Company Filing History:
Years Active: 2003-2007
Title: The Innovative Contributions of Kim K. Burson
Introduction
Kim K. Burson, based in Redwood City, California, is a distinguished inventor known for his significant contributions in the field of biomedical engineering. With a notable portfolio comprising three patents, Burson has made remarkable strides in the development of glucose measuring assemblies, particularly involving hydrogels which play a critical role in various medical applications.
Latest Patents
Among his recent innovations, Kim K. Burson has patented methods of manufacturing glucose measuring assemblies that utilize hydrogels. These patents focus on methods to reduce the presence of compounds in ionically conductive materials, specifically for iontophoretic devices. The presence of such compounds could hinder the detection of selected analytes, making this innovation crucial for improving the accuracy of glucose monitoring devices. Additionally, his inventions incorporate methods for generating selectively permeable barriers on the reactive faces of electrodes, enhancing the performance of these devices. The hydrogels developed by Burson also contain biocides, ensuring functionality and reliability in medical applications.
Career Highlights
Throughout his career, Kim has worked with prominent companies such as Cygnus, Inc. and Animas Technologies, LLC. His experience at these firms has undoubtedly contributed to his deep understanding of the intersection between technology and healthcare, leading to the innovations for which he is recognized today.
Collaborations
Kim K. Burson has collaborated with talented professionals in the field, including Michelle Van Wyhe and Jeffrey Pudlo, further enriching his projects with diverse expertise. Such collaborations have fostered an environment of innovation, allowing for the integration of various ideas and skills into his inventions.
Conclusion
In summary, Kim K. Burson stands out as an accomplished inventor whose patents have significantly impacted the medical technology landscape. His latest innovations in glucose measuring assemblies highlight the importance of addressing challenges within biocompatible materials and device efficacy. With a continued commitment to research and development, Burson's work promises to enhance the capabilities of medical diagnostics in the years to come.