Company Filing History:
Years Active: 1988-1990
Title: Eva G Johansson: Pioneering Innovations in Hydrophilic Coatings
Introduction
Eva G Johansson is an accomplished inventor based in Goteborg, Sweden. With a focus on enhancing polymer surface treatments, she holds two patents that significantly contribute to medical technology. Her innovative methods aim to improve the functionality and safety of medical devices.
Latest Patents
One of her notable patents is titled "Method of forming an improved hydrophilic coating on a polymer surface." This invention describes a process for applying an osmolality-increasing compound to a non-reactive hydrophilic polymer surface. The result is a more stable and slippery surface, particularly beneficial in wet conditions. The method emphasizes the use of safe and effective compounds such as glucose, sorbitol, sodium chloride, among others. Medical articles treated with this hydrophilic coating further enhance the performance of medical devices, ensuring reliability in various applications.
Another patent by Eva G Johansson is the "Wetting and storage device for a catheter." This invention seeks to improve the handling and functionality of catheters, highlighting her commitment to advancing medical technology.
Career Highlights
Eva has worked with notable companies in the medical sector including Astra Meditec AB and Astra Meditec Aktiebolag. Her tenure at these organizations has allowed her to collaborate on various innovative projects, further establishing her expertise in the field.
Collaborations
Throughout her career, Eva has collaborated with fellow innovator Jan M Utas-Sjoberg. This partnership has fostered creative solutions and improvements in the medical device domain, showcasing the power of teamwork in driving innovations.
Conclusion
Eva G Johansson's contributions to polymer surface treatment technology, particularly in medical applications, underscore her significance as an inventor. Her patents not only demonstrate her innovative spirit but also impact the effectiveness and safety of medical devices, marking her as a prominent figure in the field.