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Camber Pharmaceuticals Inc is a Piscataway, NJ-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
biopharmservices is a Acton, MA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Monogram Biosciences, Inc. (Monogram) is a life sciences company committed to advancing personalized medicine and improving patient outcomes through the development of molecular diagnostic products that guide and target the appropriate treatments
Stallergenes Greer is a global biopharmaceutical company specializing in the diagnosis and treatment of respiratory allergies through the development and commercialization of Allergy Immunotherapy products and services. Our purpose is to enable people with allergies to live normal lives. With more than 1,400 employees worldwide, a presence in 75 countries, and manufacturing facilities in both Europe and the United States, Stallergenes Greer plc is the parent company of GREER Laboratories, Inc. (whose registered office is in the U.S.) and Stallergenes S.A.S. (whose registered office is in France). With complementary strengths, joint heritage and reputations, Stallergenes Greer is driving a continuing leadership in allergy immunotherapy.
The Ripple Therapeutics Epidel® technology is founded on a discovery that drugs can be engineered into controlled release materials without the use of polymers or excipients. The proprietary prodrugs are new chemical entities (NCEs) that have unique properties that allow them to be processed into standalone drug delivery implants (e.g. intravitreal implants, micro/nanoparticles, etc.) or as coatings on medical devices. Ripple Therapeutics implants and coatings are made up entirely from the prodrug without a polymeric carrier to control the implant or drug release properties. The implants and coatings undergo surface erosion to give zero order drug release profiles and are highly engineerable (e.g. different forms, shapes, and sizes) to tailor drug dose and duration for the specific indication of interest. The flexibility in molecular design results in drug doses that are within the therapeutic window, delivering the right amount of drug for the right amount of time. This has the potential to improve patient safety and clinical outcomes.