Location: Biobased and Other Animal Co-Products
Project Number: 8072-41000-090-02
Start Date: Jan 01, 2013
End Date: Dec 08, 2013
Tissue engineering has become a well recognized technology for replacing or repairing damaged tissues or organs within the body. Biodegradable and biocompatible polymers are fast becoming the materials used for surgical implantation as opposed to non-degradable implants. Tissue engineers have often employed the use of synthetic scaffolds fabricated from poly(glycolic acid) (PGA), poly(lactic acid) (PLA), and their coplymer mixtures. These polymers, being biocompatible products, can be degraded either enzymatically or hydrolytically. Degraded components are eliminated through normal metabolic pathways. PLA, an FDA approved material, has often been used in surgical materials, such as sutures, or drug delivery devices due to its inherent biocompatibility and ability to biodegrade. However, due to relatively high cost compared to other polymers, PLA has not been used extensively. In order to reduce the cost and also to invent PLA-based materials with different properties, in this study PLA will be blended with poly(hydroxyalkanoates) (PHA) at different ratios, and the microstructure and degradation properties of the blends will be characterized.