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J. Craig Venter Institute (JVCI) is a Rockville, MD-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Orchard Therapeutics is a leading global fully integrated commercial-stage company dedicated to transforming the lives of patients with rare diseases through innovative gene therapies. Orchard’s portfolio of autologous ex vivo gene therapy programs has demonstrated sustained clinical benefit in over 150 patients across five disease areas. These programs include Strimvelis®, the first autologous ex vivo gene therapy approved by the EMA in 2016, 3 programs in advanced registrational studies in MLD (metachromatic leukodystrophy), WAS (Wiskott Aldrich syndrome) and ADA-SCID (adenosine deaminase severe combined immunodeficiency), 2 other clinical programs in X-CGD (X-linked chronic granulomatous disease) and beta-thalassemia, as well as an extensive preclinical pipeline. The company is partnered with world-leading institutions in gene therapy, including University College London, Great Ormond Street Hospital, the University of Manchester and Central Manchester University Hospitals, the University of California Los Angeles and Boston Children’s Hospital, and Telethon Institute of Gene Therapy/Ospedale San Raffaele. Orchard is a publicly traded company (NASDAQ: ORTX) with offices in the UK and the US, including London, San Francisco and Boston.
Memphis Bio Works is a Memphis, TN-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Princeton BioMolecular Research Inc is a Monmouth Junction, NJ-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Xcell Bio is a San Francisco-based life science company dedicated to bringing an innovative primary cell control solution to the immunotherapy market to support research, drug discovery, and cell manufacturing. Xcell`s mission is to democratize maintenance, expansion and control of any primary cell type through its bench-top primary cell control systems, reagent kits, software, and standardized protocols. The technology delivers simple control of primary cell types from blood or solid tissue, including a range of immune cells, stem cells, and tumor cells. This patient-centric technology offers a unique and proprietary capability to improve immunotherapy efficacy, safety, and persistence through more predictive and iterative therapy development and rapid, highly-controlled clinical cell manufacturing.