Company Filing History:
Years Active: 2009-2012
Title: The Innovations of Harold F. Fahrendorff
Introduction
Harold F. Fahrendorff is a notable inventor based in Golden Valley, MN (US), recognized for his contributions to orthopedic simulation technology. With a total of eight patents to his name, he has made significant advancements in the field, particularly in the design and functionality of orthopedic simulators.
Latest Patents
Fahrendorff's latest patents include a "Mechanism arrangement for orthopedic simulator," which features a mechanism with multiple sub-mechanisms that generate relative motions between orthopedic devices, such as spinal disc implants. This innovative design allows for the sub-mechanisms to be nested, placing the one with the highest performance closest to the specimen. Another significant patent is the "Orthopedic simulator with a multi-axis slide table assembly." This simulator includes a holder assembly designed to hold a test specimen while supplying test loads. The slide table is coupled to the holder assembly and consists of several translation plates that can move along multiple axes. This design incorporates an adjustable screw lock to restrict movement, simulating the effects of soft tissue through a spring assembly.
Career Highlights
Fahrendorff has built a successful career at MTS Systems Corporation, where he has been instrumental in developing cutting-edge technologies for orthopedic applications. His work has not only advanced the field but has also contributed to improving patient outcomes through enhanced testing methods.
Collaborations
Throughout his career, Fahrendorff has collaborated with talented individuals such as Bradley Dean Schulz and Paul J. Leska, Sr. These partnerships have fostered innovation and have played a crucial role in the development of his patented technologies.
Conclusion
Harold F. Fahrendorff's contributions to orthopedic simulation technology through his patents and collaborations highlight his significant impact on the field. His work continues to influence advancements in orthopedic devices and testing methodologies.