超声导波评价人颌骨P5A-10的体外研究

A. Mahmoud, D. Cortes, A. Abaza, H. Ammar, O. Mukdadi, M. Hazey, P. Ngan, R. Crout
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引用次数: 4

摘要

这项工作的动机是缺乏目前的成像模式,以准确地预测颌骨的机械性能和缺陷。超声导波对微结构特性的变化非常敏感,因此被广泛用于非侵入性材料的表征。沿下颌骨传播的导波可能表现出色散行为,这取决于材料特性、几何形状和嵌入腔体。在这项工作中,我们首次对导波在颌骨中的传播进行了理论和实验研究。采用半解析有限元(SAFE)方法分析了导波在人下颌骨中的色散特性。下颌骨的横截面分为两个区域,分别代表皮质骨和小梁骨。介绍了导波实验的实验装置。利用Gabor小波计算了超声射频信号的实验色散特性。数值分析和导波实验结果均显示了健康和缺陷下颌骨首次到达信号的群速度和弥散行为的变化。这些结果将提供一种非侵入性表征颌骨和评估骨力学性能的方法。
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P5A-10 Assessment of Human Jawbone Using Ultrasonic Guided Wave: In Vitro Study
This work is motivated by the lack of current imaging modalities to accurately predict the mechanical properties and defects in jawbone. Ultrasonic guided waves are sensitive to changes in microstructural properties and thus have been widely used for non-invasive material characterization. Guided waves propagating along the mandibles may exhibit dispersion behavior which depends on material properties, geometry and embedded cavities. In this work, we present the first theoretical and experimental study for the analysis of guided wave propagation in jawbone. Semi-analytical finite-element (SAFE) method is employed to analyze dispersion behavior of guided waves propagating in human mandibles. The cross section of the mandible is divided in two regions representing the cortical and trabecular bones. The experimental set-up for the guided waves experiment is described. Gabor Wavelet is used to calculate the experimental dispersion behavior from the ultrasound radio frequency (RF) signals. Results from both numerical analysis and guided waves experiment exhibit variations in the group velocity of the first arrival signal and also in the dispersion behavior of healthy and defected mandibles. These results shall provide a means to non-invasively characterize the jawbone and assess the bone mechanical properties.
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