Company Filing History:
Years Active: 2025
Title: Innovations by Yasir Demiryurek in Tissue Electrotransfer Technology.
Introduction
Yasir Demiryurek is an innovative inventor based in the United States. He has made significant contributions to the field of biomedical engineering, particularly in the area of tissue electrotransfer. His work focuses on developing methods to enhance the delivery of biomolecules into cells, which has important implications for medical treatments and therapies.
Latest Patents
Yasir Demiryurek holds a patent for a device and method for tissue electrotransfer using a microelectrode. This invention involves a minimally invasive penetrating microelectrode array that generates localized electric field "hotspots." These hotspots facilitate the delivery of biomolecules, such as nucleic acids or proteins, into cells located in the epidermal or dermal layers of the skin through transient membrane permeabilization. The microelectrodes can be selectively insulated to control the location of these hotspots, allowing for precise targeting of the biomolecule delivery.
Career Highlights
Throughout his career, Yasir has focused on advancing technologies that improve medical procedures. His innovative approach to using microelectrodes for tissue electrotransfer represents a significant advancement in the field. The ability to deliver biomolecules effectively can lead to improved outcomes in various medical applications, including vaccine delivery and gene therapy.
Collaborations
Yasir Demiryurek has collaborated with notable colleagues, including Hao Lin and Sunshine Littlecreek. These partnerships have contributed to the development and refinement of his innovative technologies, enhancing the potential impact of his work in the biomedical field.
Conclusion
Yasir Demiryurek's contributions to tissue electrotransfer technology highlight the importance of innovation in medical science. His work paves the way for more effective treatments and therapies, showcasing the potential of microelectrode technology in enhancing biomolecule delivery.