Jingming Chen

Title: Innovations by Jingming Chen in Bone Regeneration and Dental Tissue Engineering

Introduction

Jingming Chen is an accomplished inventor based in Pittsburgh, PA (US). She has made significant contributions to the fields of biomaterials and regenerative medicine. With a total of 3 patents, her work focuses on innovative solutions for bone regeneration and dental tissue engineering.

Latest Patents

One of her latest patents addresses bone regeneration in compromised wounds. The biomaterials disclosed in this patent comprise a hydrogel that includes PEG, gelatin, and a glycosaminoglycan with a sulfated moiety. This innovative biomaterial is designed to enhance bone regeneration while minimizing inflammatory responses. Additionally, it can incorporate mesenchymal stem cells (MSCs) and can be injected into wounds or used in conjunction with a porous scaffold for mechanical support.

Another notable patent involves the regeneration of vital tooth pulp. This method introduces a hydrogel scaffold into the root canal of a tooth after the native pulp has been removed. The hydrogel scaffold can contain various biofactors that promote the infiltration of endogenous cells, thereby facilitating the regeneration of vital tooth tissue.

Career Highlights

Jingming Chen is affiliated with the University of Pittsburgh, where she continues to advance her research in biomaterials and regenerative medicine. Her innovative approaches have the potential to transform treatment options for patients with compromised wounds and dental issues.

Collaborations

Jingming collaborates with esteemed colleagues, including Juan M Taboas and Herbert L Ray, to further her research and development efforts in these critical areas of healthcare.

Conclusion

Jingming Chen's contributions to the fields of bone regeneration and dental tissue engineering highlight her innovative spirit and dedication to improving patient outcomes. Her patents reflect a commitment to advancing medical science through the development of cutting-edge biomaterials.