Company Filing History:
Years Active: 1999-2001
Title: Gregory Alan Swords: Innovator in Hydrogel Technology
Introduction
Gregory Alan Swords is a notable inventor based in Atlanta, GA (US). He has made significant contributions to the field of medical technology, particularly in the development of hydrogels. With a total of 2 patents, his work focuses on innovative solutions for soft tissue and ocular prosthetics.
Latest Patents
One of Gregory's latest patents is titled "Hydrogels and methods of making and using same." This invention is directed to methods of making novel porous and solid polyvinyl alcohol hydrogels. These hydrogels are particularly suited for use in the replacement and augmentation of soft tissue or non-load bearing bone of the face, head, and cranium. Another significant patent is "Coupling for porous resin orbital implant and ocular prosthesis." This invention provides an improved coupling method and device for an ocular prosthesis to a porous polyethylene implant. According to the invention, a small surgical screw with a domed head is inserted into a porous plastic implant after the implant has been implanted into an enucleated orbit, allowing it to vascularize. The domed head projects from the anterior surface of the implant, which is covered by conjunctive tissue, and is received by a complementary cavity on the rear surface of the ocular prosthesis.
Career Highlights
Gregory Alan Swords is currently associated with Porex Surgical, Inc., where he continues to innovate in the field of medical devices. His work has been instrumental in advancing techniques that improve patient outcomes in surgical procedures.
Collaborations
Some of Gregory's notable coworkers include Li Yao and John W Shore, who have collaborated with him on various projects within the medical technology sector.
Conclusion
Gregory Alan Swords exemplifies the spirit of innovation in the medical field through his patents and contributions to hydrogel technology. His work not only enhances surgical practices but also significantly impacts patient care.