Company Filing History:
Years Active: 2018
Title: Innovations in MRI Imaging by Shunyi Li
Introduction
Shunyi Li is an accomplished inventor based in Wuhan, China. He has made significant contributions to the field of medical imaging, particularly in the development of contrast agents for MRI technology. His innovative work has the potential to enhance the quality of medical imaging, providing clearer and more accurate results for diagnostic purposes.
Latest Patents
Shunyi Li holds a patent for "Contrast agents, methods for preparing contrast agents, and methods of imaging." This patent describes a protein contrast agent designed to enhance MRI images. The agent comprises a polypeptide that presents at least five oxygen atoms, which are positioned to chelate at least one paramagnetic metal ion, such as Gd. Each oxygen atom is strategically placed between about 2 angstrom units and about 5 angstrom units from the metal ion. The metal ion interacts with at least one water molecule at a distance of less than about 10 angstrom units, along with a target-specific moiety conjugated to it and at least one polyethylene glycol molecule. This innovative approach allows for improved imaging capabilities by obtaining enhanced MRI images through specific intensity ratios.
Career Highlights
Shunyi Li is affiliated with the Georgia State University Research Foundation, Inc., where he continues to advance his research in medical imaging technologies. His work has garnered attention for its potential applications in clinical settings, making significant strides in the field of MRI imaging.
Collaborations
Shunyi Li has collaborated with notable colleagues, including Jenny Jie Yang and Zhiren Liu. These partnerships have contributed to the advancement of his research and the development of innovative imaging solutions.
Conclusion
Shunyi Li's contributions to the field of MRI imaging through his patented contrast agent demonstrate his commitment to enhancing medical technology. His work not only showcases his inventive spirit but also holds promise for improving diagnostic imaging in healthcare.