Company Filing History:
Years Active: 2003
Title: Innovative Contributions of Charles Liebow in Magnetic Nanoparticles
Introduction
Charles Liebow, an accomplished inventor based in East Amherst, NY, has made significant strides in the field of nanotechnology. With one patent to his name, his innovative work focuses on the development of magnetic nanoparticles that promise advancements in therapeutic and diagnostic applications.
Latest Patents
Liebow's patent, titled "Magnetic nanoparticles for selective therapy," introduces groundbreaking nanosized particles referred to as “nanoclinics.” These particles consist of a core made of therapeutic or diagnostic material, encased in a shell. Notably, they incorporate a targeting agent on the surface of the shell, allowing for specific recognition of targeted cells. Furthermore, his invention describes a method for cell lysis using a DC magnetic field, along with a fabrication technique tailored for these nanoclinics, aimed particularly at targeting and destroying cancer cells.
Career Highlights
Charles Liebow is associated with The Research Foundation of State University of New York, where he engages in cutting-edge research. His work exemplifies the intersection of innovation and practical application, showcasing the potential of nanotechnology in medicine. The development of nanoclinics reflects his dedication to improving therapeutic approaches to complex health issues.
Collaborations
Throughout his career, Liebow has collaborated with esteemed colleagues, including Paras Nath Prasad and Earl Jim Bergey. These partnerships underscore the collaborative nature of research and innovation, pooling expertise to enhance the efficacy and scope of their work in the field.
Conclusion
Charles Liebow’s inventive contributions, particularly through his patent on magnetic nanoparticles, highlight the transformative potential of nanotechnology in medical applications. His work not only exemplifies individual ingenuity but also the importance of collaboration in driving forward advancements that can profoundly impact health care. As research continues, the implications of his innovations could pave the way for more effective treatment options for diseases like cancer.