Company Filing History:
Years Active: 2018-2022
Title: Innovations in Ankle Support by Brian Bowen
Introduction
Brian Bowen is an accomplished inventor based in Lakeville, MN (US), known for his innovative contributions to ankle support systems. With a total of 4 patents, Bowen has developed advanced solutions aimed at improving the stability and comfort of ankle braces.
Latest Patents
Among his latest patents, Bowen has created a Rigid Ankle Support System. This invention features a moldable rigid ankle brace that includes a heat-moldable multi-layer housing designed to receive a user's ankle. The brace is equipped with a footplate and a closure mechanism. The multi-layer housing is stiff at temperatures below about 130°F and becomes moldable between 130°F and 275°F. The method of stabilizing an ankle involves heating the brace and applying it to the patient's ankle for optimal support.
Another significant invention is the Ankle Flexible Support System. This moldable ankle flexible brace consists of a heat-moldable, multi-layer leg support portion and a foot support portion connected by hinges. It also features an opening for the ankle and a closure mechanism. The middle layer remains stiff below 130°F and moldable above that temperature. The method for using this flexible brace includes heating it and molding it to fit the patient's ankle.
Career Highlights
Brian Bowen has worked with notable companies such as Djo, LLC and Exos Corporation. His experience in these organizations has contributed to his expertise in developing innovative ankle support solutions.
Collaborations
Bowen has collaborated with talented individuals in the field, including David Madden and Matthew Cozad. Their teamwork has likely played a role in the successful development of his patented inventions.
Conclusion
Brian Bowen's innovative work in ankle support systems showcases his dedication to improving patient care through technology. His patents reflect a commitment to enhancing the functionality and comfort of ankle braces, making a significant impact in the field of orthopedic support.