Generation of large pore channels for bone tissue engineering using camphene-based freeze casting

The present study reports an innovative way to produce large pore channels with a size > 100 mu m for applications in bone tissue engineering using the camphene-based freeze casting method, and using an unusually high freezing temperature, which is close to the solidification temperature of the slurry, in order to allow the formation of excessively overgrown camphene dendrites due to the extremely low solidification velocity. To accomplish this, hydroxyapatite (HA)/slurries with various solid loadings (10, 15, and 20 vol%) were frozen at 35 degrees C for 20 h. The frozen samples were freeze dried and sintered at 1250 degrees C for 3 h. All of the fabricated samples showed highly porous structures with large pore channels > 100 mu m in size and dense HA walls without any noticeable defects, such as cracks or pores. As the initial solid loading was increased from 10 to 20 vol%, the porosity of the sample decreased linearly from 76% to 55%, while the pore channels became narrower. However, the compressive strength was remarkably improved from 2.5 to 16.7 MPa.