Company Filing History:
Years Active: 2016-2019
Title: Innovations by Yoong-Joong Kim in Orthopedic Technology
Introduction
Yoong-Joong Kim is a notable inventor based in Durham, NC (US). He has made significant contributions to the field of orthopedic technology, particularly in the development of implants that enhance joint stability. With a total of 3 patents to his name, Kim's work is paving the way for advancements in medical devices.
Latest Patents
One of Kim's latest patents is focused on muscular-skeletal joint stability detection and the method for achieving it. This patent describes an orthopedic implant equipped with a three-axis accelerometer. The accelerometer is designed to detect micro-motion within the implant, which may indicate loosening. The implant is configured to couple with the muscular-skeletal system, specifically to bone. An impact force is applied to the bone or implant, which can be delivered through a transducer attached to the implant. The impact force is typically imparted along a single axis, while the three-axis accelerometer measures the force along each axis. The resultant peaks of the quantitative measurements and their corresponding frequencies are analyzed to determine micro-motion. The frequency of interest is generally less than 1 KHz, which is crucial for assessing whether micro-motion is occurring.
Career Highlights
Yoong-Joong Kim is currently associated with Orthosensor Inc., where he continues to innovate in the field of orthopedic implants. His work is instrumental in enhancing the functionality and reliability of medical devices used in joint surgeries.
Collaborations
Kim collaborates with esteemed colleagues, including Marc T Stein and Matthew J Cohen, who contribute to the research and development efforts at Orthosensor Inc. Their combined expertise fosters an environment of innovation and progress in orthopedic technology.
Conclusion
Yoong-Joong Kim's contributions to orthopedic technology through his patents and collaborations are noteworthy. His innovative approach to joint stability detection is set to improve patient outcomes in orthopedic procedures.