Company Filing History:
Years Active: 2025
Title: The Innovative Contributions of Hannah Johnson Goebel
Introduction
Hannah Johnson Goebel is a notable inventor based in Cincinnati, OH (US). She has made significant strides in the field of surgical instruments, particularly in the development of systems designed to enhance robotic surgical platforms. Her work exemplifies the intersection of technology and healthcare, showcasing her commitment to improving surgical procedures.
Latest Patents
Hannah holds a patent for "Systems and subsystems for rolling a surgical instrument including articulation cables." This innovative surgical instrument is designed to operate seamlessly with a robotic platform. The assembly includes a shaft, an end effector, a knife firing subsystem to actuate the functions of the end effector, and an articulation subsystem that allows for the articulation of the end effector. Additionally, it features a roll subsystem to roll the shaft and a housing that couples to the robotic platform. A maypole tube is also included, around which one or more articulation cables can wrap when the end effector is rotated. This patent highlights her ingenuity and dedication to advancing surgical technology.
Career Highlights
Hannah is currently employed at Cilag International GmbH, where she continues to innovate and contribute to the field of medical technology. Her role involves collaborating with other professionals to develop cutting-edge solutions that enhance surgical outcomes.
Collaborations
One of her notable coworkers is Douglas Marriott, with whom she collaborates on various projects aimed at improving surgical instruments and techniques. Their partnership reflects a shared vision of advancing healthcare through innovative technology.
Conclusion
Hannah Johnson Goebel's contributions to the field of surgical instruments are commendable. Her patent and ongoing work at Cilag International GmbH demonstrate her commitment to innovation in healthcare. Through her efforts, she is helping to shape the future of robotic surgery, making procedures safer and more efficient.