Company Filing History:
Years Active: 2011
Title: The Innovative Mind of Mark G. Burnett
Introduction
Mark G. Burnett is a prominent inventor based in Philadelphia, PA, known for his contributions to the field of optical measurements in biomedical applications. With a focus on understanding deep tissue behavior, Burnett has made strides in improving the assessment of blood flow and oxygen delivery in various tissue types.
Latest Patents
Mark G. Burnett holds a patent for an innovative invention titled "Optical Measurement of Tissue Blood Flow, Hemodynamics and Oxygenation." This groundbreaking device, system, and method are designed to accurately determine the characteristics of deep tissue. The methodology involves measuring blood flow rates and the oxygenation levels of tissue, while enabling the determination of oxygen metabolism as it relates to these measurements. Notably, the invention measures blood flow rate through light fluctuations caused by the tissue, and assesses oxygenation via the transmission of light through the tissue based on wavelength. This technology is particularly applicable for evaluating layered tissues such as portions of the brain and can be used during varying levels of exercise intensity.
Career Highlights
Mark G. Burnett has made significant contributions to the University of Pennsylvania, where he conducts research and collaborates on innovative projects at the forefront of medical technology. His work exemplifies the intersection of engineering and healthcare, providing advancements that could lead to better diagnostic and therapeutic modalities.
Collaborations
Throughout his career, Burnett has collaborated with esteemed colleagues, including Arjun Gaurang Yodh and Joel H. Greenberg, who are recognized for their expertise in related fields. These partnerships have further enriched his research, allowing for a multidisciplinary approach to innovation in optical measurement technologies.
Conclusion
Mark G. Burnett continues to push the boundaries of scientific research with his patents and collaborative efforts within the University of Pennsylvania. His unique inventions promise to enhance understanding of tissue behavior, thus improving diagnostic techniques and patient care in the medical field. His contributions make a lasting impact on both innovation and healthcare practices.