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Inivata is a leader in liquid biopsy. Its InVision® platform unlocks essential genomic information from a simple blood test to transform the care of cancer patients. The Company`s technology is based on pioneering research from the Cancer Research UK Cambridge Institute, University of Cambridge and backed by multiple high calibre publications. Its lead product, InVisionFirst™-Lung, is commercially available and provides molecular insights that enable clinicians to make more informed treatment decisions for NSCLC patients. Inivata is partnering with pharmaceutical and biotechnology companies on InVisionFirst-Lung and its wider platform, which is applicable to a range of cancer types. The Company has a CLIA laboratory in Research Triangle Park, NC and R&D laboratories in Cambridge, UK.
Dow Pharmaceutical Sciences is a Petaluma, CA-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
Clementia is a biopharmaceutical company that is focused on exploiting the science of novel retinoic acid receptor gamma agonists to address bone disease. Our lead program is palovarotene for Fibrodysplasia Ossificans Progressiva (FOP).
FLX Bio, Inc. is a biotechnology company focused on the discovery and development of novel therapies that will improve and prolong the lives of people with cancer. The company is targeting key cancer pathways with its clinical-stage program, FLX925, and building a pipeline of immuno-oncology oral medicines designed to activate a patient`s own immune system to eradicate cancer.
Our mission is to create a new generation of smarter medicines that outmaneuver complex diseases in ways previously inconceivable. To accomplish this mission, we are building a synthetic biology platform that could enable us to program next-generation cell and gene therapies with what we refer to as “gene circuits”. These gene circuits, which are created from novel and proprietary combinations of DNA sequences, are intended to reprogram cells with biological logic to sense inputs, compute decisions and respond to their cellular environments. We are designing gene circuits to improve the “intelligence” of cell and gene therapies in order to enhance their therapeutic effectiveness against a broad range of diseases that conventional medicines do not readily address.