Peer-reviewed veterinary case report
High dose teriparatide boosts bone healing in dog femur grafts
By Nishitani, Kohei et al.·Published in PloS one·2017·University of Rochester Medical Center, United States·View original on PubMed →
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Original publication title: High dose teriparatide (rPTH1-34) therapy increases callus volume and enhances radiographic healing at 8-weeks in a massive canine femoral allograft model.
- Species:
- dog
Plain-English summary
A group of adult female mongrel hounds underwent surgery to repair a broken femur using a bone graft. Some of the dogs received a high dose of a medication called recombinant parathyroid hormone (rPTH1-34) to help the bone heal, while others received a placebo. While the medication did help increase bone healing and callus formation, many dogs experienced serious side effects, including one that died from high calcium levels. Ultimately, the study showed that while the medication could help bones heal faster, it came with significant risks that need to be considered.
People also search for: dog femur fracture treatment · rPTH1-34 for dogs · bone graft healing in dogs
Abstract
Small animal studies have demonstrated significant high-dose recombinant parathyroid hormone1-34 (rPTH1-34) effects on intercalary allograft healing. Towards a human adjuvant therapy to decrease non-unions, we evaluated rPTH1-34 safety and efficacy in a clinically relevant canine femoral allograft model. Adult female mongrel hounds (n = 20) received a 5cm mid-diaphyseal osteotomy reconstructed with a plated allograft, and were randomized to: 1) Placebo (n = 5; daily saline), 2) Continuous rPTH1-34 (n = 7; 5 μg/kg/day s.c. from day 1-55 post-op), or 3) Delayed rPTH1-34 (n = 8; 5 μg/kg/day s.c. from day 14-28 post-op). Safety was assessed by physical behavior and blood calcium monitoring. Cone beam CT (CB-CT) was performed on days 14, 28 and 56 post-op to assess 2D cortical healing, 3D bone volume, and Union Ratio. Biomechanical testing and dynamic histomorphometry were also performed. The high drug dose was poorly tolerated, as most dogs receiving rPTH1-34 had to be given intravenous saline, and one dog died from hypercalcemia. Continuous rPTH1-34 significantly increased 2D healing and callus volumes at 4-weeks versus Placebo, and sustained the significant increase in cortical union at 8-week (p<0.05). These rPTH1-34 effects were confirmed by histomorphometry, revealing significant increases in mineral apposition rates (MAR) on host bone and graft-host junctions (p<0.05). Delayed rPTH1-34 significantly increased callus volume and MAR at 8 weeks (p<0.05). Although no biomechanical differences were observed, as expected for early healing, the results demonstrated that 2D RUST scoring significantly correlated with torsional biomechanics (p<0.01). In conclusion, 8-weeks of intermittent high-dose rPTH1-34 treatment significantly increases callus formation and accelerates bony union of intercalary massive allografts in a clinically relevant canine model, but with serious side-effects from hypercalcemia.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/29020057/