椎体和股骨头内μCT分析中人体骨小梁的最佳取样量。

IF 0.2 Q4 MEDICINE, RESEARCH & EXPERIMENTAL International journal of clinical and experimental medicine Pub Date : 2015-10-15 eCollection Date: 2015-01-01
Xin-Xin Wen, Chun-Lin Zong, Chao Xu, Xiang-Yu Ma, Fa-Qi Wang, Ya-Fei Feng, Ya-Bo Yan, Wei Lei
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引用次数: 0

摘要

不同骨骼部位的骨小梁具有不同的骨骼形态。如何选择合适的感兴趣区(ROI)体积来反映不同骨骼部位骨小梁的微观结构是一个有趣的问题。因此,本研究对椎体和股骨头内的最佳感兴趣区体积,以及感兴趣区体积和微结构参数之间的关系是否受骨小梁形态的影响进行了研究。在椎体和股骨头内,设定了不同立方体积的 ROI(从(1 毫米)(3) 到(20 毫米)(3)),与对照组(整个骨小梁体积)进行比较。得出五个微结构参数(BV/TV、Tb.N、Tb.Th、Tb.Sp 和 BS/BV)。使用非线性曲线拟合函数探讨了微结构参数与 ROI 体积之间的关系。当椎体内ROI体积小于(8 mm)(3)和股骨头内ROI体积小于(13 mm)(3)时,ROI体积会影响微结构参数。随着体积的增加,这两个骨骼部位的 BV/TV、Tb.N 和 Tb.Sp 的变化趋势也不同。这两个部位的曲线拟合函数也不同。腰椎体和股骨头内不同的骨小梁形态影响了 ROI 体积和微结构参数之间的关系。在描绘腰椎体和股骨头内人体骨小梁的微观结构时,ROI 的体积会大于(8 毫米)(3) 和(13 毫米)(3)。
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Optimal sample volumes of human trabecular bone in μCT analysis within vertebral body and femoral head.

Trabecular bones of different skeletal sites have different bone morphologies. How to select an appropriate volume of region of interest (ROI) to reflect the microarchitecture of trabecular bone in different skeletal sites was an interesting problem. Therefore, in this study, the optimal volumes of ROI within vertebral body and femoral head, and if the relationships between volumes of ROI and microarchitectural parameters were affected by trabecular bone morphology were studied. Within vertebral body and femoral head, different cubic volumes of ROI (from (1 mm)(3) to (20 mm)(3)) were set to compare with control groups(whole volume of trabecular bone). Five microarchitectural parameters (BV/TV, Tb.N, Tb.Th, Tb.Sp, and BS/BV) were obtained. Nonlinear curve fitting functions were used to explore the relationships between the microarchitectural parameters and the volumes of ROI. The volumes of ROI could affect the microarchitectural parameters when the volume was smaller than (8 mm)(3) within the vertebral body and smaller than (13 mm)(3) within the femoral head. As the volume increased, the variable tendencies of BV/TV, Tb.N, and Tb.Sp were different between these two skeletal sites. The curve fitting functions between these two sites were also different. The relationships between volumes of ROI and microarchitectural parameters were affected by the different trabecular bone morphologies within lumbar vertebral body and femoral head. When depicting the microarchitecture of human trabecular bone within lumbar vertebral body and femoral head, the volume of ROI would be larger than (8 mm)(3) and (13 mm)(3).

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