Abstract: A bone connective prosthesis and method of forming same comprising the addition of a biocompatible plasticizer to a PMMA film and/or bone cement, which preferably copolymerizes with the PMMA film and/or bone cement. Preferably, this plasticizer comprises the FDA approved, biocompatible hydrophilic monomer known as 2-hydroxyethyl methacrylate (commonly referred to as "HEMA") and its associated water. HEMA has the ability to absorb water. An important feature of this invention is that this ability to absorb water results in a measurable and controllable plasticization.In one embodiment of the present invention, the plasticizer (HEMA and its associated water) copolymerizes with the PMMA film to form a PMMA/HEMA coating which is preferably used as a coating on a bone prosthesis. In a further embodiment, the plasticizer (HEMA and its associated water) copolymerizes with a PMMA base bone cement to form a PMMA/HEMA bone cement.
Abstract: A microporous membrane and method of manufacture is presented utilizing irradiation and thermal induction phase separation techniques. During manufacture, microsphereulites are created by irradiation of curable agents in a casted polyolefin film. The microsphereulites then serve as nucleating agents in a thermally-induced phase separation step, providing a microporous membrane with improved flow and mechanical properties.