Location History:
- Louisville, KY (US) (2011)
- Louisville, TN (US) (2015)
Company Filing History:
Years Active: 2011-2015
Title: Innovations by John R Dimar in Medical Implant Technology
Introduction
John R Dimar is a notable inventor based in Louisville, TN (US), recognized for his contributions to medical implant technology. With a total of 2 patents, Dimar has made significant strides in the field, particularly in the development of adjustable bone anchor assemblies.
Latest Patents
One of Dimar's latest patents is an adjustable bone anchor assembly, which is a medical implant device designed to enhance the stability and functionality of bone anchoring systems. This innovative device features a receiver member that accommodates an elongated member, a crown member, an anchor member, and a retaining member. The receiver member is equipped with an axial opening, a transverse channel, a chamber with at least one substantially flat wall, and a groove. The crown member includes at least one substantially flat side, while the anchor member has a head with a flat surface that aligns with the anchor member's longitudinal axis, along with an anchoring portion. The retaining member is designed as a flat clip, allowing for a secure assembly. The unique design enables the anchor member to pivot in a single plane relative to the receiver member until it is locked in place.
Career Highlights
Dimar's career is marked by his role at Warsaw Orthopedic, Inc., where he has been instrumental in advancing medical implant technologies. His work has contributed to the development of innovative solutions that improve patient outcomes in orthopedic procedures.
Collaborations
Throughout his career, Dimar has collaborated with talented professionals, including Chris E Johnson and Heather Lindenman, who have contributed to his projects and innovations.
Conclusion
John R Dimar's work in the field of medical implants showcases his dedication to innovation and improvement in orthopedic technology. His patents reflect a commitment to enhancing the effectiveness of medical devices, ultimately benefiting patients and healthcare providers alike.