Peer-reviewed veterinary case report
Ultrasound and X-rays to check dog bone fractures that won't heal
By Risselada, Marije et al.·Published in American journal of veterinary research·2006·Department of Medical Imaging of Domestic Animals·View original on PubMed →
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Original publication title: Evaluation of nonunion fractures in dogs by use of B-mode ultrasonography, power Doppler ultrasonography, radiography, and histologic examination.
- Species:
- dog
Plain-English summary
A 2-year-old mixed-breed dog with a nonunion fracture (where the bone didn't heal properly) was evaluated using different imaging techniques, including ultrasound and X-rays. The tests revealed that most of the fractures were not healing well, and the ultrasound showed varying levels of blood vessel growth in the affected area. The ultrasound results were more reliable than X-rays in determining whether the tissue was healthy enough to heal. This information helped the veterinarian decide on the best surgical approach to treat the fracture, which may include cleaning out the area and using a graft to promote healing.
People also search for: dog nonunion fracture treatment · ultrasound for dog bone healing · mixed-breed dog fracture surgery
Abstract
OBJECTIVE: To investigate the use of ultrasonography to assess nonunion of fractures in dogs and to compare results of ultrasonography, radiography, and histologic examination. SAMPLE POPULATION: 8 nonunion fractures in 6 dogs (1 each in 5 dogs and 3 in 1 dog); dogs ranged from 7 to 94 months of age and weighed 6 to 30 kg. PROCEDURES: Diagnostic assessment consisted of complete clinical and orthopedic examinations, radiography, B-mode (brightness mode) ultrasonography, and power Doppler ultrasonography. Biopsy samples were obtained during surgery for histologic examination. They were stained with H&E and immunolabeled by use of anti-CD31 antibodies. Correlations of power Doppler score, power Doppler count, vessel area, and radiographic prediction with the mean number of vessels counted per hpf were derived. RESULTS: Radiographically, 7 of 8 nonunion fractures were diagnosed as atrophic and were therefore estimated to be nonviable. Vascularity of nonunion fractures during power Doppler ultrasonography ranged from nonvascularized to highly vascularized. Absolute vessel count during histologic examination ranged from 0 to 63 vessels/hpf; 5 nonunion sites had a mean count of > 10 vessels/hpf. Vascularity during power Doppler ultrasonography was highly correlated with the number of vessels per hpf, whereas the correlation between the radiographic assessment and histologic evaluation was low. CONCLUSIONS AND CLINICAL RELEVANCE: Radiographic prediction of the viability of nonunion fractures underestimated the histologically assessed vascularity of the tissue. Power Doppler ultrasonography provided a more accurate estimation of the viability of the tissue and therefore the necessity for debridement and autografts during revision surgery.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/16881847/