Company Filing History:
Years Active: 2019-2025
Title: Innovations by Franz-Peter Firmbach
Introduction
Franz-Peter Firmbach is a notable inventor based in Emmingen-Liptingen, Germany. He has made significant contributions to the field of surgical instruments, particularly in knee-replacement operations. With a total of 14 patents to his name, Firmbach's work has had a substantial impact on medical technology.
Latest Patents
One of his latest patents is a surgical instrument designed for use in knee-replacement operations. This innovative instrument features a main body that can be releasably fastened to a tibia-cutting block, guiding precise cutting on the proximal tibia. The instrument includes two styluses, each movable relative to the main body, which are designed to make contact with the tibial plateau. The first stylus is pivotable about a first pivot axis, while the second stylus pivots about a second pivot axis, allowing for enhanced maneuverability during surgery. Another significant patent is a modular instrument system for knee joint replacement operations. This system comprises a tibial component, two femoral components, and at least one spacer element, all of which can be releasably connected to form various instrument configurations.
Career Highlights
Franz-Peter Firmbach is currently associated with Aesculap AG, a company renowned for its medical technology innovations. His work at Aesculap AG has allowed him to develop cutting-edge surgical instruments that improve the efficiency and effectiveness of knee surgeries.
Collaborations
Throughout his career, Firmbach has collaborated with talented individuals such as Svenja Anhorn and Martin Nonnenmann. These collaborations have contributed to the advancement of surgical instrument technology.
Conclusion
Franz-Peter Firmbach's contributions to the field of surgical instruments, particularly in knee-replacement operations, highlight his innovative spirit and dedication to improving medical technology. His patents reflect a commitment to enhancing surgical precision and patient outcomes.