR/Cas9 technology that can identify and repair exon mutations to restore the production of dystrophin, a protein that helps stabilize and protect muscle fibers. Dystrophin is the protein missing in boys with Duchenne. The loss of dystrophin causes Duchenne.