Location History:
- Brighton, MA (US) (2003 - 2006)
- Passaic, NJ (US) (2006)
Company Filing History:
Years Active: 2003-2006
Title: Nathaniel M Bachrach: Innovator in Bioengineered Graft Prostheses
Introduction
Nathaniel M Bachrach is a notable inventor based in Brighton, MA (US). He has made significant contributions to the field of bioengineering, particularly in the development of graft prostheses. With a total of three patents to his name, Bachrach's work focuses on enhancing tissue compatibility and repair methods.
Latest Patents
Bachrach's latest patents include a "Method of preparing layered graft prostheses." This invention is directed to bioengineered graft prostheses made from two or more superimposed, chemically bonded layers of processed tissue material derived from animal sources. The methods used in this invention preserve cell compatibility, strength, and bioremodelability of the processed tissue matrix. These graft prostheses are intended for implantation, repair, or use in a mammalian host. Another significant patent is the "Process of making bioengineered collagen fibrils." This invention involves a class of fiber or strand suspension compositions that can be processed into viscoelastic pastes or porous solids. The preferred compositions comprise biologically derived or compatible materials, such as collagen, which can be injected or implanted for tissue augmentation or repair.
Career Highlights
Nathaniel M Bachrach is currently associated with Organogenesis, Inc., a company known for its innovative approaches in regenerative medicine. His work at Organogenesis has allowed him to apply his expertise in bioengineering to real-world applications, contributing to advancements in medical technology.
Collaborations
Bachrach has collaborated with notable colleagues, including Ginger A Abraham and James Murray. These collaborations have likely enhanced the scope and impact of his inventions in the field of bioengineering.
Conclusion
Nathaniel M Bachrach's contributions to bioengineering through his patents and work at Organogenesis, Inc. highlight his commitment to advancing medical technology. His innovative approaches to graft prostheses and collagen fibrils are paving the way for improved tissue repair and augmentation methods.