Location History:
- Hattiesburg, MS (US) (1995)
- Hilliard, OH (US) (2000)
- Vallejo, CA (US) (2008)
- Boise, ID (US) (2021 - 2024)
Company Filing History:
3 out of 100 
2 out of 832,880 Years Active: 1995-2024
Title: Paul R. Williams: Innovator in Cartilage-Derived Implants
Introduction
Paul R. Williams, an inventive mind based in Boise, Idaho, has carved a niche in the field of biomedical engineering. With a total of six patents to his name, Williams has focused on innovative solutions in cartilage repair and regeneration.
Latest Patents
Among his latest contributions, Williams developed patents for "Cartilage-derived implants and methods of making and using same." These patents disclose cartilage fibers and the implants made from them, both with and without cartilage particles. The methodologies for creating these cartilage fibers and the implants are also outlined in his patents. Notably, the implants can be pre-shaped or reshaped and are designed to retain their shape effectively when implanted in a cartilage defect. This innovative approach ensures minimal swelling, complete filling of the defect, and resistance to migration following irrigation procedures.
Career Highlights
Williams has a significant professional background, having worked at prominent organizations such as the Musculoskeletal Transplant Foundation. His experience in this sector has been essential in bridging the gap between research and practical applications in cartilage recovery.
Collaborations
Williams has collaborated with several notable individuals throughout his career, including Michael A. Nasert and Florence Stoffel. These partnerships have likely facilitated the sharing of ideas and expertise, further advancing the technologies related to his inventions.
Conclusion
Paul R. Williams exemplifies innovation in the biomedical field, particularly in the development of cartilage-derived implants. With a strong patent portfolio and collaborations with respected professionals, Williams continues to make strides in improving healthcare solutions for patients suffering from cartilage defects. His work reflects a commitment to enhancing the quality of medical treatments through advanced engineering and dedication to research.