During the past fiscal year, 15 emerging startups executed agreements to access patented technology developed at the University of California, Davis.
“Startups play an essential role in advancing and commercializing new technologies that are developed by researchers and innovators at ٺƵ,” said Prasant Mohapatra, vice chancellor of research at ٺƵ. “These partnerships lead to substantial contributions to society in the form of new products, services and economic growth.”
is commercializing a for use during deliveries. Founded by the inventors — Soheil Ghiasi, a professor of electrical and computer engineering, and Daniel Fong, who recently received his Ph.D. in electrical and computer engineering from ٺƵ — the company’s innovation may lead to safer births and fewer cesarian sections.
Two of the medical technology companies that licensed technology this past year are developing vaccine innovations.
has licensed foundational technologies developed in the laboratories of , associate professor in the Department of Medical Microbiology and Immunology, and , professor emeritus with the Center for Immunology and Infectious Diseases. The company is commercializing first-in-class, genetically adjuvanted vaccines engineered for durable B- and T-cell immune memory. Tendel has adapted their technology to fight the COVID-19 pandemic and is preparing for a Phase I safety trial of their vaccine candidate.
, a biotechnology firm in the United Kingdom, licensed foundational ٺƵ intellectual property that provides a non-PCR (polymerase chain reaction) method to create a recombinant DNA fragment for insertion into a target sequence. The company is developing herpesvirus-based vaccine platforms to protect animals against infectious diseases, including zoonotic diseases that are transferred from animals to humans.
“The majority of startups accessing intellectual property from ٺƵ this past year are focused on medical technologies and solutions, including several that are developing therapeutics and improved diagnostics for specific cancers,” said Bill Tucker, interim associate vice chancellor for Innovation and Technology Commercialization. “We also have startups advancing solutions related to novel food technology platforms and nutrition.”
Food-tech company is developing proprietary techniques around natural carbohydrate structures to create and commercialize novel prebiotics, synbiotics and immuno-modulatory therapies for human and animal health. ٺƵ professors , and are the founding scientists for the company.
In agricultural innovations, launched by Christian Nansen, an associate professor in the ٺƵ Department of Entomology and Nematology, applies to the classification and sorting of insects and also seeds, creating fast and nondestructive methods to eliminate nonviable seeds.
Additional companies that acquired rights to foundational intellectual property from ٺƵ during the 2019-20 fiscal year include:
- Alphacait — Novel leukemia stem cell-targeted ligand and nanotherapeutics for human leukemia treatment.
- — Automated rapid onsite evaluation device that mitigates the 20 percent sampling error in fine needle aspiration biopsies.
- Breeze Biosciences — New method for targeting nuclear receptor ROR-gamma in tumor cells for prostate cancer treatment.
- — Novel antimicrobial solutions to prevent the spread of foodborne illnesses and minimize food losses due to pathogens.
- — Rapid slide-free tissue imaging and decision-support tools that provide real-time results to address critical needs in cancer care and medical diagnostics.
- — Lung-targeted inhaled therapies to treat chronic respiratory diseases, such as asthma and chronic obstructive pulmonary disease, or COPD.
- — Novel and selective antimicrobial therapies to treat bacterial infections based on antimicrobial peptides found in milk.
- NanoElements Technologies — Revolutionary nanotechnology-based intellectual property to remove lung-penetrating sub-0.3 micron air pollution particles and viruses.
- — Dual inhibitors of soluble epoxide hydrolase and cyclooxygenase-2 for the treatment of inflammation, pain and cancers.
- Sarya — Alpha-4 Beta-1integrin ligands for imaging and treatments of cancer, autoimmune diseases and inflammatory diseases.
Milestones for previous startups
During the past 10 years, a total of 115 startups have been formed with an emphasis on commercializing ٺƵ technologies. Approximately 75 percent are still active.
Several of these ٺƵ-associated startups experienced important milestones this past year as they transitioned from product development to commercialization.
- , a spinout from ٺƵ and the University of Washington, was purchased by following a Phase 1 proof-of-mechanism study of investigational medicine TAK-062 for the treatment of celiac disease.
- , which was incorporated in May 2019, was accepted into the Y Combinator accelerator, which will invest $125,000 in the company. Bouncer provides powerful verification with a simple scan for any card or identification, while cleanly flagging stolen cards and high-risk transactions
- was from the National Institute on Drug Abuse to support human clinical trials of a non-opioid pain therapy for neuropathic pain, EC5026. The drug candidate also received from the Food and Drug Administration.
- announced it with Philosys Healthcare to expand the availability of a next-generation bone graft substitute technology to the Asian market.
- announced a to develop the world’s first human-specific, in vitro, functional model of heart failure with preserved ejection fraction.
Building a culture of entrepreneurship
Enabling startups through the licensing of intellectual property from ٺƵ is just one of the ways that the university is building a culture of innovation and entrepreneurship, with the goal of translating research into societal and economic impact.
Venture Catalyst, within the Innovation and Technology Commercialization division, also offers grants to campus innovators to facilitate commercial proof-of-concept studies; support services; and connections to a network of resources to help them succeed. Over the past fiscal year, Venture Catalyst supported 33 new startups with direct ties to the university through foundational technology and/or faculty, students, staff and alumni. During the 2019-20 fiscal year alone, startups that Venture Catalyst has assisted through its programs raised approximately $60 million in funding.
Fueled by innovation
InnovationAccess received 141 invention disclosures from campus innovators over the prior fiscal year. The majority of these relate to biomedical and human health, followed by inventions in engineering and physical sciences, agricultural and animal health applications. Over the same year, InnovationAccess filed 182 patent applications and received 89 domestic and foreign patents with ٺƵ researchers named as inventors. InnovationAccess also executed 40 plant and utility licenses, 72 copyright licenses, 152 data transfer agreements and 937 material transfer agreements. Almost half of the MTAs executed were in support of medical research.
Media Resources
AJ Cheline, Office of Research, 530-752-1101, acheline@ucdavis.edu
Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu