Location History:
- San Francisco, CA (US) (2017 - 2021)
- Miyashiro, CA (US) (2022 - 2023)
Company Filing History:
Years Active: 2017-2023
Title: The Innovative Contributions of Katie Miyashiro
Introduction
Katie Miyashiro is a prominent inventor based in San Francisco, California. She has made significant strides in the field of medical technology, particularly in the development of prosthetic heart valve devices. With a total of six patents to her name, her work has the potential to transform cardiac care.
Latest Patents
Miyashiro's latest patents focus on prosthetic heart valve devices and prosthetic mitral valves. These devices are designed for the percutaneous replacement of native heart valves. One of her notable inventions includes a prosthetic heart valve device that features an anchoring member. This member is configured to engage with tissue near the annulus of the native heart valve and can deform in a non-circular shape to conform to the tissue. Additionally, the device includes a mechanically isolated valve support that is coupled to the anchoring member, which is designed to support a prosthetic valve. An atrial extension member extends radially outward from the anchoring member and is deformable without significantly altering the shape of the anchoring member. This innovative design allows for stability while accommodating the necessary deformations during the procedure.
Career Highlights
Katie Miyashiro has established herself as a key figure in her field through her inventive contributions. Her work at Twelve, Inc. has positioned her at the forefront of medical device innovation. Her patents reflect her commitment to improving patient outcomes through advanced technology.
Collaborations
Miyashiro collaborates with talented individuals such as John H Morriss and Matt McLean. These partnerships enhance her ability to innovate and push the boundaries of medical technology.
Conclusion
Katie Miyashiro's contributions to the field of prosthetic heart valves exemplify her dedication to innovation in medical technology. Her patents and collaborative efforts continue to pave the way for advancements that can significantly impact patient care.