Location History:
- Boudler, CO (US) (2016)
- Boulder, CO (US) (2022)
Company Filing History:
Years Active: 2016-2022
Title: Katherine Suzanne Davis: Innovator in Bone Repair Technologies
Introduction
Katherine Suzanne Davis is a prominent inventor based in Boulder, Colorado. She has made significant contributions to the field of biomedical engineering, particularly in the development of innovative materials for bone repair. With a total of two patents to her name, her work focuses on enhancing cellular activity related to bone growth.
Latest Patents
Davis's latest patents include groundbreaking processes for coating inorganic particles with peptides or proteins that improve cellular activity related to bone growth. One of her patents describes a method that involves freezing the residual liquid present on uncoated or coated inorganic particles and subsequently drying them under vacuum. This innovative approach aims to enhance the effectiveness of the coated particles in medical applications. Another notable patent features fiber-reinforced bone repair putties and pliable lyophilized implants designed for treating bone defects. These formulations incorporate ceramic particles and are engineered to minimize migration while providing mechanical strength, allowing for safe manipulation during implantation procedures.
Career Highlights
Katherine Davis is currently associated with Cerapedics, Inc., where she continues to advance her research and development efforts in bone repair technologies. Her work has the potential to significantly impact the medical field by improving treatment options for patients with bone injuries.
Collaborations
Davis collaborates with notable colleagues, including Nolan Chase Hannigan and James John Benedict, who contribute to her innovative projects and research initiatives.
Conclusion
Katherine Suzanne Davis is a trailblazer in the field of biomedical engineering, with her patents reflecting her commitment to improving bone repair technologies. Her innovative approaches and collaborations position her as a key figure in advancing medical treatments for bone-related conditions.