Company Filing History:
Years Active: 2025
Title: Innovations by William Frasier in Localized Tracking Systems
Introduction
William Frasier is an accomplished inventor based in New Bedford, MA (US). He has made significant contributions to the field of medical technology, particularly in the area of localized tracking of anatomical structures during surgical procedures. His innovative approach aims to enhance the precision and effectiveness of surgical interventions.
Latest Patents
Frasier holds a patent for "Systems, methods, and devices for localized tracking of a vertebral body or other anatomic structure." This patent describes systems, methods, and instruments designed to track localized movement of anatomical structures at surgical sites. The invention includes a cannula equipped with a localized navigation sensor that can detect and identify movement of the anatomical structure, which may not be tracked by a global navigation system. The localized navigation sensor can feature tines that extend from the cannula to make contact with the anatomical structure. A controller processes data from both the localized navigation sensor and a global navigation system to determine if the detected movement is being tracked. This technology can operate independently of a global navigation system, providing surgeons with enhanced capabilities.
Career Highlights
Frasier's career is marked by his dedication to advancing medical technology. His work at Medos International Sarl has allowed him to collaborate with other talented professionals in the field. His innovative contributions have the potential to significantly improve surgical outcomes and patient safety.
Collaborations
Frasier has worked alongside notable colleagues such as Robert Brik and Brice Dudley, Jr. Their combined expertise fosters a collaborative environment that drives innovation in medical technology.
Conclusion
William Frasier's work in localized tracking systems exemplifies the impact of innovation in the medical field. His patent and collaborative efforts contribute to advancements that enhance surgical precision and patient care.