Company Filing History:
2 out of 526 
1 out of 16 Years Active: 2024
Title: Kana Minamide: Innovator in Blood Flow Analysis Technology
Introduction
Kana Minamide is a prominent inventor based in Tokyo, Japan. She has made significant contributions to the field of medical technology, particularly in blood flow analysis. With a total of 2 patents, her work focuses on innovative methods and apparatuses that enhance the understanding of blood flow dynamics.
Latest Patents
Minamide's latest patents include a blood flow analysis apparatus and method, as well as a blood flow measurement apparatus. The blood flow analysis apparatus features an acquisition unit designed to gather blood flow information that represents time-course changes in the velocity of a single retinal artery or vein. Additionally, the extractor within the apparatus is responsible for identifying parameters that correspond to changes in blood flow velocity. The blood flow measurement apparatus incorporates a scanning optical system that applies Optical Coherence Tomography (OCT) scanning to the fundus of a subject's eye. This apparatus also includes a front image acquiring unit, a region-of-interest determining processor, a scan controller, and a blood flow information acquiring unit, all working together to provide comprehensive blood flow data.
Career Highlights
Throughout her career, Kana Minamide has worked with esteemed organizations such as Topcon Corporation and the National University Corporation Asahikawa Medical University. Her experience in these institutions has allowed her to develop and refine her innovative technologies in medical imaging and analysis.
Collaborations
Minamide has collaborated with notable colleagues, including Masahiro Akiba and Akitoshi Yoshida. These partnerships have contributed to her success in advancing blood flow analysis technologies.
Conclusion
Kana Minamide is a trailblazer in the field of blood flow analysis, with her innovative patents paving the way for advancements in medical technology. Her contributions are vital for improving diagnostic methods and enhancing patient care.