Location History:
- NE. Blaine, MN (US) (2002)
- Blaine, MN (US) (2007)
Company Filing History:
Years Active: 2002-2007
Title: Innovations by James J. Christenson
Introduction
James J. Christenson is a notable inventor based in Blaine, MN (US). He has made significant contributions to the field of medical devices, particularly through his work at Medtronic, Inc. His innovative spirit is reflected in his two patents, which focus on enhancing the functionality and efficiency of implantable medical devices.
Latest Patents
Christenson's latest patents include the "IMD connector header with grommet retainer" and "Split contact with super elastic retaining ring for implantable medical device." The first patent describes an implantable medical device that features a connector header designed for making electrical and mechanical connections. This invention includes a retainer for securing a penetrable grommet within a header grommet aperture, allowing for easier connection and disconnection of medical leads. The second patent presents a construction and method for connecting leads and extensions that reduces the need for set screws, thereby minimizing the physical effort required by surgeons during the connection process.
Career Highlights
Throughout his career, Christenson has demonstrated a commitment to innovation in the medical device industry. His work at Medtronic, Inc. has positioned him as a key contributor to advancements in implantable medical technology. His patents not only reflect his technical expertise but also his dedication to improving patient outcomes through better medical device design.
Collaborations
Some of Christenson's coworkers include Kevin K. Tidemand and Daniel Charles Haeg. Their collaborative efforts contribute to the innovative environment at Medtronic, Inc., fostering the development of cutting-edge medical technologies.
Conclusion
James J. Christenson's contributions to the field of medical devices through his patents and work at Medtronic, Inc. highlight his role as an influential inventor. His innovations continue to impact the medical community positively, enhancing the functionality and usability of implantable medical devices.