Company Filing History:
Years Active: 2023-2024
Title: Innovations in Tissue Engineering by Yong Ung-Lee
Introduction
Yong Ung-Lee is a prominent inventor based in Columbus, OH (US). He has made significant contributions to the field of tissue engineering, particularly in the development of vascular grafts. With a total of 2 patents, his work focuses on optimizing patient-specific solutions that enhance the efficacy of medical treatments.
Latest Patents
Yong Ung-Lee's latest patents include innovative systems and methods for optimized patient-specific tissue engineering vascular grafts. His research has established that optimizing cell seeding onto tissue engineering vascular grafts (TEVG) is associated with reduced inflammatory responses and decreased post-operative stenosis of TEVG. The findings indicate that cell seeding increases TEVG patency in a dose-dependent manner. Furthermore, TEVG patency improves when more cells are seeded, although the duration of incubation time shows minimal effect on TEVG patency. His patents provide methods for engineering patient-specific TEVG, including optimal numbers of cells to maintain graft patency and reduce post-operative stenosis. Additionally, he has developed closed, single-use customizable systems for seeding TEVG, which are custom-designed based on the morphology of the patient-specific graft to enhance the efficacy of cell seeding.
Career Highlights
Yong Ung-Lee is affiliated with the Research Institute at Nationwide Children's Hospital, where he continues to advance his research in tissue engineering. His work is pivotal in developing innovative solutions that address critical challenges in medical treatments.
Collaborations
Some of his notable coworkers include Christopher K Breuer and Cameron Best, who contribute to the collaborative efforts in advancing tissue engineering research.
Conclusion
Yong Ung-Lee's contributions to tissue engineering through his patents and research are shaping the future of medical treatments. His innovative approaches are essential for improving patient outcomes in vascular graft procedures.