Company Filing History:
Years Active: 1976-1981
Title: Inventor Spotlight: Joseph Fertig from Haifa, Israel
Introduction
Joseph Fertig is a distinguished inventor based in Haifa, Israel, recognized for his contributions to the field of pharmaceuticals and materials science. With a total of two patents to his name, Fertig's work has significant implications for drug delivery and material composition.
Latest Patents
Fertig's latest inventions include innovative formulations that enhance the efficacy and application of pharmaceutical compounds. One notable patent focuses on **Pharmaceutical Base Salts**, which describes a salt of a polymer containing acid groups that is soluble or dispersible in water or organic solvents. This invention allows for the sustained release of the pharmaceutical compound through various administration routes: orally, topically, or systemically.
Another significant patent is for **Copolymers**, which comprise acrylic or methacrylic acid and methyl methacrylate. This invention presents a new product that can absorb large amounts of water-soluble materials and release them slowly. The fundamental copolymer can be further modified for specific applications, such as in the production of contact lenses designed for medicinals delivery to the eye and other depot materials.
Career Highlights
Joseph Fertig is currently associated with Hydrophilics International, Inc., where he applies his innovative thinking and scientific expertise to develop advanced materials and pharmaceutical solutions. His role at the company signifies his commitment to enhancing healthcare through scientific advancements.
Collaborations
In his endeavors, Fertig collaborates with Izhak Blank, whose partnership combines their respective expertise to drive inventions that push the boundaries of scientific knowledge and application.
Conclusion
Joseph Fertig's patents reflect his dedication to innovation in the pharmaceutical and materials sectors. His contributions are invaluable in shaping the future of drug delivery systems and materials science, ultimately improving patient care and treatment options across various fields.