Microwave synthesis, characterization and in-vitro evaluation of nanostructured biphasic calcium phosphates

## Abstract The objective of this study was to characterize the physicochemical, dissolution, and osteogenic properties of radio frequency magnetron sputtered dicalcium pyrophosphate/tricalciumphosphate (Pyro/TCP) and hydroxylapatite (HA) coatings. Therefore Pyro/TCP and HA coatings were deposited

## Abstract Calcium phosphate [single‐phase hydroxyapatite (HA, Ca~10~(PO~4~)~6~(OH)~2~), single‐phase tricalcium phosphate (β‐TCP, Ca~3~(PO~4~)~2~), and biphasic HA‐TCP] whiskers were formed by using a novel microwave‐assisted molten salt mediated process. Aqueous solutions containing NaNO~3~, HNO

Protein adsorption affects the function of cells and determines the bioactivity of biomaterial implants. Surface structure and properties of materials determine the behavior of protein adsorption. In the present study, two biphasic calcium-phosphate ceramics (BCPs) with different surface structures

## Abstract Reconstruction of bone defects is one of the major therapeutic goals in various clinical fields. Bone replacement materials must satisfy a number of criteria. Biological criteria are biocompatibility, controlled biodegradability, and osteoconductive or even osteogenic potential. The mat

The aim of this study is to evaluate the resorption of a calcium phosphate ceramic composed of 75% hydroxyapatite and 25% b-tricalcium phosphate (HTCP) used as a biomaterial. The animal implantation has been made in the cortical femur of sheep. Delays of 2,4,8,12, 16, 20, 28, 36 and 48 weeks between