Company Filing History:
1 out of 832,880 Years Active: 2003
Title: Keiko Koyano: Innovator in Biocompatible Titanium Implants
Introduction
Keiko Koyano is a prominent inventor based in Kurashiki, Japan. She has made significant contributions to the field of medical technology, particularly in the development of biocompatible implants. Her innovative work focuses on enhancing the performance and safety of medical devices used in various applications.
Latest Patents
Koyano holds a patent for a biocompatible titanium implant designed for medical use. This implant features a layer of titanium or titanium alloys on its surface. The unique aspect of her invention lies in the electrochemical treatment process, where the implant is used as an anode in an electrolyte solution containing calcium ions. This process produces a layer of hydrated oxides or hydrated oxide gels. Additionally, the implant undergoes another electrochemical surface treatment as a cathode, resulting in a layer that is adsorbed with calcium ions. This innovative approach forms a hydrated gel layer that exhibits an excellent ability to form apatite, making it highly suitable for medical applications.
Career Highlights
Throughout her career, Koyano has demonstrated a commitment to advancing medical technology. Her work has not only contributed to the field of biocompatible materials but has also paved the way for safer and more effective medical implants. With her innovative spirit, she continues to inspire others in the field of medical research and development.
Collaborations
Koyano has collaborated with notable colleagues, including Akiyoshi Osaka and Satoshi Hayakawa. These partnerships have further enriched her research and development efforts, leading to advancements in the field of biocompatible implants.
Conclusion
Keiko Koyano's contributions to the field of biocompatible titanium implants highlight her innovative approach to medical technology. Her patent for a biocompatible implant showcases her dedication to improving medical devices for better patient outcomes. Koyano's work continues to influence the future of medical technology and biocompatible materials.