Company Filing History:
Years Active: 2013
Title: Debra A. Gaw: Innovator in Nanoparticle Technology
Introduction
Debra A. Gaw is a prominent inventor based in Reading, MA (US). She has made significant contributions to the field of nanoparticle technology, particularly in the development of functionalized magnetic nanoparticles. Her innovative work has implications for various applications in bioconjugation and medical imaging.
Latest Patents
Debra A. Gaw holds 1 patent titled "Amine functionalized superparamagnetic nanoparticles for the synthesis of bioconjugates and uses therefor." This patent describes compositions and processes for synthesizing amine functionalized magnetic nanoparticles. The process involves obtaining a carboxylated polymer in substantially pure form, which is then used to prepare a size-homogeneous, polymer-coated carboxyl functionalized magnetic nanoparticle. The carboxyl groups are converted to reactive primary amino groups using a water-soluble carbodiimide, followed by the reaction with a large excess of a diamine. The resulting amine-terminated nanoparticles can be reacted with bifunctional crosslinking agents and various biomolecules, making them suitable for in vitro assays, cell sorting applications, and targeted MR contrast agents.
Career Highlights
Debra A. Gaw is currently associated with Visen Medical, Inc., where she continues to advance her research in nanoparticle technology. Her work has been instrumental in bridging the gap between nanotechnology and medical applications, showcasing her expertise in the field.
Collaborations
Debra collaborates with Lee Josephson, contributing to the innovative research environment at Visen Medical, Inc. Their combined efforts aim to push the boundaries of nanoparticle applications in medicine.
Conclusion
Debra A. Gaw's contributions to the field of nanoparticle technology highlight her role as a leading inventor. Her innovative patent work and collaboration with industry professionals continue to pave the way for advancements in bioconjugation and medical imaging applications.