A modified particulate leaching method for fabrication of strong calcium phosphate-polymer composite scaffolds with improved pore interconnectivity is reported. The scaffolds were produced by mixing precompacted composite granules (β-TCP with 40vol% PLA) of different size and density with salt particles followed by high pressure consolidation (at room temperature or 120°C) and porogen dissolution. The scaffolds' compressive strength and Darcy's permeability were found to be inversely related and to be strongly dependent on the processing parameters. The use of precompacted granules instead of the loose β-TCP-PLA powder allowed us to increase permeability by three orders of magnitude while maintaining load bearing characteristics. Scaffolds with 50% porosity prepared from large (300-420μm) composite granules of β-TCP-40vol% PLA and salt porogen particles of comparable size exhibited the best combination of compressive strength (4-6MPa) and permeability (1.3-1.6×10(-10)m(2)) falling within the range of trabecular bone.
Keywords: High pressure consolidation; Load bearing; PLA; Permeability; Salt leaching; Scaffolds; β-TCP.
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