Ionic substitutions in calcium phosphates synthesized at low temperature.

TL;DR: The findings confirm that addition of Si and/or Zn alters the physico-mechanical properties of BrCs and promotes the early stage in vivo osseointegration and bone remodeling properties.

TL;DR: In vitro 3D magnesium-carbonate apatite/collagen scaffolds showed integrity when immersed in culture medium up to 14 days, and bone cells (SaOs2) adhered, and proliferated on the 3D composite scaffolds, showing that synthesis and the cross-linking processes did not induce cytotoxicity.

TL;DR: HMSCs cultured directly on scaffolds prepared with only Mg(2+) substituted β-TCP were capable of supporting statistically significantly increased alkaline phosphatase activity, osteopontin, and osteoprotegerin expression in comparison to all compositions containing both Mg (2+) and Sr(2+), and commercially available β- TCP.

TL;DR: In this paper, a bioactive coating with the outwards growth of the uniform and abundant hydroxyapatite (HA) crystals was quickly fabricated on titanium (Ti) by microarc oxidation (MAO) and microwave hydrothermal (MH) treatment.

TL;DR: In this paper, the authors describe the structure of carbonate apatites and the properties of apatite powders, including their properties in terms of their nucleation and crystal growth.

TL;DR: The structure-mechanical relations at each of the hierarchical levels of organization are reviewed, highlighting wherever possible both underlying strategies and gaps in the authors' knowledge.

TL;DR: CaP biomaterials have outstanding properties: similarity in composition to bone mineral; bioactivity; ability to form bone apatitelike material or carbonate hydroxyapatite on their surfaces; and osteoconductivity (ability to provide the appropriate scaffold or template for bone formation).

TL;DR: Calcium phosphates have a great biological and medical significance and in this review, an overview of the current knowledge in this subject is given.