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Dante Labs is a global genomic data company building and commercializing a new class of transformative health and longevity applications based on whole genome sequencing and AI. Our assets include one of the largest private genome databases with research consent, a proprietary software platform designed to unleash the power of genomic data at scale and proprietary processes which enable an industrial approach to genomic sequencing. Headquartered in Cambridge, United Kingdom, with a research laboratory in Wolverhampton, Dante Labs supported the UK Government`s urgent requirement to scale-up a high-capacity, highly automated testing solution for Covid-19, including infected patients as well as those with antibodies. Dante Labs was able to deliver by leveraging existing technology that had been developed for whole genome sequencing.
ILiAD Biotechnologies, LLC manufactures vaccines for the prevention and treatment of disease caused by Bordetella Pertussis.
Spruce is a late-stage biopharmaceutical company focused on developing and commercializing novel therapies for rare endocrine disorders with significant unmet medical need. Our wholly-owned product candidate, tildacerfont, is a CRF1 receptor antagonist currently in late-stage trials in adult patients with classic congenital adrenal hyperplasia (CAH), with a planned Phase 2 trial in pediatric classic CAH. We aim to advance the treatment paradigm for classic CAH with a well-tolerated, non-steroidal approach designed to offer markedly improved disease control and reduced steroid burden for patients. Tildacerfont may also benefit patients with other disorders characterized by elevated levels of or hyperresponsiveness to adrenocorticotropic hormone (ACTH), a hormone involved in the production of cortisol, including a rare form of polycystic ovary syndrome (PCOS).
Kaiser Inc is a Manteca, CA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
We work at the intersection of biology, engineering, and design, developing technologies that emulate human biology. Our products are enabling a new era of precision medicine and the development of applications for personalized health. Our Human Emulation System, which uses Organs-on-Chips technology, is being used by industry, government, and academia to understand how different diseases, medicines, chemicals and foods affect human health. The system offers researchers a new standard for predicting human response — with greater precision and control than today`s cell culture or animal-based experimental methods. We are also leading a bold, new precision medicine initiative with our clinical partners. Named "Patient-on-a-Chip," the program is developing personalized chips with patients` own cells. This initiative will help transform the way each of us understands our own bodies and manages our own health. Research conducted using our Organ-Chips has been published in high-impact scientific journals, including Science. In addition, Organ-Chips have been acquired by the Museum of Modern Art (MoMA) in New York for their permanent collection, and have also been awarded Product Design of the Year 2015 by London`s Design Museum. Our founding team pioneered the original Organs-on-Chips technology during their residency within the Wyss Institute for Biologically Inspired Engineering at Harvard University.