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ValenzaBio is a privately-held biopharmaceutical company developing therapies for autoimmune and inflammatory diseases. With a pipeline of differentiated monoclonal antibodies targeting clinically-validated mechanisms of action, we seek to provide improved therapies for patients with limited treatment options. Based in Bethesda, Maryland, in the heart of the capital biotech community, we strive to work collaboratively with all stakeholders while keeping our research and development efforts focused on the needs of patients.
Santarus, Inc. is one of the leading companies in the Healthcare, Pharmaceuticals, and Biotech sector.
ArcherDX, Inc., creates catalog and custom next-generation sequencing (NGS) assays that are purpose-built to identify mutations and gene fusions from clinical sample types.
Born from the founders` recognition that their diverse but complementary skills and experiences would enable them to successfully address challenges that others had not, the company set about solving a vexing problem: how to bring true proteomics to the world in a way that accelerates therapeutic development, dramatically improves medical diagnostics, and makes personalized and predictive medicine a reality. The extraordinary team at Nautilus represents a wide spectrum of disciplines and expertise, including: protein chemists, chip designers, molecular biologists, data scientists, material scientists, biophysicists, optical engineers, microfluidics engineers, bioinformaticists, software engineers, and more. Nautilus is positioned to revolutionize proteomics, transform the way drugs are developed, and significantly improve the way human health is managed.
Finch Therapeutics is a clinical-stage microbiome therapeutics company leveraging its Human-First Discovery platform to develop a novel class of orally administered biological drugs. With the capabilities to develop both complete and targeted microbiome therapeutics, Finch is advancing a rich pipeline of candidates designed to address a wide range of unmet medical needs. Finch`s lead candidate, CP101, is in late-stage clinical development for recurrent C. difficile infection (CDI). In June 2020, Finch announced that CP101 met its primary efficacy endpoint in PRISM3, the first of two pivotal trials to support the development of CP101 for the prevention of recurrent CDI. Finch is also developing CP101 for chronic hepatitis B, and FIN-211 for autism spectrum disorder. In partnership with Takeda, Finch is advancing FIN-524 and FIN-525 for ulcerative colitis and Crohn`s disease, respectively.