Location History:
- Yonago-shi, Tottori, JP (2007)
- Yonago, JP (2011)
Company Filing History:
1 out of 3 
2 out of 832,966 Years Active: 2007-2011
Title: Hiroko Kawamoto: Innovator in Chemiluminescent Reagents and Glycation Detection
Introduction
Hiroko Kawamoto is a notable inventor based in Yonago, Japan. She has made significant contributions to the field of chemiluminescence and erythrocytic membrane research. With a total of 2 patents, her work has implications in various clinical applications.
Latest Patents
Kawamoto's latest patents include innovative methods and devices that enhance the detection and quantification of substances. One of her patents focuses on chemiluminescent reagents, which are prepared by freezing or lyophilizing a solution of a peroxidized nitrogen-containing five-membered cyclic compound. These chemiluminescent substances exhibit a sensitivity comparable to that of luminol chemiluminescence, are highly water-soluble, and maintain high reproducibility in measurement results. This makes them particularly suitable for clinical applications.
Another significant patent involves a method and device for determining the distribution of glycation of erythrocytic membranes. This method includes bonding magnetic beads with sugars on the surfaces of erythrocytic membranes and moving the erythrocytes under the influence of an electromagnetic force. The device designed for this purpose includes a container for electromagnetic-phoresis, which facilitates the analysis of erythrocytic membranes.
Career Highlights
Throughout her career, Kawamoto has worked with various companies, including Chemco Scientific Co., Ltd. Her innovative approaches have led to advancements in the detection of biochemical substances, showcasing her expertise in the field.
Collaborations
Kawamoto has collaborated with notable colleagues such as Osamu Nozaki and Motonori Munesue. These collaborations have further enriched her research and development efforts.
Conclusion
Hiroko Kawamoto's contributions to the fields of chemiluminescence and glycation detection highlight her role as a pioneering inventor. Her patents reflect her commitment to advancing scientific knowledge and improving clinical applications.