Company Filing History:
Years Active: 2011
Title: Joel H Greenberg: Innovator in Optical Measurement of Tissue Blood Flow
Introduction
Joel H Greenberg is a notable inventor based in Wayne, Pennsylvania. He has made significant contributions to the field of optical measurement, particularly in understanding tissue blood flow and oxygenation. His innovative work has implications for medical diagnostics and research.
Latest Patents
Joel H Greenberg holds a patent for an invention titled "Optical measurement of tissue blood flow, hemodynamics and oxygenation." This invention encompasses a device, system, and method for determining the characteristics of deep tissue. The novel method involves measuring blood flow rate and oxygenation characteristics of the tissue, as well as determining oxygen metabolism based on these measurements. The blood flow rate characteristics are assessed through light fluctuations caused by the tissue, while oxygenation characteristics are evaluated based on the transmission of light through the tissue concerning the wavelength of light. This technology can be applied to layered tissues, such as portions of the brain, and can measure tissue characteristics during varying levels of exercise intensity. Joel has 1 patent to his name.
Career Highlights
Joel H Greenberg is affiliated with the University of Pennsylvania, where he contributes to research and innovation in the field of optical measurement. His work is instrumental in advancing the understanding of hemodynamics and tissue oxygenation, which are critical for various medical applications.
Collaborations
Joel has collaborated with esteemed colleagues, including Arjun Gaurang Yodh and Guoqiang Yu. Their combined expertise enhances the research and development of innovative solutions in the field.
Conclusion
Joel H Greenberg's contributions to optical measurement technology represent a significant advancement in medical research. His innovative patent and collaboration with leading experts underscore his commitment to improving our understanding of tissue characteristics.