The scaffolds, which morphologically and physiologically mimic natural features of the bone,
are of high demand for regenerative medicine. To address this challenge, we have …

Engineered bone tissue or scaffold is a potential alternative to the common use of bone
grafts due to limitless supply and no disease transmission. We present a novel way to …

The scaffolds, which morphologically and physiologically mimic natural features of the bone,
are of a high demand for regenerative medicine. To address this challenge, bioactive porous …

Fabrication of bulk biomaterials with controlled structures and excellent properties is
increasingly important in tissue engineering, but remains a major challenge in the current …

In this study, microhydroxyapatite and nanosilica sol were used as the raw materials for
fabrication of bioceramic bone scaffold using selective laser sintering technology in a self …

This study forms hydroxyapatite-silica ceramic structure, which can generate interconnected
porous 3D models suitable as bone scaffold, using a novel selective laser sintering (SLS) …

Selective laser melting is a promising additive manufacturing technology for manufacturing
porous metallic bone scaffolds. Bone repair requires scaffolds that meet various mechanical …

Bone regeneration is naturally based on bone forming cells, osteoinduction by diverse
growth factors, and osteoconduction. The latter one used as term in this study is the ingrowth …

This study presents a fabrication process of bone scaffold model with titanium biomedical
materials by rapid prototyping (RP) technique. A RP machine with Nd: YAG laser (120W) …

For optimal bone regeneration, scaffolds need to fit anatomically into the requisite bone
defects and, ideally, augment cell growth and differentiation. In this study we evaluated …