Company Filing History:
Years Active: 2025
Title: Innovations by Jason Baker: A Focus on Anorectal Expulsion Devices.
Introduction
Jason Baker is an innovative inventor based in Ann Arbor, MI. He has made significant contributions to the field of medical devices, particularly with his unique invention aimed at improving anorectal procedures. His work is associated with the University of Michigan, where he collaborates with other experts in the field.
Latest Patents
Jason Baker holds a patent for a self-inflating anorectal expulsion device. This device features a balloon with a wall that extends between proximal and distal ends, defining a balloon interior. The interior of the balloon contains a self-expanding, low compression-set material, such as open cell foam. Additionally, the device includes a catheter that extends through the proximal end of the balloon and into the balloon interior, ensuring fluid communication between the catheter and the balloon. A termination component, which can be a cap or valve, is coupled to the catheter, allowing for adjustable control over the balloon's communication with the external environment. This innovative design aims to enhance the efficiency and effectiveness of anorectal procedures.
Career Highlights
Throughout his career, Jason Baker has focused on developing medical devices that address specific health challenges. His patent for the anorectal expulsion device exemplifies his commitment to improving patient care through innovative solutions. His work at the University of Michigan has positioned him as a key figure in medical device innovation.
Collaborations
Jason collaborates with notable colleagues, including William D. Chey and James A. Ashton-Miller. These partnerships enhance the research and development of medical devices, contributing to advancements in the field.
Conclusion
Jason Baker's contributions to medical device innovation, particularly with his self-inflating anorectal expulsion device, highlight his dedication to improving healthcare solutions. His work at the University of Michigan and collaborations with esteemed colleagues further underscore his impact in the field.