| Name | Title | Contact Details |
|---|---|---|
John Felitti |
Vice President and General Counsel | Profile |
Soliance is a Allendale, NJ-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
BTI Products is a Bayfield, CO-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Exelixis, Inc., from the Greek word for “evolution,” is a biopharmaceutical company committed to developing and commercializing small molecule therapies with the potential to improve the treatment of cancer. Over the past decade, we have established a broad development platform, laying the foundation for our continued efforts to bring new therapies for cancer to patients in need. The history of our lead compounds, cabozantinib and cobimetinib, tells the story of our evolution as a company. Each of these compounds were discovered in our own laboratories and advanced by us into clinical development. In addition, we have leveraged our earlier stage drug discovery and development capabilities to establish multiple partnerships and collaborations with leading pharmaceutical and biopharmaceutical partners. These alliances are designed to advance the development of multiple Exelixis-discovered therapies, and allow Exelixis to focus on maximizing the potential of cabozantinib. Exelixis has worldwide rights to cabozantinib, which we believe could have the potential to treat a wide variety of cancers. Cabozantinib received its initial regulatory approval for a single indication in 2012, and is marketed for that indication under the trade name COMETRIQ®. Cabozantinib is also the subject of a broad, global clinical development program that includes approximately 45 ongoing or planned clinical trials. Exelixis is the sponsor of two active global, randomized phase 3 pivotal trials: the METEOR trial in metastatic renal cell carcinoma, for which positive top-line results were announced in July 2015, and the CELESTIAL trial in advanced hepatocellular carcinoma. Founded and incorporated in 1994, Exelixis is headquartered in South San Francisco, California. We are committed to excellence in all aspects of our business and are dedicated to improving the care of, and outcomes for, patients with cancer.
Beyond Air, Inc. is a clinical-stage medical device and biopharmaceutical company developing a revolutionary NO Generator and Delivery System, LungFit®, that uses NO generated from ambient air to deliver precise amounts of NO to the lungs for the potential treatment of a variety of pulmonary diseases. The LungFit® can generate up to 400 ppm of NO, for delivery either continuously or for a fixed amount of time and has the ability to either titrate dose on demand or maintain a constant dose. The Company is currently applying its therapeutic expertise to develop treatments for pulmonary hypertension in various settings, in addition to treatments for respiratory tract infections that are not effectively addressed with current standards of care. Beyond Air is currently advancing its revolutionary LungFit® for clinical trials for the treatment of severe lung infections such as acute viral pneumonia (including COVID-19) and nontuberculous mycobacteria (NTM). Additionally, Beyond Air is using ultra-high concentrations of NO with a proprietary delivery system to target certain solid tumors in the pre-clinical setting.
Exonics Therapeutics was launched in February 2017 to advance the research of our scientific founder, Dr. Eric Olson and his laboratory at the University of Texas Southwestern Medical Center (UTSW) to develop treatments for patients with neuromuscular diseases. Dr. Olson is one of the world’s leading experts in the study of muscle cells and the application of gene editing to treat these types of diseases. In particular, Dr. Olson’s laboratory has used adeno-associated virus (AAV) to deliver a CRISPR/Cas9 technology that can identify and repair exon mutations to restore the production of dystrophin, a protein that helps stabilize and protect muscle fibers. Dystrophin is the protein missing in boys with Duchenne. The loss of dystrophin causes Duchenne.