Company Filing History:
Years Active: 2021
Title: The Innovative Contributions of Charles Rushton
Introduction
Charles Rushton is an accomplished inventor based in Dallas, TX (US). He has made significant strides in the field of medical technology, particularly in the development of custom-fitting joint braces. His innovative approach aims to enhance patient care through automation and precision.
Latest Patents
Rushton holds a patent for a "Method for automating custom-fitting joint brace." This automated method applies specific geometric constraints to a starter file while considering external specifications to create an optimized, restorative joint brace or orthotic device. The external specifications may include patient indications, biometric data, data from prescribing doctors, X-ray data, MRI data, and joint geometry to restore optimized function. After the fitting process, the starter file undergoes a series of exact commands to finish and/or add additional features. This vertical integration from scanning an object to producing the custom-fitted device allows for rapid manufacturing at lower costs, improving access to superior devices for consumers.
Career Highlights
Charles Rushton is currently associated with Icarus Medical, LLC, where he continues to innovate in the field of medical devices. His work focuses on enhancing the efficiency and effectiveness of joint braces, which can significantly improve the quality of life for patients requiring orthopedic support.
Collaborations
Rushton collaborates with talented professionals in his field, including David T Johnson and Xue Feng. Their combined expertise contributes to the advancement of medical technology and the development of innovative solutions for patient care.
Conclusion
Charles Rushton exemplifies the spirit of innovation in the medical technology sector. His contributions, particularly in automating custom-fitting joint braces, demonstrate a commitment to improving patient outcomes through advanced technology. His work continues to pave the way for future advancements in orthopedic devices.