Andrea M Kasko

Title: Innovations by Andrea M Kasko

Introduction

Andrea M Kasko is a prominent inventor based in Boulder, Colorado. She has made significant contributions to the field of polymeric materials, particularly in the development of photodegradable systems. Her work focuses on creating innovative solutions that enhance the delivery of bioactive proteins to cells, which has important implications for biomedical research.

Latest Patents

Andrea M Kasko holds two notable patents. The first patent is titled "Photodegradable groups for tunable polymeric materials." This invention presents a photodegradable microparticle system designed to entrap and deliver bioactive proteins to cells during culture. The system allows for a variety of spatiotemporally regulated release profiles, enabling researchers to manipulate protein presentation to regulate cell function. The microparticles, synthesized via inverse suspension polymerization, have a mean diameter of 22 micrometers, and their degradation is demonstrated under various irradiation conditions. The second patent also focuses on photodegradable groups for tunable polymeric materials, providing a method for spatial and temporal control of polymer degradation using macromolecular monomers. This method allows for the incorporation of therapeutic agents and the controlled degradation of polymers through photoradiation.

Career Highlights

Andrea M Kasko is affiliated with the University of Colorado, where she continues to advance her research in polymer science. Her innovative work has garnered attention in the scientific community, contributing to the understanding of how polymeric materials can be utilized in cell culture and biomedical applications.

Collaborations

Andrea has collaborated with notable colleagues, including Kristi S Anseth and Mark W Tibbitt. These collaborations have further enriched her research and expanded the impact of her inventions in the field.

Conclusion

Andrea M Kasko's contributions to the field of polymeric materials and bioactive protein delivery systems highlight her innovative spirit and dedication to advancing scientific knowledge. Her patents represent significant advancements that could transform approaches in biomedical research and applications.