Company Filing History:
Years Active: 2014-2025
Title: Innovations in Regenerative Medicine by Liming Cheng
Introduction
Liming Cheng is a prominent inventor based in Shanghai, China. He has made significant contributions to the field of regenerative medicine, particularly through his innovative applications of nano-layered double hydroxides. With a total of 6 patents, Cheng's work focuses on enhancing tissue regeneration and repair.
Latest Patents
One of Cheng's latest patents is the "Application of nano layered double hydroxide in cartilage regeneration and preparation thereof." This invention outlines methods for applying nano-layered double hydroxide to promote chondrogenic differentiation of human umbilical cord-derived mesenchymal stem cells. The addition of this compound significantly enhances the ability of these stem cells to differentiate into chondrocytes, offering promising prospects for cartilage regeneration and intervertebral disc repair.
Another notable patent is the "Nano-layered dual hydroxide-biological factor combined system for promoting nerve regeneration to repair spinal cord injury." This system involves synthesizing a nano-layered dual hydroxide and co-incubating it with biological factors such as NT3, VEGF, or bFGF. Experimental results indicate that this combined system effectively aids in the recovery of spinal cord injuries by reconstructing neural circuits over time.
Career Highlights
Cheng has worked with esteemed institutions such as Tongji University and Shanghai Tongji Hospital. His research and innovations have garnered attention in the scientific community, contributing to advancements in regenerative therapies.
Collaborations
Cheng has collaborated with notable colleagues, including Yan Yu and Zhili Zeng, to further his research endeavors. Their combined expertise has played a crucial role in the development of Cheng's innovative solutions.
Conclusion
Liming Cheng's work exemplifies the potential of innovative materials in regenerative medicine. His patents not only advance scientific understanding but also pave the way for future therapeutic applications.