Differentiating Healthy Cartilage and Damaged Cartilage Using Magnetic Resonance Images in a Quantitative Manner

2010 International Conference on Digital Image Computing: Techniques and Applications Pub Date : 2010-12-01 DOI:10.1109/DICTA.2010.98

C. Poh, T. K. Chuah, K. Sheah

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Abstract

This paper presents a study that performs a statistical analysis of signal intensities of the cartilage using magnetic resonance images. The aim of the study is to investigate whether it is possible to differentiate cartilage that is normal and cartilage that has damage/lesions in a quantitative manner. Because damaged cartilage tends to have abnormally high signal intensities than that of normal cartilage in fast spin echo proton density weighted (PD) images, we hypothesize that there is a relationship between the signal intensities of the cartilage and the size of the damaged cartilage presence. Twelve MR data sets with different degrees of cartilage damage and five data sets of normal cartilage were used in this study. Femoral articular cartilage was manually segmented using PD images and the MR signal intensities of the cartilage were analyzed. Results show that there is a linear relationship between the difference in mean and median of the cartilage signals (mean-median) and the percentage of damaged cartilage presence (R2 = 0.799, p

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利用磁共振图像定量鉴别健康软骨和受损软骨

本文提出了一项研究，利用磁共振图像对软骨的信号强度进行统计分析。本研究的目的是探讨是否可以定量区分正常软骨和有损伤/病变的软骨。由于在快速自旋回声质子密度加权(PD)图像中，受损软骨往往比正常软骨具有异常高的信号强度，因此我们假设软骨的信号强度与受损软骨的大小之间存在关系。本研究使用了12组不同程度软骨损伤的MR数据集和5组正常软骨的MR数据集。利用PD图像对股骨关节软骨进行人工分割，并对软骨的MR信号强度进行分析。结果表明，软骨信号的均值和中位数之差(均值-中位数)与软骨损伤的存在率呈线性关系(R2 = 0.799, p

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2010 International Conference on Digital Image Computing: Techniques and Applications

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