Company Filing History:
Years Active: 1992
Title: Innovations in Catheter Technology: The Contributions of Lynn Kerby
Introduction
Lynn Kerby, an esteemed inventor based in Sandy, Utah, has made significant contributions to the field of medical devices. With one patented invention to his name, Kerby has developed a groundbreaking apparatus designed to enhance the functionality of catheter systems.
Latest Patents
Lynn Kerby's most notable patent is a rotatably actuated constricting catheter valve. This innovative apparatus allows for selective closure of a catheter lumen, effectively controlling fluid flow through the catheter once it is inserted into a patient's body. The design features a valve body coupled with a hub that connects to the catheter, alongside a rotatable cap designed for easy manipulation. An elastomeric sleeve is incorporated into the valve body, which serves a crucial function in regulating flow. When the cap is rotated, it allows the sleeve to transition between an open and closed state, demonstrating a sophisticated application of elastomeric properties to achieve uniform constriction.
Career Highlights
Kerby is currently employed at Cardiopulmonics, Inc., where he engages in the development of advanced medical technologies. His focus on creating effective catheter mechanisms underlines his commitment to improving patient care through innovative solutions.
Collaborations
While working at Cardiopulmonics, Inc., Lynn collaborates with skilled professionals, including his coworker, Gaylord L. Berry. Together, they strive to enhance medical devices, leveraging their combined expertise to drive advancements in healthcare technology.
Conclusion
Lynn Kerby exemplifies the spirit of innovation in the medical field with his patented rotatably actuated constricting catheter valve. His work not only showcases his inventiveness but also reflects the potential for improvements in patient outcomes through effective design and engineering in catheter technology. As advancements continue in this sector, inventors like Kerby play a pivotal role in shaping the future of medical devices.