Makino Takahiro, Sakai Yusuke, Kashii Masafumi, Takenaka Shota, Sugamoto Kazuomi, Yoshikawa Hideki, Kaito Takashi
Department of Orthopaedic Surgery, Osaka University Graduate School of Medicine, 2-2, Yamadaoka, Suita, Osaka, 565-0871, Japan.
Department of Orthopedic Biomaterial Science, Osaka University Graduate School of Medicine, 2-2, Yamadaoka, Suita, Osaka, 565-0871, Japan.
BMC Musculoskelet Disord. 2017 Nov 16;18(1):459. doi: 10.1186/s12891-017-1801-0.
Recent morphological analyses of vertebrae in patients with scoliosis have revealed three-dimensional (3D) deformities in the vertebral bodies. However, it remains controversial whether these deformities are secondary changes caused by asymmetrical vertebral loading or primary changes caused by aberrant asymmetrical vertebral growth. Furthermore, the difference in vertebral morphology between scoliosis with different pathogeneses remains unclear. This study was aimed to investigate the difference in the coronal asymmetry of vertebral bodies between neuromuscular scoliosis (NS) in Duchenne muscular dystrophy (DMD) and idiopathic scoliosis (IS) using in vivo 3D analysis.
Twelve male skeletally immature patients with NS in DMD and 13 female skeletally immature patients with IS who underwent corrective fusion at our institution were included retrospectively. 3D bone models of the apical and adjacent upper and lower vertebrae in the major curve in the NS patients and in the main and compensatory curves in the IS patients were constructed using an image processing workstation. The heights of the concave and convex sides of the vertebral bodies were measured at the anterior, middle, and posterior and the concave-to-convex vertebral height ratios (VHR) were calculated.
The mean VHRs (anterior/middle/posterior) for the main curve for IS (0.897 ± 0.072/0.832 ± 0.086/0.883 ± 0.059) were significantly smaller than those for NS (0.970 ± 0.048/0.934 ± 0.081/0.958 ± 0.043) in all three parts (p < 0.001). Those of the compensatory curve in IS (0.968 ± 0.045/0.942 ± 0.067/0.967 ± 0.046) did not differ significantly from the NS values in any part.
When compared to the wedging of the vertebral bodies around apical vertebrae in the major curve in NS, which was caused by asymmetric loading, the wedge deformities in both the main and compensatory curves in IS were more severe than would be expected. Our results indicated that morphometric characteristics of vertebral bodies differed according to the pathogenesis of scoliosis and that the pathology of the wedging of vertebral bodies in IS could not be a result only of asymmetric loading to the vertebral bodies.
近期对脊柱侧弯患者椎骨的形态学分析揭示了椎体的三维(3D)畸形。然而,这些畸形是由不对称椎体负荷引起的继发性改变还是由异常不对称椎体生长引起的原发性改变仍存在争议。此外,不同发病机制的脊柱侧弯之间椎体形态的差异尚不清楚。本研究旨在使用体内3D分析来研究杜氏肌营养不良症(DMD)中的神经肌肉型脊柱侧弯(NS)和特发性脊柱侧弯(IS)之间椎体冠状面不对称性的差异。
回顾性纳入了12例在本机构接受矫正融合手术的DMD中骨骼未成熟的男性NS患者和13例骨骼未成熟的女性IS患者。使用图像处理工作站构建NS患者主弯中顶椎及其相邻上下椎体以及IS患者主弯和代偿弯的3D骨模型。在椎体的前、中、后测量椎体凹侧和凸侧的高度,并计算凹侧与凸侧椎体高度比(VHR)。
IS主弯的平均VHR(前/中/后)(0.897±0.072/0.832±0.086/0.883±0.059)在所有三个部位均显著小于NS(0.970±0.048/0.934±0.081/0.958±0.043)(p<0.001)。IS代偿弯的VHR(0.968±0.045/0.942±0.067/0.967±0.046)在任何部位与NS值均无显著差异。
与NS主弯中顶椎周围椎体因不对称负荷导致的楔形变相比,IS主弯和代偿弯中的楔形变均比预期更严重。我们的结果表明,椎体的形态计量学特征因脊柱侧弯的发病机制而异,且IS中椎体楔形变的病理改变不能仅归因于椎体的不对称负荷。
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