The goal of the present study was to develop zinc-doped calcium phosphate bone cements (CPCs-Zn) for functionalized bone grafts applications. An aqueous co-precipitation process for synthesis of ?-tricalcium phosphate (?-TCP) powder samples with Zn addition ranging from 0. wt% up to 1.2. wt% was proposed as an alternative approach to produce CPCs-Zn, instead of mechanical mixing of powders. Real-time monitoring of structural transformations and kinetics of CPCs-Zn (Zn=0. wt%, 0.6. wt% and 1.2. wt%) was carried out by the Energy Dispersive X-Ray Diffraction technique. The microstructure development in CPCs-Zn was investigated by Scanning Electron Microscopy. Zn-ion release from CPC-Zn 0.6. wt% and CPC-Zn 1.2. wt% cements, measured by the Atomic Emission Spectroscopy, corresponded to the average values of 0.30±0.01 and 0.10±0.01. ?g/L, respectively. The results of antibacterial tests proved the inhibitory effect towards pathogenic . Escherichia coli only for the CPC-Zn 0.6. wt% cement formulation.
Zinc-releasing calcium phosphate cements for bone substitute materials
Fosca M;Ortenzi M;
2016
Abstract
The goal of the present study was to develop zinc-doped calcium phosphate bone cements (CPCs-Zn) for functionalized bone grafts applications. An aqueous co-precipitation process for synthesis of ?-tricalcium phosphate (?-TCP) powder samples with Zn addition ranging from 0. wt% up to 1.2. wt% was proposed as an alternative approach to produce CPCs-Zn, instead of mechanical mixing of powders. Real-time monitoring of structural transformations and kinetics of CPCs-Zn (Zn=0. wt%, 0.6. wt% and 1.2. wt%) was carried out by the Energy Dispersive X-Ray Diffraction technique. The microstructure development in CPCs-Zn was investigated by Scanning Electron Microscopy. Zn-ion release from CPC-Zn 0.6. wt% and CPC-Zn 1.2. wt% cements, measured by the Atomic Emission Spectroscopy, corresponded to the average values of 0.30±0.01 and 0.10±0.01. ?g/L, respectively. The results of antibacterial tests proved the inhibitory effect towards pathogenic . Escherichia coli only for the CPC-Zn 0.6. wt% cement formulation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
