Biologically inspired growth of hydroxyapatite crystals on bio-organics-defined scaffolds

Several bio-organics-defined composite scaffolds were prepared using 58s-bioglass (BG), collagen (Col) and chondroitin sulfate (ChS). These scaffolds possess highly porous structure. X-ray diffraction of these scaffolds strongly indicated that hydroxyapatite (HA) crystals formed on their surfaces in simulated body fluids within 3 d, and similar formation process of crystals could be obtained on BG/Col and BG/Col/ChS scaffolds. The morphology and structure of the crystals were further examined by scanning electron microscopy. The results obtained indicate that an apatite with petal-like structure similar to that found on BG/Col scaffolds can be produced on BG/Col/ChS scaffolds through biomimetic synthesis, while that on BG/ChS scaffolds took place differently. The differences could be explained by self-assembly processes and the different macromolecular configurations of the Col and ChS fibrils which self-assemble spontaneously into their fibers. On the other hand, the bio-organics-defined composites have good cell biocompability. The results may be applicable to develop tailored biomaterials for peculiar bone substitute.

Petal-like crystals were observed to form on the surface of the BG/COL/ChS scaffolds.Figure optionsDownload as PowerPoint slideHighlights
► Porous scaffolds were prepared using bioglass, collagen and chondroitin sulfate.
► Highly oriented HA crystals were grown on scaffolds using simulated body fluids
► The microstructure and orientation of HA were explained by molecular configuration.