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ApoCell is a Houston, TX-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
AlloVir, formerly ViraCyte, was founded in 2013 and is the leader in the development of novel cell therapies with a focus on restoring natural immunity against life-threatening virus-associated diseases in patients with severely weakened immune systems.
Cerus Corporation is dedicated solely to safeguarding the world`s blood supply and aims to become the preeminent global blood products company. Headquartered in Concord, California, the company develops and supplies vital technologies and pathogen-protected blood components to blood centers, hospitals, and ultimately patients who rely on safe blood. The INTERCEPT Blood System for platelets and plasma is available globally and remains the only pathogen reduction system with both CE mark and FDA approval for these two blood components. The INTERCEPT red blood cell system is under regulatory review in Europe, and in late-stage clinical development in the US. Also in the US, the INTERCEPT Blood System for Cryoprecipitation is approved for the production of Pathogen Reduced Cryoprecipitated Fibrinogen Complex (commonly referred to as INTERCEPT Fibrinogen Complex), a therapeutic product for the treatment and control of bleeding, including massive hemorrhage, associated with fibrinogen deficiency.
Sapient enables discovery of circulating biomarkers at unprecedented speed & scale, providing a deeper understanding of human biology to align patients & drug therapies.
Aravive, Inc., is a clinical stage biotechnology company focused on developing new therapies that target important survival pathways for both solid tumors as well as hematologic malignancies. Our primary therapeutic focus is the GAS6-AXL pathway, where AXL receptor signaling plays a critical role in multiple types of malignancies by promoting metastasis and cancer cell survival. Our technology, originated in the laboratories of Drs. Amato Giaccia and his colleagues at Stanford University, uses genetic screening to identify critical targets for the development of therapeutic molecules for cancer therapy while sparing healthy cells. This strategy is designed to enable us to interrupt oncogenic signals and, using our high-affinity decoy receptors, outcompete cancer`s ability to grow, metastasize and acquire resistance to treatments. We believe our unique cancer therapies may hold promise as a monotherapy or in combination with other cancer treatments, augmenting the anti-tumor activity of radiotherapy, chemotherapy, immuno-therapeutics and cancer vaccines. By targeting advanced or metastatic disease, our approach has the potential to significantly improve survival rates while simultaneously reducing toxicity in cancer patients.