Location History:
- Tokyo, JP (2003)
- Chiba, JP (2012)
Company Filing History:
1 out of 61 
1 out of 25 
1 out of 833,002 Years Active: 2003-2012
Title: Innovations of Shizuko Kobayashi in Radiation Protection
Introduction
Shizuko Kobayashi is a distinguished inventor hailing from Chiba, Japan, known for her significant contributions in the field of radiation protection. With a total of two patents to her name, she has dedicated her research to developing innovative solutions aimed at improving health outcomes related to radiation exposure.
Latest Patents
One of Shizuko's latest patents is a radiation protection drug containing tocopherol or tocotrienol compound ester derivatives as active ingredients. This invention highlights the effective administration of either tocopherol represented by a specific formula or a tocotrienol compound ester before or after radiation exposure, providing a means to prevent or treat health disorders associated with such exposure. Additionally, she holds a patent for a tocotrienol derivative and the process for producing the same, along with a gamma-tocopherol delivering agent, which plays a crucial role in the field of pharmaceutical interventions against radiation effects.
Career Highlights
Throughout her career, Shizuko has worked at reputable institutions, including the National Institute of Radiological Sciences. Her work focuses on advancing understanding and interventions related to radiation health risks, making her a vital player in the field of radiological research.
Collaborations
Shizuko Kobayashi has collaborated with notable coworkers such as Jiro Takata and Takeshi Fukushima, contributing to the development of innovative healthcare solutions in radiation protection. These partnerships reflect her commitment to interdisciplinary collaboration and the pursuit of breakthroughs in medical research.
Conclusion
Shizuko Kobayashi continues to be a pioneering figure in the realm of radiation protection through her inventive approaches and patented innovations. Her work not only impacts the scientific community but also has the potential to enhance public health measures in radiation exposure scenarios.