Abstract
The purpose of this work was to incorporate amorphous calcium phosphate (ACP) into porous poly(L-lactic acid) (PLLA), because ACP is capable of fast phase transformation and morphological change in body fluid, such, a desired pore wall surface within bone tissue engineering scaffolds can be created. A highly porous ACP/PLLA composite was prepared by a thermally induced phase separation technique. The results showed that the composite had an interconnected pore structure with 100 mum macropores and 10 mum micropores, and 91% porosity; 40 nm primary particles of ACP were agglomerated to 3 mum aggregates, and the aggregates were homogeneously distributed in pore walls; These aggregates showed to be in situ transformed into bone-like apatite after 1 h soaking in phosphate buffered saline solution. Human osteoblast-like cell culture showed that the ACP/PLLA composite had better cell adhesion and alkaline phosphotase activity than pure PLLA. This study demonstrates that the ACP/PLLA composite can enhance cytocompatibility and could act as a promising scaffold for bone tissue engineering.
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