Quantification of trabecular bone structure using magnetic resonance imaging at 3 Tesla--calibration studies using microcomputed tomography as a standard of reference.

Sell CA; Masi JN; Burghardt A; Newitt D; Link TM; Majumdar S

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Quantification of trabecular bone structure using magnetic resonance imaging at 3 Tesla--calibration studies using microcomputed tomography as a standard of reference.

机译：使用3特斯拉磁共振成像对小梁骨结构进行定量-使用微计算机断层扫描作为参考标准的校准研究。

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The purpose of this study is to use high-resolution magnetic resonance (MR) imaging at 3 Tesla (3T) to quantify trabecular bone structure in vitro using femoral head specimens, and to correlate the calculated structure measures with those that were determined using microcomputed tomography (microCT), the standard of reference. Fifteen cylindrical cores were obtained from fresh femoral heads after total hip arthroplasty. MR images were obtained at 3T using a transmit-receive wrist coil. High-resolution coronal images were acquired using a modified three-dimensional (3D) fast-gradient echo sequence. From these data sets two-dimensional (2D) structural parameters analogous to bone histomorphometry were derived by using both mean intercept length (MIL) methods based on the plate model and the more recent model-assumption free 3D distance-transformation (DT) methods. The parameters measured by the 2D plate model-based MIL method and the DT method included apparent (App). BV/TV (bone volume/total volume), App. Tb.Th (trabecular thickness), App. Tb.Sp (trabecular separation), and App. Tb.N (trabecular number). Identical regions of interest were analyzed in the MR images and the microCT data sets, and similar structure measures were derived. The means and standard deviations of the parameters over all slices were calculated and MR-derived measures were correlated with those derived from the microCT data sets using linear regression analyses. Structure measures were overestimated with MRI, for example, the mean App. BV/TV was 0.45 for MRI and 0.20 for microT, and the slope of the graph was 1.45. App. Tb.Th was overestimated by a factor of 1.9, whereas App. Tb.Sp was underestimated; Tb.N showed the smallest effect. Correlations between the individual parameters were excellent (App. BV/TV, r2 = 0.82; App. Tb.Sp, r2 = 0.84; App. Tb.N, r2 = 0.81), except for App.Tb.Th (r2 = 0.67). The results of this study show that trabecular bone structure measures may be obtained using 3T MR imaging. These measures, although higher than the standard of reference, show a highly significant correlation with true structure measures obtained by microCT.

机译：这项研究的目的是使用3特斯拉（3T）的高分辨率磁共振（MR）成像在体外使用股骨头标本对小梁骨结构进行定量，并将计算出的结构测量值与使用微计算机断层摄影术确定的测量值相关联（microCT），参考标准。全髋关节置换术后从新鲜的股骨头中获得15个圆柱状核。使用发射-接收手腕线圈在3T下获得MR图像。使用修改的三维（3D）快速梯度回波序列获取高分辨率的冠状图像。从这些数据集中，通过使用基于平板模型的平均截距长度（MIL）方法和最新的无模型假设的3D距离变换（DT）方法，可以得出类似于骨骼组织形态学的二维（2D）结构参数。通过基于2D平板模型的MIL方法和DT方法测量的参数包括视在（App）。 BV / TV（骨骼音量/总音量），App。 Tb.Th（小梁厚度），应用Tb.Sp（小梁分离）和App。 Tb.N（骨小梁数）。在MR图像和microCT数据集中分析了相同的感兴趣区域，并得出了相似的结构度量。计算了所有切片的参数均值和标准差，并使用线性回归分析将MR衍生的测量值与从microCT数据集获得的测量值相关联。 MRI会高估结构指标，例如平均App。 MRI的BV / TV为0.45，microT的BV / TV为0.20，图表的斜率为1.45。应用程式Tb.Th被高估了1.9倍，而App。 Tb.Sp被低估了; Tb.N的影响最小。除了App.Tb.Th（r2 = 0.67），各个参数之间的相关性极好（App。BV / TV，r2 = 0.82; App。Tb.Sp，r2 = 0.84; App。Tb.N，r2 = 0.81）。）。这项研究的结果表明，可以使用3T MR成像获得小梁骨结构测量。这些测量值虽然高于参考标准，但与通过microCT获得的真实结构测量值高度相关。

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《Calcified tissue international. 》 |2005年第5期| 共10页
作者
Sell CA; Masi JN; Burghardt A; Newitt D; Link TM; Majumdar S;
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正文语种 eng
中图分类基础医学 ;
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Femur Head; Magnetic Resonance Imaging; Tomography; X-Ray Computed; 股骨头; 磁共振成像; 体层摄影术; X线计算机;

机译：Femur Head;Magnetic Resonance Imaging;Tomography;X-Ray Computed;股骨头;磁共振成像;体层摄影术;X线计算机;

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1. Quantification of trabecular bone structure using magnetic resonance imaging at 3 Tesla--calibration studies using microcomputed tomography as a standard of reference. [J] . Sell CA, Masi JN, Burghardt A, Calcified tissue international. . 2005 ,第5期

机译：使用3特斯拉磁共振成像对小梁骨结构进行定量-使用微计算机断层扫描作为参考标准的校准研究。
2. Trabecular bone structure of the calcaneus: comparison of MR imaging at 3.0 and 1.5 T with micro-CT as the standard of reference. [J] . Phan CM, Matsuura M, Bauer JS, Radiology . 2006 ,第2期

机译：跟骨的小梁骨结构：比较在3.0和1.5 T下的MR成像，并以micro-CT作为参考标准。
3. 3D image registration is critical to ensure accurate detection of longitudinal changes in trabecular bone density, microstructure, and stiffness measurements in rat tibiae by in vivo microcomputed tomography (μCT) [J] . LanS., LuoS., HuhB.K., Bone . 2013 ,第1期

机译：3D图像配准对于确保通过体内微计算机断层扫描（μCT）准确检测大鼠胫骨小梁骨密度，微观结构和刚度测量的纵向变化至关重要
4. Studying the effect of noise on the performance of 2D and 3D texture measures for quantifying the trabecular bone structure as obtained with high resolution MR imaging at 3 Tesla [C] . Roberto Monetti, Jan Bauer, Dirk Mueller, Conference on Medical Imaging 2008: Imaging Processing; 20080217-19; San Diego,CA(US) . 2008

机译：研究噪声对3D Tesla高分辨率MR成像所获得的2D和3D纹理测量性能的影响，以量化小梁骨结构
5. Mapping trabecular bone fabric tensor by in vivo magnetic resonance imaging. [D] . Wald, Michael J. 2010

机译：通过体内磁共振成像绘制小梁骨织物张量。
6. Quantification of Trabecular Bone Structure Using Magnetic Resonance Imaging at 3 Tesla—Calibration Studies Using Microcomputed Tomography as a Standard of Reference [O] . C. A. Sell, J. N. Masi, A. Burghardt, -1

机译：使用3特斯拉磁共振成像对小梁骨结构进行定量-以微计算机断层扫描为标准的校准研究
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Quantification of trabecular bone structure using magnetic resonance imaging at 3 Tesla--calibration studies using microcomputed tomography as a standard of reference.

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