Lisa M Minter

Title: Lisa M Minter: Innovator in Polymer Nanoparticles and Regulatory T Cells

Introduction

Lisa M Minter is a prominent inventor based in Southampton, MA (US). She has made significant contributions to the fields of polymer nanoparticles and immunology. With a total of 2 patents, her work focuses on innovative methods and compositions that have the potential to revolutionize therapeutic applications.

Latest Patents

Minter's latest patents include "Crosslinked polymer nanoparticles for targeted cellular uptake and therapeutics, and compositions and methods thereof." This invention provides novel compounds and pharmaceutical compositions, along with methods for their preparation and therapeutic use. It also introduces gel compositions comprising hyaluronic acid (HA) polymers that are crosslinked with reversible crosslinkers, allowing for the encapsulation of therapeutics or other payloads. The invention emphasizes targeted delivery of these gel compositions and nanoparticles to specific cell types, enabling controllable delivery and release.

Another significant patent is the "Ex vivo method of generating super regulatory T cells for the prevention of autoimmune disease." This disclosure presents an ex vivo method to prepare regulatory T cells with enhanced properties. The method allows for the generation and expansion of super regulatory T cells, which can be utilized for the prevention, inhibition, or treatment of autoimmune disorders.

Career Highlights

Lisa M Minter is affiliated with the University of Massachusetts, where she continues her research and development in innovative therapeutic solutions. Her work has garnered attention for its potential impact on medical treatments and patient care.

Collaborations

Minter has collaborated with notable colleagues, including Sankaran Thayumanavan and Gregory N Tew. These partnerships have contributed to her research and the advancement of her inventions.

Conclusion

Lisa M Minter is a trailblazer in the fields of polymer nanoparticles and immunology, with her innovative patents paving the way for future therapeutic advancements. Her contributions are poised to make a significant impact on the treatment of various diseases and conditions.