Company Filing History:
Years Active: 2021-2022
Title: The Innovations of Inventor Michael Schular
Introduction
Michael Schular, an innovative inventor based in Gainesville, Virginia, has made significant contributions to the field of surgical implants. With a total of two patents to his name, his work focuses on advancements that enhance the functionality and effectiveness of medical devices.
Latest Patents
Schular's latest patents showcase his commitment to improving surgical solutions. One of his notable inventions is an "Implant with Freely Moveable Endplates," an interbody fusion device designed with pivoting endplates. This innovative device features grooves that house sliding pins, allowing for dynamic movement according to the natural angles of adjacent vertebrae. A threaded shaft connects the endplates and provides adjustable support, making it a versatile option for intervertebral disc space applications.
Another significant patent is the "Pelvic Wedge," which is a surgical implant assembly comprising a surgical implant, bone plate, and fixation devices. This design integrates various surfaces and cavities, contributing to its effectiveness in aligning and stabilizing bone tissue during surgical procedures.
Career Highlights
Michael Schular is affiliated with K2M, Inc., a leading company in the medical device industry. His contributions to the company underscore his role as a pivotal figure in the development of next-generation surgical implants.
Collaborations
Throughout his career, Schular has collaborated with notable professionals in the industry, including colleagues Kornelis Poelstra and Greg Anderson. These collaborations have fostered a rich exchange of ideas and have been instrumental in the successful development of his patented technologies.
Conclusion
Michael Schular's innovations in surgical implants highlight his dedication to improving patient outcomes through advanced medical technology. With his impressive portfolio of patents and collaborative spirit, Schular continues to make a remarkable impact in the field, paving the way for future advancements in surgical solutions.