| Name | Title | Contact Details |
|---|
Turn Biotechnologies develops mRNA medicines that induce the body to heal itself by instructing specific cells to fight disease or repair damaged tissue. We are focused on reprogramming the epigenome – a network of chemical compounds and proteins that control cell functions by influencing which genes are active – to restore capabilities that are often lost with age.
89 North is a Burlington, VT-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Cyagra Inc is a Elizabethtown, PA-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
MediWound Ltd. (Nasdaq: MDWD) is the global leader in next-generation enzymatic therapeutics focused on non-surgical tissue repair. Specializing in the development, production and commercialization of solutions that seek to replace existing standards of care, the Company is committed to providing rapid and effective biologics that improve patient experiences and outcomes, while reducing costs and unnecessary surgeries. MediWounds first drug, NexoBrid®, is an FDA-approved orphan biologic for eschar removal in severe burns that can replace surgical interventions and minimize associated costs and complications. Utilizing the same core biotherapeutic enzymatic platform technology, MediWound has developed a strong R&D pipeline including the Companys lead drug under development, EscharEx®. EscharEx is a Phase III-ready biologic for debridement of chronic wounds with significant advantages over the $300 million monopoly legacy drug and an opportunity to expand the market. MediWounds pipeline also includes MW005, a topical therapeutic for the treatment of basal cell carcinoma that has demonstrated positive results in a recently completed Phase I/II study. For more information visit www.mediwound.com
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.