Company Filing History:
1 out of 832,843 Years Active: 1976
Title: The Innovative Contributions of Jules V Osher
Introduction
Jules V Osher is a notable inventor based in Los Angeles, CA. He has made significant contributions to the field of medical technology, particularly with his innovative patent for a miniature muscle displacement transducer. His work has implications for both research and clinical applications in understanding muscle dynamics.
Latest Patents
Jules V Osher holds a patent for a Miniature Muscle Displacement Transducer. This device consists of a curved beam of high elastic compliance connected at its ends to two prongs with sharpened tips. These prongs can be inserted into the muscle under observation. A sensitive strain gauge is bonded to the beam at the point of greatest curvature. The output from the strain gauge is directly related to changes in the beam curvature. As the muscle expands, the spacing between the prongs increases, leading to a decrease in beam curvature. Conversely, when the muscle contracts, the spacing decreases, resulting in an increase in beam curvature. This innovative design allows for precise measurements of muscle displacement.
Career Highlights
Throughout his career, Jules V Osher has focused on advancing medical technology through his inventions. His work on the miniature muscle displacement transducer exemplifies his commitment to improving the understanding of muscle function. This invention has the potential to enhance diagnostic techniques and therapeutic approaches in various medical fields.
Collaborations
Jules V Osher has collaborated with notable individuals in his field, including James C Fletcher and Cyril Feldstein. These collaborations have likely contributed to the development and refinement of his innovative technologies.
Conclusion
Jules V Osher's contributions to the field of medical technology, particularly through his patent for the miniature muscle displacement transducer, highlight his role as an influential inventor. His work continues to impact the understanding of muscle dynamics and has the potential to improve medical diagnostics and treatments.