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Leading Research into Solving one of the World`s Largest Drivers of Disease: Inflammation
BIOAGE has a diverse team of computational biologists and medical scientists with expertise in aging and translational research. We share the vision that a synergy of machine learning approaches, high throughput human omics data, and new experimental approaches will make it possible to discover therapies that address unmet medical needs in an aging population.
SHYFT has been an integral part of the life sciences ecosystem for over 10 years and as the market undergoes a dramatic transformation to deliver more personalized and value-based medicine, the role of SHYFT has never been more important. We built the SHYFT Platform to help life science companies integrate clinical and commercial data and translate it into patient-centric intelligence and analytics for use across functional groups, shortening development cycles and commercialization activities while improving the probability of success. With a long history of success and deep client partnerships, we understand the market transformation and the actionable intelligence required for successful launch, growth and maintenance of new therapies. At SHYFT, we collaborate with our clients to ensure their success not only today, but in the future by providing flexible, agile solutions based on deep industry expertise. With an impressive customer retention rate, we`re committed to our client`s success and serve as a true partner in the transformation.
Pain Therapeutics, Inc. is a San Mateo, CA-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
Gritstone bio brings together a group of distinguished scientific founders and advisors, a highly experienced and diverse leadership team and a seasoned and successful board of directors to tackle fundamental challenges at the intersection of cancer genomics, immunotherapy and other precision therapy areas, specifically in COVID-19 and HIV. With our unique approach to immuno-oncology and infectious diseases, we seek to generate a therapeutic immune response by leveraging insights into the immune system`s ability to recognize and destroy diseased cells by targeting select antigens. We started with a focus on tumor-specific neoantigens and more recently extended our programs to include viral antigens displayed on the surface of virus-infected cells. The biology underlying immune system recognition of targets on the surface of abnormal cells is common to both anti-tumor and anti-viral immunity. Consequently, we believe that activating and directing the immune system to these targets could offer an important opportunity to extend the benefits of immunotherapy for more patients.