Company Filing History:
Years Active: 2022
Title: The Innovative Contributions of Hannah Mitchell
Introduction
Hannah Mitchell is a notable inventor based in Anchorage, AK (US). She has made significant strides in the field of cardiology, particularly with her innovative work on prosthetic heart valves. Her dedication to improving medical technology has led to the development of a unique patent that addresses critical needs in cardiac care.
Latest Patents
Hannah holds a patent for "Collapsible leaflets for prosthetic heart valves." This invention includes a prosthetic heart valve that features a collapsible and expandable stent, a cuff attached to an annulus section of the stent, and a plurality of leaflets. These leaflets are attached to either the cuff or the stent within the interior region of the stent. The design allows the leaflets to occlude the interior region of the stent in a coapted position and open when necessary. Each leaflet is crafted from a flat mesh of braided wire material, which includes a series of pores. Notably, the leaflets are devoid of biological material at the time of implantation, enhancing their functionality and safety.
Career Highlights
Hannah Mitchell is currently employed at St. Jude Medical, Cardiology Division, Inc. Her role at this esteemed organization allows her to contribute to groundbreaking advancements in cardiac devices. With her expertise, she plays a vital role in the development of innovative solutions that improve patient outcomes.
Collaborations
Hannah collaborates with talented colleagues, including Caytlin Gale and Gary Erzberger. Together, they work towards enhancing the efficacy and safety of cardiac devices, pushing the boundaries of medical technology.
Conclusion
Hannah Mitchell's contributions to the field of cardiology through her innovative patent for prosthetic heart valves exemplify her commitment to advancing medical technology. Her work not only showcases her ingenuity but also highlights the importance of collaboration in achieving significant breakthroughs in healthcare.