Company Filing History:
Years Active: 2020
Title: Tamara Koritarov: Innovator in Nanotechnology for Cancer Treatment
Introduction
Tamara Koritarov is a prominent inventor based in Naperville, IL (US), known for her groundbreaking work in nanotechnology. She has made significant contributions to the field of cancer treatment through her innovative inventions. With a focus on developing advanced materials, her research aims to improve therapeutic outcomes for cancer patients.
Latest Patents
Tamara holds a patent for a novel invention titled "Metal oxide nanoparticle for cell lysis." This patent describes a nanostructure that comprises a metal oxide nanoparticle (MOX NP) and a bidentate ligand on its surface. A cancer recognition molecule is covalently coupled to the surface of the MOX NP via the bidentate ligand. This molecule is designed to selectively recognize and bind to antigens present on cancer cells. Additionally, a biocatalyst is coupled to the surface of the MOX nanoparticle, which selectively catalyzes the oxidation of a light-emitting compound to produce photons. These photons excite the MOX NPs, generating reactive oxygen species (ROS) that can lyse or induce apoptosis in cancer cells in situ.
Career Highlights
Tamara Koritarov is affiliated with UChicago Argonne, LLC, where she continues to advance her research in nanotechnology. Her work has garnered attention for its potential to revolutionize cancer treatment methodologies. With her innovative approach, she aims to bridge the gap between nanotechnology and clinical applications.
Collaborations
Tamara collaborates with esteemed colleagues Tijana Rajh and Elena A Rozhkova, who contribute to her research endeavors. Their combined expertise enhances the development of cutting-edge solutions in the field of nanotechnology.
Conclusion
Tamara Koritarov's contributions to nanotechnology and cancer treatment exemplify the impact of innovative research on healthcare. Her patented work on metal oxide nanoparticles showcases the potential for new therapeutic strategies in combating cancer. Through her career, she continues to inspire advancements in medical technology.