Peer-reviewed veterinary case report
Zoledronate effects on bone quality in dogs with hip implant loosening
By Wise, L M et al.·Published in Calcified tissue international·2005·Samuel Lunenfeld Research Institute, Canada·View original on PubMed →
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Original publication title: Effect of zoledronate on bone quality in the treatment of aseptic loosening of hip arthroplasty in the dog.
- Species:
- dog
Plain-English summary
A group of dogs undergoing hip replacement surgery developed bone loss around the implant, which can lead to complications. To address this, some dogs received weekly injections of a medication called zoledronate, while others received a saline solution. The results showed that the dogs given the higher dose of zoledronate had improved bone quality, with stronger and better-mineralized bone compared to those that did not receive the treatment. This suggests that zoledronate can help improve bone health in dogs with hip implants.
People also search for: dog hip replacement recovery · zoledronate for dogs · dog bone quality after surgery
Abstract
Periprosthetic bone loss, which is a direct cause of aseptic loosening in total hip arthroplasty (THA), can be suppressed by bisphosphonates. It is unknown how the quality of this bone is affected in the presence of both wear debris (from implant) and bisphosphonates. The objective of this study was to evaluate the effect of zoledronate (ZLN) on bone quality in the presence of wear debris [polyethylene (PE) particles] in a canine model of uncemented THA. Thirty dogs underwent THA, and aseptic loosening was induced via implantation of PE particles packed into the femoral component. For 26 weeks until sacrifice, two groups (each n = 10) received weekly injections of ZLN (low dose 2 mug/kg, high dose 10 mug/kg) and the third group (control) received saline. Histological and radiographic examinations were performed to evaluate the degree of implant reaction. Histomorphometry (static/dynamic) was performed to evaluate bone turnover. Back-scattered electron imaging was used to quantify the newly formed bone and to evaluate the mineralization distribution. Density fractionation and X-ray diffraction were used to evaluate mineral properties, while four-point bending was used to determine mechanical properties. A dose-dependent presence of newly formed subperiosteal bone was found, which appeared to be less mineralized than the adjacent cortical bone. The high-dose ZLN group showed decreased cortical porosity and turnover and increased mineralization profile, failure strength, and modulus. We conclude that ZLN affects some of the material properties of cortical bone and allows the newly formed subperiosteal bone to remain and therefore affect the overall quality of the bone.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/16362454/