定量 3D 超短时回波(UTE)MRI 和 micro-CT(μCT)评估颞下颌关节(TMJ)髁突形态。
Quantitative 3D ultrashort time-to-echo (UTE) MRI and micro-CT (μCT) evaluation of the temporomandibular joint (TMJ) condylar morphology.
机构信息
Department of Radiological, Oncological and Pathological Sciences, Sapienza University of Rome, V.le Regina Elena 324, Rome, Italy, 00161,
出版信息
Skeletal Radiol. 2014 Jan;43(1):19-25. doi: 10.1007/s00256-013-1738-9. Epub 2013 Oct 4.
OBJECTIVE
Temporomandibular dysfunction involves osteoarthritis of the TMJ, including degeneration and morphologic changes of the mandibular condyle. The purpose of this study was to determine the accuracy of novel 3D-UTE MRI versus micro-CT (μCT) for quantitative evaluation of mandibular condyle morphology.
MATERIALS AND METHODS
Nine TMJ condyle specimens were harvested from cadavers (2 M, 3 F; age 85 ± 10 years, mean ± SD). 3D-UTE MRI (TR = 50 ms, TE = 0.05 ms, 104-μm isotropic-voxel) was performed using a 3-T MR scanner and μCT (18-μm isotropic-voxel) was also performed. MR datasets were spatially registered with a μCT dataset. Two observers segmented bony contours of the condyles. Fibrocartilage was segmented on the MR dataset. Using a custom program, bone and fibrocartilage surface coordinates, Gaussian curvature, volume of segmented regions, and fibrocartilage thickness were determined for quantitative evaluation of joint morphology. Agreement between techniques (MRI vs. μCT) and observers (MRI vs. MRI) for Gaussian curvature, mean curvature, and segmented volume of the bone were determined using intraclass correlation coefficient (ICC) analysis.
RESULTS
Between MRI and μCT, the average deviation of surface coordinates was 0.19 ± 0.15 mm, slightly higher than the spatial resolution of MRI. Average deviation of the Gaussian curvature and volume of segmented regions, from MRI to μCT, was 5.7 ± 6.5% and 6.6 ± 6.2%, respectively. ICC coefficients (MRI vs. μCT) for Gaussian curvature, mean curvature, and segmented volumes were 0.892, 0.893, and 0.972, respectively. Between observers (MRI vs. MRI), the ICC coefficients were 0.998, 0.999, and 0.997, respectively. Fibrocartilage thickness was 0.55 ± 0.11 mm, as previously described in the literature for grossly normal TMJ samples.
CONCLUSIONS
3D-UTE MR quantitative evaluation of TMJ condyle morphology ex-vivo, including surface, curvature, and segmented volume, shows high correlation against μCT and between observers. In addition, UTE MRI allows quantitative evaluation of the fibrocartilaginous condylar component.
目的
颞下颌关节功能紊乱涉及 TMJ 的骨关节炎,包括下颌髁的退行性变和形态变化。本研究的目的是确定新型 3D-UTE MRI 与微 CT(μCT)定量评估下颌髁形态的准确性。
材料和方法
从尸体中采集了 9 个 TMJ 髁突标本(2 男,3 女;年龄 85±10 岁,平均值±标准差)。使用 3T MR 扫描仪进行 3D-UTE MRI(TR=50ms,TE=0.05ms,104-μm 各向同性体素),并进行 μCT(18-μm 各向同性体素)。MR 数据集与 μCT 数据集进行空间配准。两位观察者对髁突的骨轮廓进行分割。在 MR 数据集上分割纤维软骨。使用定制程序确定关节形态的定量评估的骨和纤维软骨表面坐标、高斯曲率、分割区域的体积和纤维软骨厚度。使用组内相关系数(ICC)分析确定技术(MRI 与 μCT)和观察者(MRI 与 MRI)之间的高斯曲率、平均曲率和骨分割体积的一致性。
结果
MRI 与 μCT 之间,表面坐标的平均偏差为 0.19±0.15mm,略高于 MRI 的空间分辨率。从 MRI 到 μCT,高斯曲率和分割区域体积的平均偏差分别为 5.7±6.5%和 6.6±6.2%。高斯曲率、平均曲率和分割体积的 MRI 与 μCT 的 ICC 系数分别为 0.892、0.893 和 0.972。观察者(MRI 与 MRI)之间的 ICC 系数分别为 0.998、0.999 和 0.997。纤维软骨厚度为 0.55±0.11mm,与大体正常 TMJ 样本的文献报道一致。
结论
TMJ 髁突形态的 3D-UTE MR 定量评估,包括表面、曲率和分割体积,与 μCT 和观察者之间具有高度相关性。此外,UTE MRI 允许定量评估纤维软骨状髁突成分。
Zotero 插件