连续磁共振成像揭示了生长中的脊柱侧弯脊柱中椎体和椎间盘的个体水平畸形。
Sequential Magnetic Resonance Imaging Reveals Individual Level Deformities of Vertebrae and Discs in the Growing Scoliotic Spine.
作者信息
Keenan Bethany E, Izatt Maree T, Askin Geoffrey N, Labrom Robert D, Bennett Damon D, Pearcy Mark J, Adam Clayton J
机构信息
Paediatric Spine Research Group, Queensland University of Technology and Mater Health Services Brisbane Ltd, Level 5, Centre for Children's Health Research, 62 Graham St, South Brisbane, Q4104,, Australia.
Paediatric Spine Research Group, Queensland University of Technology and Mater Health Services Brisbane Ltd, Level 5, Centre for Children's Health Research, 62 Graham St, South Brisbane, Q4104,, Australia.
出版信息
Spine Deform. 2017 May;5(3):197-207. doi: 10.1016/j.jspd.2016.10.002.
STUDY DESIGN
The aim of this study was to measure contributions of individual vertebra and disc wedging to coronal Cobb angle in the growing scoliotic spine using sequential magnetic resonance imaging (MRI). Clinically, the Cobb angle measures the overall curve in the coronal plane but does not measure individual vertebra and disc wedging. It was hypothesized that patients whose deformity progresses will have different patterns of coronal wedging in vertebrae and discs to those of patients whose deformities remain stable.
METHODS
A group of adolescent idiopathic scoliosis (AIS) patients each received two to four MRI scans (spaced 3-12 months apart). The coronal plane wedge angles of each vertebra and disc in the major curve were measured for each scan, and the proportions and patterns of wedging in vertebrae and discs were analyzed for subgroups of patients whose spinal deformity did and did not progress during the study period.
RESULTS
Sixteen patients were included in the study; the mean patient age was 12.9 years (standard deviation 1.7 years). All patients were classified as right-sided major thoracic Lenke Type 1 curves (9 type 1A, 4 type 1B, and 3 type 1C). Cobb angle progression of ≥5° between scans was seen in 56% of patients. Although there were measurable changes in the wedging of individual vertebrae and discs in all patients, there was no consistent pattern of deformity progression between patients who progressed and those who did not. The patterns of progression found in this study did not support the hypothesis of wedging commencing in the discs and then transferring to the vertebrae.
CONCLUSION
Sequential MRI data showed complex patterns of deformity progression. Changes to the wedging of individual vertebrae and discs may occur in patients who have no increase in Cobb angle; therefore, the Cobb method alone may be insufficient to capture the complex mechanisms of deformity progression.
研究设计
本研究的目的是使用序列磁共振成像(MRI)测量生长中的脊柱侧凸脊柱中单个椎体和椎间盘楔形变对冠状面Cobb角的影响。临床上,Cobb角测量冠状面的整体弯曲度,但不测量单个椎体和椎间盘楔形变。据推测,畸形进展的患者与畸形保持稳定的患者相比,椎体和椎间盘的冠状面楔形变模式不同。
方法
一组青少年特发性脊柱侧凸(AIS)患者每人接受了两到四次MRI扫描(间隔3至12个月)。每次扫描时测量主弯中每个椎体和椎间盘的冠状面楔角,并分析研究期间脊柱畸形进展和未进展的患者亚组中椎体和椎间盘楔形变的比例和模式。
结果
16名患者纳入研究;患者平均年龄为12.9岁(标准差1.7岁)。所有患者均被分类为右侧主胸弯Lenke 1型曲线(9例1A型,4例1B型,3例1C型)。56%的患者扫描间Cobb角进展≥5°。尽管所有患者的单个椎体和椎间盘楔形变都有可测量的变化,但进展患者和未进展患者之间没有一致的畸形进展模式。本研究中发现的进展模式不支持椎间盘先开始楔形变然后转移到椎体的假设。
结论
序列MRI数据显示了复杂的畸形进展模式。Cobb角无增加的患者中单个椎体和椎间盘的楔形变可能会发生变化;因此,仅用Cobb法可能不足以捕捉畸形进展的复杂机制。
Zotero 插件