Peer-reviewed veterinary case report
Dog with complex tibial fracture treated using gold nanoparticle bone
By Aștilean, Andreea Niculina et al.·Published in Frontiers in veterinary science·2025·Faculty of Veterinary Medicine·View original on PubMed →
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Original publication title: Biopolymer-based biomaterial containing gold nanoparticles-bioactive glass for bone regeneration in a complicated tibial fracture in a dog: a case report.
- Species:
- dog
Plain-English summary
A dog with a complicated tibial fracture underwent revision surgery after experiencing issues with the initial implants, including migration and breakage. To help heal the bone, the veterinarian used a special composite material made from alginate, pullulan, bioactive glass, and gold nanoparticles. This innovative treatment promoted bone healing and cell growth, and after 12 weeks, the dog's leg was functioning normally again. The use of this composite material showed promising results in helping the dog recover from a challenging injury.
People also search for: dog tibial fracture treatment · bone healing in dogs · dog surgery recovery time
Abstract
A revision surgery for a tibial fracture in a dog, complicated by a secondary fracture site, implant migration, breakage, and bending of the initial implants, was described. After diaphyseal tibial osteotomy, the resulting gaps and bone defects were filled with the alginate-pullulan-bioactive glass-gold nanoparticles (Alg-Pll-BGAuSP) composite. The objective of applying this composite was to stimulate cell proliferation, based on its demonstrated bioactive effect, biodegradability, biocompatibility, and osteoinductive properties. The regenerative process was monitored both clinically and radiologically, with the aim of achieving an improved outcome and enhancing the welfare of the animal. At 12 weeks postoperatively, the implants were removed, and the limb resumed its original function. The application of this biomaterial enhanced the healing of a long bone defect, thereby promoting the formation of high-quality bone tissue in a relatively short time, despite the absence of anastomosis at the defect margins and the complexity of the case. Thus, the Alg-Pll-BGAuSP composite appears to be a viable treatment scaffold for further bone regeneration clinical trials. This first clinical report supports its potential as a scaffold for bone regeneration in complicated fractures.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/41078495/