Brühschwein Andreas, Burg-Personnaz Juliette, Zöllner Martin, Reese Sven, Meyer-Lindenberg Andrea
Clinic of Small Animal Surgery and Reproduction, Centre of Veterinary Clinical Medicine, Veterinary Faculty, LMU Munich, Munich, Germany.
Institute of Veterinary Anatomy, Histology and Embryology, Department of Veterinary Sciences, Veterinary Faculty, LMU Munich, Munich, Germany.
Front Vet Sci. 2023 Jul 13;10:1194167. doi: 10.3389/fvets.2023.1194167. eCollection 2023.
INTRODUCTION: Dogs with medial patellar luxation can be affected by pelvic limb deformities whose corrective osteotomies and associated biomechanical rebalancing might provide higher success rates than standard surgical procedures limited to the stifle joint. In bilaterally affected canine patients, comparison with the contralateral normal limb is impossible. Reference values are useful for orthopedic decision-making. Inconsistency of published reference values might depend on methodology or canine breed. We hypothesized that canine pelvic limb alignment is breed-specific. METHODS: CT scans of 42 pelvic limbs of dog breeds predisposed for medial patellar luxation, with an orthotopic patellar position and stability were studied. Several angleswere measured with an open-source 3D Slicer plugin using vector calculations. The breeds were compared with a general linear model with a Bonferonni adjustment using SPSS. RESULTS: Chihuahuas, Pomeranians, Jack Russel Terriers, Pugs, French Bulldogs, Maltese were examined. In the order of the listed breeds, the angles were as follows: 28.3°±10.7°, 20.1°±2.9°, 35.4°±6.9°, 32.8°±3.0°, 19.0°±7.1°, 26.6°±5.3° for the antetorsion, 5.3°±1.8°, 2.8°±2.8°, 8°±4.4°, 3.8 °±3.1°, 4.7°±3.3°, 2.3°±3.3° for the femoral varus, of -5.5°±6.2°, 1.1°±4.1°, -5.2°±9.5°, 6.1°±8.0°, -0.1°±5.9°, -9.2°±4.7° for the tibial torsion, 2.0°±2.9°, 2.1°±2.7°, 6.4°±6.8°, 0.0°±5.7°, 3.0°±5.8°, 8.8°±8.6° for the tibial valgus, 1.2°±10.4°, 1.8°±3.4°, -1.7°±4.9°, -1.7°±9.4°, 5.1°±8.8°, -0.2°±8.6° for the femorotibial rotation and -3.4°±2.2°, 1.1°±4.1°, -2.8°±3.4°, -5.2°±4.0°, -2.1°±4.4°, -5.4°±3.7° for the tibiotalar rotation. There were significant differences between breeds in femoral torsion, femoral varus, and tibial torsion angles, but no significant differences in tibial valgus, femorotibial, and tibiotalar rotation angles. DISCUSSION: Our hypothesis is therefore partially correct. Our results are limited to small dogs prone to medial patellar luxation and might not be generalized. To establish robust reference values larger case numbers and more breeds should be evaluated. In conclusion, canine pelvic limb alignment reference values for small dogs with a predisposition for medial patellar luxation should be considered breed-specific.
引言:患有内侧髌骨脱位的犬类可能会受到骨盆四肢畸形的影响,其矫正截骨术及相关的生物力学平衡可能比仅限于 stifle 关节的标准手术程序具有更高的成功率。在双侧患病的犬类患者中,无法与对侧正常肢体进行比较。参考值对于骨科决策很有用。已发表的参考值不一致可能取决于方法或犬种。我们假设犬类骨盆四肢排列是特定品种的。 方法:对 42 只易患内侧髌骨脱位、髌骨位置正常且稳定的犬种的骨盆四肢进行 CT 扫描研究。使用开源 3D Slicer 插件通过矢量计算测量了几个角度。使用 SPSS 通过具有 Bonferonni 校正的一般线性模型对这些品种进行比较。 结果:检查了吉娃娃犬、博美犬、杰克罗素梗犬、哈巴狗、法国斗牛犬、马尔济斯犬。按照列出的品种顺序,前扭转角度分别为:28.3°±10.7°、20.1°±2.9°、35.4°±6.9°、32.8°±3.0°、19.0°±7.1°、26.6°±5.3°;股骨内翻角度分别为:5.3°±1.8°、2.8°±2.8°、8°±4.4°、3.8 °±3.1°、4.7°±3.3°、2.3°±3.3°;胫骨扭转角度分别为:-5.5°±6.2°、1.1°±4.1°、-5.2°±9.5°、6.1°±8.0°、-0.1°±5.9°、-9.2°±4.7°;胫骨外翻角度分别为:2.0°±2.9°、2.1°±2.7°、6.4°±6.8°、0.0°±5.7°、3.0°±5.8°、8.8°±8.6°;股胫旋转角度分别为:1.2°±10.4°、1.8°±3.4°、-1.7°±4.9°、-1.7°±9.4°、5.1°±8.8°、-0.2°±8.6°;胫距旋转角度分别为:-3.4°±2.2°、1.1°±4.1°、-2.8°±3.4°、-5.2°±4.0°、-2.1°±4.4°、-5.4°±3.7°。品种之间在股骨扭转、股骨内翻和胫骨扭转角度上存在显著差异,但在胫骨外翻、股胫和胫距旋转角度上无显著差异。 讨论:因此,我们的假设部分正确。我们的结果仅限于易患内侧髌骨脱位的小型犬,可能无法推广。为了建立可靠的参考值,应该评估更多的病例数量和更多的品种。总之,对于易患内侧髌骨脱位的小型犬,犬类骨盆四肢排列参考值应被视为特定品种的。
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