Company Filing History:
Years Active: 1997-2000
Title: Innovations by Pamela K. Fink
Introduction
Pamela K. Fink is a notable inventor based in San Antonio, TX (US), recognized for her contributions to medical technology and biological modeling. With a total of 3 patents, her work focuses on developing systems that enhance the understanding and treatment of diseases.
Latest Patents
One of her latest patents is the "Integrated Disease Information System." This innovative system includes a set of software-based Explorers and a computer-assisted methodology that supports the development of new medical interventions for diseases. The system features Explorer modules for discovering proposed interventions, designing clinical trials, performing pharmacoeconomic analysis, and illustrating disease progression for various patients over time. It allows medical researchers to mine data sources to evaluate and understand proposed interventions and their impact on disease progression.
Another significant patent is the "Hierarchical Biological Modelling System and Method." This system provides integrated levels of information synthesized from multiple sources. An executable model of a biological system is developed from this information, allowing insights into phenomena at various biological levels. The model can be used to emulate clinical trials, identify biologic targets for drug development, and observe subcellular phenomena over time.
Career Highlights
Pamela has worked with several companies, including Medical Science Systems, Inc. and Interleukin Genetics, Inc. Her experience in these organizations has contributed to her expertise in medical research and innovation.
Collaborations
Throughout her career, Pamela has collaborated with notable individuals such as Kenneth S. Kornman and L. Tandy Herren. These collaborations have further enriched her work and expanded her impact in the field of medical technology.
Conclusion
Pamela K. Fink's innovative patents and career achievements highlight her significant contributions to medical technology and biological modeling. Her work continues to influence the development of new medical interventions and enhance our understanding of diseases.