Location History:
- Bridgewater, NJ (US) (2012 - 2016)
- Oakland, NJ (US) (2020)
Company Filing History:
Years Active: 2012-2020
Title: Natsuyo Shishido Lee: Innovator in Biopolymeric Implants
Introduction
Natsuyo Shishido Lee is a notable inventor based in Bridgewater, NJ (US). He has made significant contributions to the field of biopolymeric materials, holding a total of three patents. His work focuses on innovative solutions that enhance the functionality and application of biopolymeric implants.
Latest Patents
One of his latest patents is the "Density Gradient Biopolymeric Matrix Implants." This invention discloses an implant that includes a first homogeneous matrix layer and a second homogeneous matrix layer with differing densities. The biopolymeric fibers at the surface of these layers are physically in contact and cross-linked, providing enhanced structural integrity. Additionally, he has developed a three-dimensional version of this implant, which also features a first homogeneous matrix surrounding a second homogeneous matrix of different density. Methods for preparing these implants are also included in the patent.
Another significant patent is the "Flat Self-Curling Permeable Sheet Membrane." This invention consists of a matrix formed of crosslinked biopolymeric fibers that self-curl into a predetermined shape upon absorbing an aqueous fluid. The membrane is permeable to molecules with molecular weights not exceeding 1×10 daltons, and a method for preparing this membrane is also disclosed.
Career Highlights
Natsuyo Shishido Lee is currently employed at Collagen Matrix, Inc., where he continues to innovate in the field of biopolymeric materials. His work has been instrumental in advancing the applications of biopolymers in medical and industrial settings.
Collaborations
He collaborates with talented individuals such as Shu-Tung Li and Debbie Yuen, who contribute to the research and development of biopolymeric technologies.
Conclusion
Natsuyo Shishido Lee's contributions to biopolymeric implants and membranes demonstrate his commitment to innovation in material science. His patents reflect a deep understanding of biopolymeric applications, paving the way for future advancements in the field.