Company Filing History:
Years Active: 2002
Title: Masanori Nisikawa: Innovator in Medical Thermometry
Introduction
Masanori Nisikawa, an inventive mind hailing from Nara, Japan, is renowned for his exceptional contribution to medical technology, specifically in temperature measurement. With an innovative spirit, he has secured one patent, a testament to his dedication to improving clinical practices.
Latest Patents
Masanori's notable invention is the Radiation Clinical Thermometer. This advanced device measures the temperature of the eardrum accurately by utilizing a signal processor that processes the output from a light receptor. This receptor is designed to only capture infrared rays emitted directly from the eardrum, minimizing errors associated with external radiant heat sources. The thermometer boasts a sophisticated design that ensures accurate readings by positioning the infrared-receiving element within a precisely defined triangle, ensuring optimal functionality and accuracy.
Career Highlights
Currently employed at Matsushita Electric Industrial Co., Ltd., Masanori Nisikawa has made significant strides in the realm of medical devices. His work focuses on enhancing the reliability and precision of temperature measurements in clinical settings, which can lead to better patient outcomes. His innovative approach reflects his commitment to advancing healthcare technology.
Collaborations
Throughout his career, Masanori has collaborated with esteemed colleagues such as Hirohisa Imai and Kazunari Nisii. Together, they have worked on various projects that synergize their expertise and contribute to the evolution of medical technological advancements.
Conclusion
Masanori Nisikawa stands out as a notable inventor in the field of medical innovation, particularly in thermometry. His patent for the Radiation Clinical Thermometer exemplifies his commitment to improving healthcare practices through innovative solutions. As he continues to collaborate with talented professionals in the industry, his future contributions are anticipated to further enrich medical technology and clinical accuracy.