Company Filing History:
Years Active: 2003
Title: Michael B. Mayor: Innovator in Prosthetic Technology
Introduction
Michael B. Mayor, an inventive mind based in Hanover, NH, has made significant strides in the field of prosthetics. With one recorded patent to his name, Mayor's contributions are aimed at enhancing the quality of life for amputees through innovative solutions.
Latest Patents
His notable patent is for a "Dynamic Variable Geometry Fitting System for Use with a Body Appliance." This ingenious system incorporates fluid-filled bladders that automatically regulate their volumes, enabling a continuously secure fit for prosthetic devices. The design accommodates the natural variations in an amputee's residuum, making the reliable suction retention of a prosthesis much easier for prosthetists. Additionally, this innovation not only maintains a secure fit but also minimizes the risk of tissue lesions, ultimately boosting the amputee's confidence and encouraging regular use of the prosthesis.
Career Highlights
Michael B. Mayor is currently employed at Simbex LLC, a company focused on advancing health technologies, including prosthetics. His work in this innovative environment has positioned him as a key player in developing effective solutions for those who rely on prosthetic devices.
Collaborations
Throughout his career, Mayor has had the opportunity to collaborate with several notable colleagues, including Robert C. Dean, Jr. and David F. Nelson. These partnerships highlight the team-oriented approach that is often essential to driving innovation forward in complex fields like prosthetics.
Conclusion
Michael B. Mayor's work exemplifies the critical role of innovation in improving prosthetic technology. His patented dynamic variable geometry fitting system is a testament to his dedication to enhancing the user experience for amputees. Through his contributions and collaborations at Simbex LLC, Mayor continues to lead advancements that not only foster confidence but also enhance the overall quality of life for individuals requiring prosthetic support.