Company Filing History:
Years Active: 2006
Title: Jürgen Sohier: Innovator in Drug Delivery Prosthesis
Introduction
Jürgen Sohier is a notable inventor based in Leuven, Belgium. He has made significant contributions to the field of medical devices, particularly in the area of drug delivery systems. His innovative work focuses on improving the biocompatibility and functionality of prosthetic devices used in medical applications.
Latest Patents
Sohier holds a patent for an "Intraluminar perforated radially expandable drug delivery prosthesis and a method for the production thereof." This radially expandable prosthesis is designed for implantation in a lumen and features a tubular wall made from sheet metal with cuts that allow for expansion. The use of water-guided laser cutting technology and specific electrochemical polishing techniques enhances the biocompatibility of the prosthesis, reducing thrombogenicity and foreign body reactions. Additionally, the prosthesis can be coated with titanium nitride to further improve its biocompatibility. By incorporating perforating or non-perforating holes filled with therapeutic agents, the prosthesis can locally administer medicines, genes, and other substances, effectively preventing thrombotic occlusions and neointimal hyperplasia. This innovative design increases the total drug capacity and significantly prolongs the drug release time.
Career Highlights
Jürgen Sohier is currently associated with Boston Scientific Scimed, Inc., where he continues to develop advanced medical technologies. His work has been instrumental in enhancing the effectiveness of drug delivery systems, making a positive impact on patient care.
Collaborations
Sohier has collaborated with notable colleagues such as Ivan De Scheerder and Natasja Van Der Leden, contributing to the advancement of medical device technology through teamwork and shared expertise.
Conclusion
Jürgen Sohier's innovative contributions to the field of drug delivery prostheses exemplify the importance of advancements in medical technology. His work not only improves the functionality of prosthetic devices but also enhances patient outcomes through better biocompatibility and targeted drug delivery.