Journal of orthopaedic research : official publication of the Orthopaedic Research Society
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Calcium is thought to be an important regulator of chondrocyte death associated with articular cartilage injury. Our objective was to determine the influence of extracellular calcium on chondrocyte death following mechanical injury. Using a surgically relevant model of sharp mechanical injury (with a scalpel) and confocal laser scanning microscopy (CLSM), in situ chondrocyte death was quantified within the full thickness of articular cartilage as a function of medium calcium concentration and time (2.5 h and 7 days). ⋯ However, in calcium-free media, there was an increase in chondrocyte death within deeper zones of articular cartilage over 7 days. The early (within hours) chondroprotective effect in calcium-free media suggests that the use of joint irrigation solutions without added calcium may decrease chondrocyte death from mechanical injury during articular surgery. The delayed (within days) increase in chondrocyte death in calcium-free media supports the use of calcium supplementation in media used during cartilage culture for tissue engineering or transplantation.
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No options are available for local antibiotic delivery from uncemented implants. By loading a porous titanium implant with a biomimetic HA-coating (PeriApatite, PA) with antibiotics, we could obtain adequate local antibiotic concentrations and reduce infection susceptibility. This study investigated the efficacy of a tobramycin-loaded PA-coated titanium foam implant in preventing infection, as well as the effects on osseointegration. ⋯ Histopathological and histomorphometrical scores were both better for the PA-tobra group, although only significant compared to Ti. No significant differences were observed between PA and Ti rabbits. We conclude that the application of tobramycin to PA-coated titanium foam implants appears to be an effective local antibiotic strategy for uncemented implants for infection prophylaxis and has a beneficial effect on implant fixation, which will result in improved long-term implant survival.