Company Filing History:
Years Active: 2014-2020
Introduction
Norikatsu Miyoshi is a distinguished inventor based in Osaka, Japan, known for his significant contributions to medical technology. With a total of three patents to his name, his work focuses on enhancing biomedical detection methods and cultivating primary cells for research applications.
Latest Patents
Miyoshi's latest inventions include an RF tag marker, an emission marker, and a detection system. The emission marker is engineered to be indwelled in a lumen, featuring a base part, a coil wound around the base, an emission part connected to the coil, and a cover that envelops the base and coil. The emission part includes a light source that emits visible light. Furthermore, the detection device is designed to identify the emission marker from outside the lumen, incorporating a detection unit with an antenna that interacts with the emission marker's coil.
In addition to the emission technologies, he has developed a method for culturing primary cells, specifically for producing primary cultures of cancer cells. This method involves fragmenting cancer tissues from a living body, cleaning the fragments, and subjecting them to both suspension and adherent culture techniques.
Career Highlights
Throughout his career, Miyoshi has worked with reputable institutions such as the Osaka Prefectural Hospital Organization and Osaka University. His experiences in these organizations have played a crucial role in shaping his innovative approaches to biomedical technologies.
Collaborations
Miyoshi has collaborated with notable coworkers, including Masayuki Ohue and Masayoshi Yasui. These partnerships have likely facilitated advancements in his research and inventions, benefiting from the combined expertise of talented individuals in the field.
Conclusion
Norikatsu Miyoshi continues to be an influential figure in the realm of biomedical innovation. His patents not only reflect his ingenuity as an inventor but also promise significant advancements in medical technology aimed at improving diagnostic and treatment methods.