Peer-reviewed veterinary case report
Accuracy of 3D printed guides for correcting dog forelimb bone
By De Armond, Christina C et al.·Published in Journal of the American Veterinary Medical Association·2022·College of Veterinary Medicine, United States·View original on PubMed →
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Original publication title: Accuracy of virtual surgical planning and custom three-dimensionally printed osteotomy and reduction guides for acute uni- and biapical correction of antebrachial deformities in dogs.
- Species:
- dog
Plain-English summary
A group of 11 dogs with deformities in their front legs underwent surgery using advanced technology that included virtual surgical planning and custom 3D printed guides. These guides helped the veterinarians accurately realign the bones during surgery. After the procedures, most dogs showed significant improvement in their limb alignment and reduced lameness, with 7 out of 8 dogs experiencing less pain when moving. While there were some complications, such as reduced motion in the wrist and sensitivity to implants, the overall results suggest that this method is effective for correcting leg deformities in dogs.
People also search for: dog leg deformity surgery · 3D printed surgical guides for dogs · dog lameness treatment · virtual surgical planning in dogs
Abstract
OBJECTIVE: To report clinical experience using virtual surgical planning (VSP) and surgical application of 3D printed custom surgical guides to facilitate uni- and biapical correction of antebrachial deformities in dogs. ANIMALS: 11 dogs (13 antebrachial deformity corrections). PROCEDURES: Using CT-based bone models, VSP was performed, and surgical guides were designed and 3D printed. The guides were used to execute osteotomies and align bone segments. Postoperative CTs were obtained to compare limb alignment with the VSP. Long-term assessment of lameness and cosmesis were compared with preoperative status. RESULTS: Guides were successfully utilized and postoperative analysis was available for 10 of 13 deformities. Guides were abandoned in 2 deformities due to soft tissue tension. Evaluation of postoperative frontal, sagittal, axial, and translational limb alignment revealed that over 90% of parameters were within the acceptable range of ≤ 5° angulation and rotation or ≤ 5 mm of translation from the VSP. Lameness scores were improved in 7/8 deformities with associated preoperative lameness, and posture was improved in 10/10 deformities in which guides were deployed. Complications included reduced range of carpal motion (n = 2), implant sensitivity (n = 2), fracture (n = 1), and tendon laceration (n = 1). CLINICAL RELEVANCE: VSP and customized surgical guide application facilitated accurate antebrachial limb deformity correction in the majority of deformities in this case series. The use of VSP and 3D printed guides would appear to be a viable and accurate approach for correction of both uni- and biapical antebrachial deformities in dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/35460550/