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首页> 外文期刊>Quantitative Imaging in Medicine and Surgery >Multi-detector computed tomography (MDCT) imaging: association of bone texture parameters with finite element analysis (FEA)-based failure load of single vertebrae and functional spinal units
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Multi-detector computed tomography (MDCT) imaging: association of bone texture parameters with finite element analysis (FEA)-based failure load of single vertebrae and functional spinal units

机译:多探测器计算机断层扫描(MDCT)成像:骨骼纹理参数与有限元分析(FEA)的骨骼纹理参数的关联 - 基于单个椎骨和功能性脊柱的失效负载

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Background: Osteoporosis is a systemic skeletal disease that is characterized by low bone mass and microarchitectural deterioration, predisposing affected individuals to fragility fractures. Yet, standard measurement of areal bone mineral density (BMD) in dual-energy X-ray absorptiometry (DXA) as the current reference standard has limitations for correctly detecting osteoporosis and fracture risk, with opportunistic osteoporosis screening using computed tomography (CT) showing increasing importance. This study’s objective is to compare finite element analysis (FEA)-based vertebral failure load with parameters of texture analysis (TA) derived from multi-detector CT (MDCT). Methods: MDCT data of seven subjects (mean age: 71.9±7.4 years) were included for FEA and TA. Manual segmentation was performed for the vertebral bodies T11, T12, L1, and L2 and the intervertebral discs (IVDs) T11/12, T12/L1, L1/2, and L2/3. Correlation analyses between FEA-derived failure loads and parameters of TA for the single vertebrae and two functional spinal units (FSUs) were calculated, defining FSU-1 as T11-IVD-T12-IVD-L1 and FSU-2 as T12-IVD-L1-IVD-L2. Furthermore, multivariate regressions were performed to identify the texture parameters that predicted the failure load best. Results: For single vertebrae, the strongest correlations were observed for skewnessglobal, kurtosisglobal, and gray level variance (rho =?0.7668 to ?0.7362; P0.001), while for FSUs, SumAverage, long-run emphasis, long-run low gray-level emphasis, homogeneity, and energy showed the strongest correlations (rho =?0.8187 to 0.8407; P0.05) to failure loads. SumAverage best predicted the failure load for single vertebrae (R 2 adj =0.523, P0.001). For the two FSUs, kurtosisglobal (FSU-1: R 2 adj =0.611, P=0.001) and skewnessglobal (FSU-2: R 2 adj =0.579, P=0.002) were the best predictors. Conclusions: TA using MDCT data of the spine was significantly associated with FEA-derived failure loads of both, single vertebrae and FSUs. Texture parameters predicted failure loads of FSUs as a more realistic in-vivo scenario equally well as compared to single vertebrae analyses. TA may reflect a less complex and time-consuming approach to accurately and non-invasively evaluate vertebral bone strength.
机译:背景:骨质疏松症是一种系统性骨骼疾病,其特征在于骨质量低,微架构劣化,易受影响的个体脆弱的裂缝。然而,作为当前参考标准的双能X射线吸收测定法(DXA)中面积骨矿物密度(BMD)的标准测量具有正确检测骨质疏松症和骨折风险的限制,使用计算机断层扫描(CT)显示增加的机会骨质疏松症筛选重要性。本研究的目的是将有限元分析(FEA)与来自多检测器CT(MDCT)的纹理分析(TA)的参数进行比较。方法:FEA和TA包括七个受试者的MDCT数据(平均年龄:71.9±7.4岁)。对椎体T11,T12,L1和L2和椎间盘(IVDS)T11 / 12,T12 / L1,L1 / 2和L2 / 3进行手动分段。计算FEA衍生故障载荷和TA的参数的相关性分析,用于单椎骨和两种功能脊柱单元(FSU),定义FSU-1为T11-IVD-T12-IVD-L1和FSU-2,为T12-IVD- L1-IVD-L2。此外,执行多变量回归以识别预测失败负载的纹理参数。结果:对于单一椎骨,观察到最强的相关性,用于抗杆状斑,刚性荧光藻和灰度方差(rho = 0.7668至0.7362; p <0.001),而FSUS,Sumaverage,长期强调,长期低灰色 - 强调,同质性和能量显示出最强的相关性(rho = 0.8187至0.8407; p <0.05)到失效负载。 Sumaverage最能预测单个椎骨的失效负载(R 2 adj = 0.523,p <0.001)。对于两种FSU,Kurtosclobal(FSU-1:R 2 adj = 0.611,P = 0.001)和SkewnessGlobal(FSU-2:R 2 adj = 0.579,P = 0.002)是最佳的预测因子。结论:使用脊柱的MDCT数据与FEA衍生的失效负载显着相关,单一椎骨和FSUS。与单椎体分析相比,纹理参数预测FSU的失败负载作为更现实的体内情景。 TA可以反映更缺乏复杂和耗时的方法,以准确和非侵入性地评估椎体强度。

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