Abstract
There is increasing evidence that titanium (Ti) ions are released from orthopedic implants, with concentrations in the range of 1 μ__M__ in tissue and blood, and may play a role in aseptic loosening of orthopedic implants. This study investigated whether Ti(IV) ions induce differentiation of monocytic osteoclast precursors into osteo‐resorptive multinucleated cells and influence the activation and function of in vitro generated osteoclasts. Human monocytes and in vitro generated osteoclasts were exposed to 1 μ__M__ Ti(IV) ions for 10 days. Thereafter, osteoclast differentiation, activation, and function were evaluated. Transcription of specific osteoclastic genes was measured using quantitative reverse transcription polymerase chain reactions, which showed increased expression of tartrate‐resistant acid phosphatase (TRAP) in ∼20% of Ti(IV)‐treated monocytes. Detection and quantification of intracellular TRAP activity using ELF97 as a fluorescent substrate revealed a significant increase of TRAP‐positive cells in Ti(IV)‐treated monocytes. Additionally, as demonstrated on dentin slide cultures, Ti(IV)‐treated monocytes became functional bone resorbing cells, significantly increasing their osteo‐resorptive activity to similar levels as osteoclasts in vitro. These results suggest that Ti(IV) ions released by biocorrosion from orthopedic implants induce differentiation of monocytes toward mature, functional osteoclasts, which may well contribute the pathomechanism of aseptic loosening. © 2008 Wiley Periodicals, Inc. J Biomed Mater Res, 2009