Company Filing History:
Years Active: 2023
Title: Ilaria Rea: Innovator in Transdermal Delivery Systems
Introduction
Ilaria Rea is a prominent inventor based in Caivano, Italy. She has made significant contributions to the field of transdermal delivery systems, focusing on innovative methods for the effective delivery of active molecules. Her work is characterized by a commitment to advancing medical technology and improving patient care.
Latest Patents
Ilaria Rea holds a patent for a "Device for transdermal delivery of active molecules, uses of the device and methods for producing the device and its components." This invention features a device designed for the transdermal delivery of active molecules, comprising a support element and a plurality of micro-needles that protrude from the support element. Both the support element and the micro-needles are permeable to the active molecules. The device also includes a porous membrane configured to be loaded with active molecules, which lies on a second surface of the support element. Notably, the porous membrane behaves as a Bragg mirror from an optical viewpoint. The patent outlines various uses of the device, including monitoring the release and decay of active molecules, as well as optical and thermal control of their release.
Career Highlights
Ilaria Rea's career is marked by her dedication to research and innovation in the medical field. She has successfully developed a unique device that enhances the delivery of therapeutic agents through the skin, showcasing her expertise and creativity in addressing complex medical challenges.
Collaborations
Ilaria collaborates with notable colleagues, including Luca De Stefano and Principia Dardano, who contribute to her research and development efforts. Their teamwork fosters an environment of innovation and shared knowledge, further enhancing the impact of their work.
Conclusion
Ilaria Rea is a trailblazer in the field of transdermal delivery systems, with a patented device that promises to revolutionize the way active molecules are delivered in medical applications. Her contributions reflect a deep commitment to innovation and improving healthcare outcomes.