Company Filing History:
Years Active: 1989
Title: The Innovations of Stanley Schreiber
Introduction
Stanley Schreiber is an accomplished inventor based in Marina Del Rey, California. He is known for his contributions to the field of medical engineering, particularly in the development of devices that enhance rehabilitation and mobility.
Latest Patents
One of Schreiber's notable patents is for a system involving continuous passive motion devices and methods. This innovative system is designed for the continuous passive motion of a limb or one or more fingers. It features a reciprocable carriage coupled to a drive belt, which is driven by a motor through a disengageable clutch. Additionally, a second drive belt, also driven by the motor, works in conjunction with the first drive belt to carry elements whose positions can be sensed to control limits of motion. The individual finger actuators are adjustable in length and equipped with internal springs, allowing them to couple engagement means on the fingers to the carriage. This design enables predetermined dwell times at the limits of flexion and extension, making it a significant advancement in rehabilitation technology.
Career Highlights
Schreiber's career is marked by his dedication to improving medical devices that assist in patient recovery. His work at Innovative Medical Engineering, Inc. has positioned him as a key player in the field of medical technology. His innovative approach has led to the development of devices that not only aid in rehabilitation but also enhance the quality of life for patients.
Collaborations
Throughout his career, Schreiber has collaborated with notable professionals in the field, including Arthur H. Brook and Peter J. Carian. These collaborations have contributed to the advancement of medical engineering and the development of effective rehabilitation devices.
Conclusion
Stanley Schreiber's contributions to the field of medical engineering through his innovative patents and collaborative efforts have made a significant impact on rehabilitation technology. His work continues to inspire advancements that improve patient care and mobility.