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DOI: 10.3415/VCOT-16-09-0138
The effect of valgus and varus femoral osteotomies on measures of anteversion in the dog
There is no grant or other financial support to disclose.Publication History
Received:
26 September 2016
Accepted:
12 January 2017
Publication Date:
23 December 2017 (online)
Summary
Objective: To determine whether femoral osteotomies that change frontal plane alignment without affecting torsion influence anteversion and inclination.
Methods: Femurs without deformity were scanned to create three-dimensional reconstructions. The femoral head-neck axis was identified by placement of a virtual intra-medullary pin. A proximal osteotomy was simulated to create three conditions while keeping torsion constant: Normal, Coxa Valga (neck-shaft angle increased by 12°), and Coxa Vara (neck-shaft angle decreased by 12°). Femoral anteversion was measured from an axial image in all three conditions. Femoral inclination was calculated for all conditions using the neck-shaft and anteversion angles. Changes in anteversion and inclination were calculated and compared using a one-way repeated measures analysis of variance. Distal femoral osteotomies were then simulated with the native femurs, inducing 18° of distal varus with no change to torsion. Changes in anteversion and inclination for the Normal and Distal Varus conditions were calculated and compared by a paired t-test.
Results: Version changed by a mean of 13.9° (± 1.5; p <0.0001) from the Coxa Valga to Coxa Vara conditions while inclination changed by a mean of 1.3° (± 0.39; p <0.01). Version changed by a mean of 6.6° (± 0.7; p <0.0001) between the Distal Varus and Normal conditions while inclination changed by a mean of –3.8° (± 0.75; p <0.001).
Clinical significance: Femoral version changes with changing frontal plane alignment even when torsion is constant. This should be considered when correcting femoral deformities.
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References
- 1 Fox DB, Tomlinson JL. Principles of Angular Limb Deformity Correction. In Tobias KM, Johnston SA. editors Veterinary Small Animal Surgery. 1st ed. St. Louis, MO: Elsevier; 2012: 657-668.
- 2 Bausman JA, Wendelburg KL. Femoral prosthesis version angle calculation from a sagittal plane radiographic projection of the femur. Vet Surg 2013; 42: 398-405.
- 3 Dudley RM, Kowaleski MP, Drost WT. et al. Radiographic and computed tomographic determination of femoral varus and torsion in the Dog. Vet Radiol Ultrasound 2006; 47: 546-552.
- 4 Mostafa AA, Griffon DJ, Thomas MW. et al. Morphometric characteristics of the pelvic limbs of Labrador Retrievers with and without cranial cruciate ligament deficiency. Am J Vet Res 2009; 70: 498-507.
- 5 Mostafa AA, Griffon DJ, Thomas MW. et al. Radiographic evaluation of femoral torsion and correlation with computed tomographic techniques in Labrador Retrievers with and without cranial cruciate ligament disease. Vet Surg 2014; 43: 534-541.
- 6 Nunamaker DM, Biery DN, Newton CD. Femoral neck anteversion in the dog: Its radiographic measurement. Veterinary Radiology 1973; 14: 45-48.
- 7 Petazzoni M, Jaeger GH. Radiographic Measurements of the Femur. In Petazzoni M, Jaeger GH. Editors Atlas of Clinical Goniometry and Radiographic Measurements of the Canine Pelvic Limb. 2nd ed. Milan: Merial; 2008: 34-55.
- 8 DeCamp EC, Johnston AS, Dejardin ML. et al. The Hip Joint. In: Brinker, Piermattei, and Flo’s Handbook of Small Animal Orthopedics and Fracture Repair. 5th edition. St. Louis, Missouri: Elsevier; 2016: 497-500.
- 9 Braden TD, Prieur WD, Kaneene JB. Clinical evaluation of intertrochanteric osteotomy for treatment of dogs with early-stage hip dysplasia: 37 cases (1980-1987). J Am Vet Med Assoc 1990; 196: 337-341.
- 10 Palmer RH, Ikuta CL, Cadmus JM. Comparison of femoral angulation measurement between radiographs and anatomic specimens across a broad range of varus conformations. Vet Surg 2011; 40: 1023-1028.
- 11 Swiderski JK, Palmer RH. Long-term outcome of distal femoral osteotomy for treatment of combined distal femoral varus and medial patellar luxation: 12 cases (1999-2004). J Am Vet Med Assoc 2007; 231: 1070-1075.
- 12 Swiderski JK, Radecki SV, Park RD. et al. Comparison of radiographic and anatomic femoral varus angle measurements in normal dogs. Vet Surg 2008; 37: 43-48.
- 13 Tomlinson J, Fox D, Cook JL. et al. Measurement of femoral angles in four dog breeds. Vet Surg 2007; 36: 593-598.
- 14 Panichi E, Cappellari F, Olimpo M. et al. Distal femoral osteotomy using a novel deformity reduction device. Vet Comp Orthop Traumatol 2016; 29: 426-432.
- 15 Liu RW, Toogood P, Hart DE. et al. The effect of varus and valgus osteotomies on femoral version. J Pediatr Orthop 2009; 29: 666-675.
- 16 Hauptman J, Prieur WD, Butler HC. et al. The angle of inclination of the canine femoral head and neck. Vet Surg 1979; 8: 74-77.
- 17 Towle HA, Griffon DJ, Thomas MW. et al. Pre- and postoperative radiographic and computed tomographic evaluation of dogs with medial patellar luxation. Vet Surg 2005; 34: 265-272.
- 18 Montavon PM, Hohn RB, Olmstead ML. et al. Inclination and anteversion angles of the femoral head and neck in the dog: evaluation of a standard method of measurement. Vet Surg 1985; 14: 277-282.
- 19 Walker TL, Prieur WD. Intertrochanteric femoral osteotomy. Semin Vet Med Surg (Small Anim) 1987; 2: 117-130.
- 20 DeTora MD, Boudrieau RJ. Complex angular and torsional deformities (distal femoral malunions). Preoperative planning using stereolithography and surgical correction with locking plate fixation in four dogs. Vet Comp Orthop Traumatol 2016; 29: 416-425.
- 21 Ginja MMD, Gonzalo-Orden JM, Jesus SS. et al. Measurement of the femoral neck anteversion angle in the dog using computed tomography. Vet J 2007; 174: 378-383.