Company Filing History:
Years Active: 2019
Title: Innovations by Shinji Tanaka
Introduction
Shinji Tanaka is a notable inventor based in Kagawa, Japan. He has made significant contributions to the field of medical technology, particularly in the development of innovative electrode pads and adhesive patches. With a total of 2 patents, his work focuses on enhancing patient comfort and safety during medical treatments.
Latest Patents
One of Tanaka's latest patents is an electrode pad used for iontophoresis treatment. This invention addresses the issue of skin irritation caused by transdermal administration of local anesthetics. The electrode pad is designed to provide relief from puncture pain while ensuring safety during both single and repeated administrations. It consists of a base sheet, an electrode, an adhesive sheet with an opening for the electrode, and a medicament reservoir containing a local anesthetic. This innovative design prevents skin contact with the inner surfaces, thereby reducing irritation.
Another significant patent is the tolterodine-containing adhesive patch. This patch features an adhesive layer that is laminated on a backing. The adhesive layer is created by incorporating tolterodine into a base that includes a rubber adhesive, a tackifier resin, and a softener. The tolterodine is present in the form of a free base, enhancing the patch's effectiveness.
Career Highlights
Shinji Tanaka is associated with Teikoku Seiyaku Co., Ltd., a company known for its advancements in pharmaceutical products. His work at the company has been instrumental in developing innovative solutions that improve patient care.
Collaborations
Tanaka has collaborated with notable colleagues, including Akihiro Hasui and Atsuhiko Shiraishi. Their combined expertise has contributed to the successful development of his patented inventions.
Conclusion
Shinji Tanaka's contributions to medical technology through his patents reflect his commitment to improving patient experiences. His innovative designs in electrode pads and adhesive patches demonstrate the potential for advancements in medical treatments.