Company Filing History:
Years Active: 2011
Title: Guoqiang Yu – Innovator in Optical Measurement of Tissue Characteristics
Introduction
Guoqiang Yu is a prominent inventor based in Flemington, NJ, who has made significant contributions to the field of optical measurement technology. With one patent to his name, he focuses on the innovative exploration of tissue blood flow, hemodynamics, and oxygenation.
Latest Patents
Guoqiang Yu's notable patent, titled "Optical measurement of tissue blood flow, hemodynamics and oxygenation," presents a novel device, system, and method for determining the characteristics of deep tissue. This invention includes a sophisticated method for measuring blood flow rate and oxygenation characteristics of tissue, alongside determining the oxygen metabolism of the tissue as influenced by these factors. Furthermore, the method intricately measures blood flow rate characteristics based on light fluctuations emanating from the tissue, while the oxygenation characteristics are gauged through the transmission of light across the tissue, accounting for varying wavelengths.
Career Highlights
Guoqiang Yu is affiliated with the University of Pennsylvania, where he applies his expertise to advance research in biomedical optics and related fields. His innovations are pivotal in enhancing our understanding of tissue dynamics, particularly within layered tissues such as those found in the brain. His research contributes significantly to medical diagnostics and therapeutic strategies.
Collaborations
Throughout his career, Guoqiang Yu has collaborated with esteemed colleagues, including Arjun Gaurang Yodh and Joel H. Greenberg. These partnerships have played an essential role in enriching his research and expanding the impact of his work within the scientific community.
Conclusion
Guoqiang Yu’s invention of the optical measurement system marks a vital advancement in the realm of tissue analysis. His ongoing work not only showcases his ingenuity as an inventor but also holds promising implications for future medical applications, ensuring deeper insights into tissue health and function.