Company Filing History:
14 out of 1,645 
1 out of 5 
Years Active: 2002-2020
Title: The Innovative Journey of Inventor Dean Li
Introduction
Dean Li, a prominent inventor based in Salt Lake City, Utah, has made significant strides in the field of pharmaceuticals and biotechnology. With a total of 14 patents to his name, his contributions are shaping the future of medical treatments and applications. His work primarily focuses on innovative compounds and methods that have the potential to revolutionize healthcare.
Latest Patents
Among Dean Li's latest patents are the innovative "Arf6 inhibitors and methods of synthesis and use thereof." This patent discloses compounds and methods for inhibiting Arf6, alongside pharmaceutical compositions and methods for treating subjects with these inhibitors. Another notable invention is his work on "Tropoelastin for promoting endothelial cell adhesion or migration." This patent provides a range of methods, compositions, and devices designed to enhance the adhesion or migration of endothelial cells, which is crucial for various medical applications.
Career Highlights
Dean Li has had an impactful career with significant contributions through his work at the University of Utah Research Foundation and Navigen, Inc. His tenure at these institutions has allowed him to advance his research and contribute significantly to his fields of expertise, resulting in numerous patents that address complex medical challenges.
Collaborations
Throughout his career, Dean has collaborated with esteemed colleagues, including Mark T. Keating and Brent D. Wilson. These collaborations have fostered an environment of innovation and creativity, leading to the development of groundbreaking inventions that address critical issues in health and medicine.
Conclusion
Dean Li's work exemplifies the fusion of scientific inquiry and practical application in the field of biotechnology. With his extensive portfolio of patents and collaborative efforts, he continues to push the boundaries of innovation, making a lasting impact on medical science and treatment methodologies. His contributions promise to enhance our understanding of diseases and improve patient outcomes across various therapeutic areas.