Abstract
Biphasic calcium phosphates (BCP) are the most frequently used materials because of their mineral analogy with bio-mineral part of bones. Their chemical synthesis can be modulated by doping, in order to respond to the biological needs. We present here the biological responses induced by copper ions in solution, to characterize its cytotoxicity and antibacterial activity. We also investigate the antibacterial property of Cu-doped BCP (Ca10 Cu0.1 (PO4)6 (OH)1.8 O0.2) on a strain of clinical interest: S. aureus, compared to undoped BCP. The sol-gel route has been used to prepare the BCP ceramics. Human BMC (Bone Marrow Cells) were obtained from metaphysal cancellous bone collected during hip arthroplasty and used for cytotoxicity evaluations. A strain of Staphylococcus aureus isolated from an osteoarticular infection after total knee arthroplasty was used to evaluate antibacterial activities. Results indicate that 3 ppm of copper ions leads to the death of all cultured bacteria in 24 hours and 25 ppm caused the death of all cells in 15 days. Regarding BCP, the undoped bioceramics increased the bacterial growth compared to a control without bioceramic. After 16 hours of contact, the copper ions released by the Cu-doped BCP induced a significant decrease of the bacterial concentration, indeed no viable bacteria were found. These materials seem to be a promising alternative for the preparation of multifunctional bone substitutes.
