Celine Abueva

Title: Celine Abueva: Innovator in Thermosensitive Hydrogels

Introduction

Celine Abueva is a notable inventor based in Cheonan-si, South Korea. She has made significant contributions to the field of biomedical engineering, particularly in the development of thermosensitive hydrogels. With a total of two patents to her name, her work focuses on innovative solutions for wound healing and bone regeneration.

Latest Patents

Celine Abueva's latest patents include a "Preparation method of injectable thermosensitive chitosan/TEMPO based-oxidized cellulose hydrogel." This invention provides a method for preparing a hydrogel that exhibits superior biocompatibility and excellent cell proliferation, making it highly useful as a filler for wound healing and bone regeneration. The hydrogel is designed to gel in vivo, facilitating rapid gelation and promoting bone regeneration upon implantation.

Another significant patent is the "Adhesion prevention agent comprising injectable thermosensitive wood based-oxidized cellulose nanofiber." This invention outlines a method for creating a hydrogel that prevents adhesion by mixing various components, including methyl cellulose and polyethylene glycol. The hydrogel is thermosensitive, allowing it to transition from a sol to a gel upon implantation, thus demonstrating excellent biodegradability and biocompatibility.

Career Highlights

Celine has worked with esteemed organizations such as Soonchunhyang University Industry Academy Cooperation Foundation and the National Institute of Forest Science. Her experience in these institutions has contributed to her expertise in developing innovative hydrogels for medical applications.

Collaborations

Celine has collaborated with notable colleagues, including Byong Taek Lee and Sun-young Lee. These partnerships have enhanced her research and development efforts in the field of thermosensitive hydrogels.

Conclusion

Celine Abueva is a pioneering inventor whose work in thermosensitive hydrogels has the potential to revolutionize wound healing and bone regeneration. Her innovative patents reflect her commitment to advancing biomedical engineering and improving patient outcomes.