Company Filing History:
Years Active: 1994-2011
Title: Shigeki Matsuya: Innovator in Medical Materials
Introduction
Shigeki Matsuya is a prominent inventor based in Fukuoka, Japan. He has made significant contributions to the field of medical materials, particularly in the development of bone prosthetic materials and dental alloys. With a total of 2 patents, Matsuya's work is recognized for its innovative approach to solving complex medical challenges.
Latest Patents
Matsuya's latest patents include a medical bone prosthetic material and a dental gold alloy with age-hardenability at intraoral temperature. The bone substitute material is designed for medical use, meeting essential requirements such as no histotoxicity, osteoconductivity, bone replacement capability, and necessary mechanical strength for bone reconstruction operations. This material is predominantly composed of carbonate apatite and is produced without any sintering, ensuring its effectiveness in medical applications.
The dental gold alloy developed by Matsuya is notable for its soft texture, allowing for easy adjustment of a patient's occlusal condition. This alloy is age-hardenable at temperatures typically found in a patient's oral cavity and features a single-phase structure that enhances corrosion resistance. The composition of the alloy includes 82-67% gold, 18-33% copper, and 2-8 at% of an age-hardening accelerator, which is selected from metals such as gallium, aluminum, and zinc.
Career Highlights
Matsuya's career is marked by his dedication to advancing medical technology through innovative materials. His work at Kyushu University has positioned him as a leading figure in the research and development of medical prosthetics and dental materials.
Collaborations
Matsuya has collaborated with notable colleagues, including Masaharu Nakagawa and Kunio Ishikawa, contributing to the advancement of their shared research goals.
Conclusion
Shigeki Matsuya's contributions to medical materials through his patents reflect his commitment to innovation and excellence in the field. His work continues to impact the medical community positively, paving the way for future advancements in prosthetic and dental technologies.