Bioerodible polymeric semi-interpenetrating network alloys for internal fixation devices and bone cements

Assignee

• Cambridge Scientific, Inc. · US

Inventors

• Donald L. Wise · Belmont, US
• Joseph D. Gresser · Brookline, US
• Debra J. Trantolo · Princeton, US
• Yung-Yueh Hsu · Acton, US

Key dates

Classification

• Technology area (CPC A)Human Necessities
• CPC primaryA61L2430/02
• WIPO fieldMedical technology
• WIPO sectorInstruments

Abstract

A bioerodible polymeric material, and in particular a semi-interpenetrating network (“semi-IPN”) alloy, is disclosed. A beneficial end use of this material is in the form of internal fixation devices (IFDs) (such as bone supports, plates, and pins) and as cured bone cements for bone repair. A multi-part bioerodible cement system, which, upon mixing of the system parts, forms a cured bioerodible cement, includes, in one part, a first bioerodible polymer (e.g., PLGA) capable of producing acidic products upon hydrolytic degradation, and, in another part, a second bioerodible scaffolding polymer (e.g., PPF) which upon crosslinking provides a biopolymeric scaffolding or internal reinforcement for the cured cement. In another aspect, a bone cement system of the invention includes a bioerodible scaffolding polymer (such as PPF), which when polymerized provides a hardened bone cement, the cement system further including a gas generating agent in stabilized form for providing the cured bone cement with pores for facilitating inward cell migration.