Company Filing History:
Years Active: 2014-2020
Title: The Innovative Journey of Jennifer L. Breidenich
Introduction
Jennifer L. Breidenich is an accomplished inventor based in Atlanta, GA. With a remarkable portfolio comprising seven patents, she has made significant contributions to the field of topical compositions and materials science.
Latest Patents
Among her latest innovations is a patent for "Topical compositions and methods of detection and treatment." This invention introduces a topical composition that includes a nanoemulsion of hydrophobic particles coated with a hydrophilic layer. These particles are derived from specific hydrophobic materials, and each features a melting point lower than that of the respective material, with an average size of less than 10 nm. Furthermore, this nanoemulsion integrates one or more pharmaceutically active agents to enhance efficacy.
Another noteworthy patent is related to "Cellulose hydrogel compositions and contact lenses for corneal applications." This invention provides cellulose hydrogels that exhibit exceptional properties, including high water content, transparency, oxygen permeability, biocompatibility, tensile strength, and thermal stability. The preparation process of this cellulose hydrogel involves a unique activation and gelling method that takes place in controlled environmental conditions.
Career Highlights
Jennifer is affiliated with The Johns Hopkins University, where her research and innovations continue to flourish. Her work is recognized not only for its scientific value but also for its practical applications in healthcare, particularly in treatments involving topical solutions and ocular devices.
Collaborations
Jennifer has collaborated with several distinguished colleagues, including Julia B. Patrone and Marcia W. Patchan. These collaborations have been instrumental in the development of her patented technologies, enabling a synergy of ideas and expertise.
Conclusion
Jennifer L. Breidenich's contributions to innovation exemplify the impact of dedicated research and collaboration in advancing the fields of pharmaceutical compositions and material sciences. Her inventions are paving the way for future advancements in treatment methodologies and applications in healthcare.