Location History:
- Pohang, KR (2015)
- Pohang-si, KR (2016)
Company Filing History:
Years Active: 2015-2016
Title: Innovations of Jin-Hyung Shim in Tissue Engineering
Introduction
Jin-Hyung Shim is a notable inventor based in Pohang-si, South Korea. He has made significant contributions to the field of tissue engineering, particularly through his innovative patents. With a total of two patents to his name, Shim's work focuses on developing advanced scaffolding techniques for guided bone regeneration and tissue repair.
Latest Patents
One of Jin-Hyung Shim's latest patents is the "Membrane-type artificial scaffold and method for fabricating same." This invention provides a membrane-type artificial scaffold designed for guided bone regeneration (GBR). The scaffold consists of a first layer made of at least one fiber layer arranged in parallel, allowing it to contact bone tissue in vivo. Additionally, a second layer is stacked on the first, made of fiber layers that contact soft tissue in vivo, with the first spacing being larger than the second.
Another significant patent is the "Three-dimensional scaffold and method of manufacturing the same." This invention features a scaffold with enhanced tissue regeneration capabilities, formed in a lattice structure by alternately stacking biodegradable synthetic polymer-hydrogel layers. The biodegradable synthetic polymer-hydrogel layer is created by arranging multiple biodegradable synthetic polymer-hydrogel units at predetermined gaps.
Career Highlights
Jin-Hyung Shim is affiliated with the Postech Academy-Industry Foundation, where he continues to advance his research and innovations in tissue engineering. His work has garnered attention for its potential applications in medical fields, particularly in regenerative medicine.
Collaborations
Shim collaborates with esteemed colleagues, including Dong-Woo Cho and Jong Young Kim, who contribute to his research endeavors and innovations.
Conclusion
Jin-Hyung Shim's contributions to tissue engineering through his innovative patents highlight his role as a leading inventor in the field. His work on artificial scaffolds demonstrates the potential for significant advancements in medical treatments and regenerative therapies.