Company Filing History:
Years Active: 2016-2020
Title: Kurt Hamilton Moore: Innovator in Medical Devices
Introduction
Kurt Hamilton Moore is a notable inventor based in Aurora, CO (US). He has made significant contributions to the field of medical devices, particularly in the area of suture technology. With a total of 2 patents to his name, Moore's work has the potential to enhance surgical procedures and improve patient outcomes.
Latest Patents
Moore's latest patents include a ratcheting inserter device and a suture anchor arrangement. The ratcheting inserter device is designed for tensioning a knotless suture anchor. It features an outer inserter shaft and an inner inserter shaft that share a common longitudinal axis. A ratcheting mechanism allows the inner inserter shaft to rotate in one direction relative to the outer inserter shaft. The outer inserter shaft has a protrusion at its distal end that fits into an anchor outer sleeve of a suture anchor, preventing relative rotation. Meanwhile, the inner inserter shaft has a projection at its distal end that engages with the inner core of the anchor for rotational movement. This innovative device enables the inner core of the suture anchor to spool and tension the suture thread effectively. Once the desired tension is achieved, the ratcheting mechanism is disengaged, allowing the inner inserter shaft to be forced axially into the anchor outer sleeve.
Career Highlights
Kurt Hamilton Moore is currently employed at Howmedica Osteonics Corporation, where he continues to develop innovative medical solutions. His work focuses on improving surgical tools and techniques, contributing to advancements in the medical field.
Collaborations
Moore collaborates with Anthony Patrick Napolitano, leveraging their combined expertise to drive innovation in medical device technology.
Conclusion
Kurt Hamilton Moore's contributions to the field of medical devices, particularly through his patented inventions, demonstrate his commitment to enhancing surgical practices. His work has the potential to significantly impact patient care and surgical outcomes.