Company Filing History:
Years Active: 2018-2019
Title: Innovations by Jason R Toy in Prosthetic Ankle Design
Introduction
Jason R Toy is an accomplished inventor based in Medford, NJ (US). He has made significant contributions to the field of prosthetics, particularly in the design of prosthetic ankles. With a total of two patents to his name, Toy's work focuses on enhancing the functionality and comfort of prosthetic devices.
Latest Patents
Toy's latest patents include innovative designs for prosthetic ankles. The first patent describes a prosthetic ankle that features a talar component and a tibial component. This design incorporates a convex curvature on the top surface of the talar component in the anterior to posterior direction, along with a concave curvature in the medial to lateral direction. The design also includes a bearing component positioned between the tibial and talar components, enhancing the overall functionality of the prosthetic ankle.
The second patent presents a prosthetic ankle with a conic saddle-shaped joint. Similar to the first, this design includes a talar component and a tibial component. However, it emphasizes that the average radius of curvature on the medial side of the talar component is larger than that on the lateral side. This unique feature aims to improve the biomechanics of the prosthetic ankle, providing better support and movement for the user.
Career Highlights
Jason R Toy is affiliated with Drexel University, where he contributes to research and development in prosthetic technology. His work is characterized by a commitment to improving the quality of life for individuals who rely on prosthetic devices.
Collaborations
One of Toy's notable collaborators is Sorin Siegler. Together, they work on advancing the field of prosthetics through innovative designs and research.
Conclusion
Jason R Toy's contributions to prosthetic ankle design reflect his dedication to innovation and improving user experience. His patents demonstrate a thoughtful approach to enhancing the functionality of prosthetic devices, making a significant impact in the field.