Company Filing History:
Years Active: 2024
Title: Taylor Winters: Innovator in Transcatheter Heart Valve Technology
Introduction
Taylor Winters is a prominent inventor based in Santa Ana, CA (US). He has made significant contributions to the field of medical technology, particularly in the development of transcatheter heart valve prosthesis systems. His innovative work aims to improve the effectiveness and safety of heart valve procedures.
Latest Patents
Taylor Winters holds a patent for "Transcatheter heart valve prosthesis systems and methods for rotational alignment." This patent describes methods for rotationally aligning transcatheter heart valve prostheses within a native heart valve. The process involves percutaneously delivering the prosthesis to the native heart valve, utilizing imaging markers, and determining the desired rotational orientation based on specific viewing angle images. If the prosthesis is not in the correct orientation, the system allows for rotation until the desired alignment is achieved. This innovation enhances the precision of heart valve placements, potentially leading to better patient outcomes.
Career Highlights
Taylor is currently employed at Medtronic, Inc., a leading company in medical technology. His work at Medtronic focuses on advancing heart valve technologies, contributing to the company's mission of improving patient care through innovative solutions. With a patent portfolio that includes 1 patent, Taylor has established himself as a key player in the medical device industry.
Collaborations
Taylor collaborates with various professionals in the field, including his coworker, Evelyn Birmingham. Their teamwork fosters an environment of innovation and shared expertise, which is essential for developing cutting-edge medical technologies.
Conclusion
Taylor Winters is a dedicated inventor whose work in transcatheter heart valve technology exemplifies the impact of innovation in healthcare. His contributions are paving the way for advancements that can significantly improve patient outcomes in heart valve procedures.