Location History:
- Cleveland, OH (US) (1998)
- Bentleyville, OH (US) (1997 - 2000)
- Seattle, WA (US) (1998 - 2000)
Company Filing History:
Years Active: 1997-2000
Title: Innovations of Robert C Frederickson
Introduction
Robert C Frederickson is a notable inventor based in Bentleyville, Ohio. He has made significant contributions to the field of biomedical engineering, particularly in the development of methods and compositions that inhibit cell invasion. With a total of seven patents to his name, Frederickson's work has the potential to impact surgical procedures and healing processes.
Latest Patents
Frederickson's latest patents focus on the use of biocompatible anionic polymers to inhibit fibrosis, scar formation, and surgical adhesions. His research reveals that the effectiveness of these polymers in inhibiting cell invasion correlates with their anionic charge density. The patents detail a variety of materials, including natural proteoglycans and glycosaminoglycan moieties, which can be utilized in methods to prevent detrimental healing processes. Notably, dextran sulfate and pentosan polysulfate are highlighted as preferred anionic polymers. The inventions provide compositions and methods aimed at reducing fibrosis and scarring associated with surgery, as well as inhibiting glial cell invasion and detrimental bone growth.
Career Highlights
Frederickson has established himself as a key figure in his field through his innovative research and patent contributions. His work at Gliatech, Inc. has allowed him to explore the applications of his inventions in real-world scenarios. His dedication to advancing medical technology is evident in the practical implications of his patents.
Collaborations
Frederickson has collaborated with notable colleagues, including Dikla Roufa and Adrian Harel. These partnerships have likely contributed to the success and development of his innovative ideas.
Conclusion
Robert C Frederickson's contributions to the field of biomedical engineering through his patents demonstrate his commitment to improving surgical outcomes and healing processes. His innovative use of anionic polymers has the potential to transform medical practices and enhance patient care.