使用直立位磁共振成像对青少年特发性脊柱侧凸进行无辐射诊断监测是否可行?
Is radiation-free diagnostic monitoring of adolescent idiopathic scoliosis feasible using upright positional magnetic resonance imaging?
机构信息
Department of Orthopedic Surgery, New York University-Hospital for Joint Diseases, New York, NY, USA.
出版信息
Spine (Phila Pa 1976). 2013 Apr 1;38(7):576-80. doi: 10.1097/BRS.0b013e318286b18a.
STUDY DESIGN
Prospective clinical trial.
OBJECTIVE
The purpose of this study was to determine if an upright positional magnetic resonance imaging (MRI) protocol could produce reliable spinal curvature images and measurements compared with traditional radiograph.
SUMMARY OF BACKGROUND DATA
Concerns about the oncological potential from cumulative doses of ionizing radiation in children and adolescents being monitored for adolescent idiopathic scoliosis (AIS) initiated a search for radiation-free diagnostic imaging modalities, including MRI. We submit that upright, positional MRI (uMRI) produces reliable spinal curvature images compared with traditional radiograph.
METHODS
Twenty-five consecutive patients (16 female; 9 male; average age, 14.6 yr; range, 12-18 yr) with a diagnosis of AIS were enrolled. Average major curve magnitude was 30° (range, 6°-70°). Subjects received anterior-posterior and lateral plain radiographical scoliosis imaging followed within 1 week by uMRI. MRI data acquisition was performed in less than 7 minutes. Two independent observers performed all Cobb angle, T5-T12 kyphosis, and vertebral rotation measurements for comparison. The Pearson correlation method was performed to compare radiograph to uMRI measurements, while inter-rater and intrarater correlations were performed to assess reliability.
RESULTS
We found outstanding correlation between all plain film radiography and uMRI measurements (P = 0.01); major Cobb angles (R = 0.901), minor Cobb angles (R = 0.838), and kyphosis (R = 0.943). Inter-rater reliability for both radiographical and MRI measurements of major Cobb angles (R = 0.959, 0.896, respectively), minor Cobb angles (R = 0.951, 0.857, respectively), and vertebral rotation (R = 0.945) were outstanding. Intrarater reliability for both radiographical and MRI measurements of major Cobb angles (R = 0.966, 0.966, respectively) and minor Cobb angles (R = 0.945, 0.943, respectively) were also outstanding.
CONCLUSION
Our results show that uMRI is capable of producing coronal and sagittal plane measurements that highly correlate with traditional plain film radiographical measurements. This, in addition to reliable vertebral rotation measurements, makes uMRI a valuable, radiation-free alternative/substitute for diagnostic evaluation in AIS.
研究设计
前瞻性临床试验。
目的
本研究旨在确定与传统 X 线摄影相比,直立位磁共振成像(MRI)方案是否能产生可靠的脊柱弯曲图像和测量值。
背景资料概要
在监测青少年特发性脊柱侧凸(AIS)的儿童和青少年中,由于累积剂量的电离辐射对肿瘤的潜在影响,人们开始寻找无辐射的诊断成像方式,包括 MRI。我们认为,与传统 X 线摄影相比,直立位、位置性 MRI(uMRI)可产生可靠的脊柱弯曲图像。
方法
连续纳入 25 例诊断为 AIS 的患者(16 例女性;9 例男性;平均年龄 14.6 岁;范围 12-18 岁)。平均主弯度数为 30°(范围 6°-70°)。所有患者均接受了前后位和侧位 X 线脊柱侧凸成像,然后在 1 周内进行 uMRI。MRI 数据采集在 7 分钟内完成。两名独立观察者对所有 Cobb 角、T5-T12 后凸和椎体旋转进行测量,以进行比较。采用 Pearson 相关法比较 X 线摄影与 uMRI 测量值,同时进行观察者间和观察者内相关性分析以评估可靠性。
结果
我们发现所有 X 线平片与 uMRI 测量值之间存在显著相关性(P=0.01);主要 Cobb 角(R=0.901)、次要 Cobb 角(R=0.838)和后凸(R=0.943)。X 线摄影和 MRI 测量的主要 Cobb 角(R=0.959,0.896)、次要 Cobb 角(R=0.951,0.857)和椎体旋转(R=0.945)的观察者间可靠性均非常好。X 线摄影和 MRI 测量的主要 Cobb 角(R=0.966,0.966)和次要 Cobb 角(R=0.945,0.943)的观察者内可靠性均非常好。
结论
我们的结果表明,uMRI 能够产生与传统 X 线平片测量值高度相关的冠状面和矢状面测量值。此外,uMRI 还能可靠地测量椎体旋转,因此,它是一种有价值的、无辐射的替代方法,可用于 AIS 的诊断评估。
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