A radiomics approach to the diagnosis of femoroacetabular impingement.

Frontiers in radiology Pub Date : 2023-03-20 eCollection Date: 2023-01-01 DOI:10.3389/fradi.2023.1151258
Eros Montin, Richard Kijowski, Thomas Youm, Riccardo Lattanzi
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引用次数: 1

Abstract

Introduction: Femoroacetabular Impingement (FAI) is a hip pathology characterized by impingement of the femoral head-neck junction against the acetabular rim, due to abnormalities in bone morphology. FAI is normally diagnosed by manual evaluation of morphologic features on magnetic resonance imaging (MRI). In this study, we assess, for the first time, the feasibility of using radiomics to detect FAI by automatically extracting quantitative features from images.

Material and methods: 17 patients diagnosed with monolateral FAI underwent pre-surgical MR imaging, including a 3D Dixon sequence of the pelvis. An expert radiologist drew regions of interest on the water-only Dixon images outlining femur and acetabulum in both impingement (IJ) and healthy joints (HJ). 182 radiomic features were extracted for each hip. The dataset numerosity was increased by 60 times with an ad-hoc data augmentation tool. Features were subdivided by type and region in 24 subsets. For each, a univariate ANOVA F-value analysis was applied to find the 5 features most correlated with IJ based on p-value, for a total of 48 subsets. For each subset, a K-nearest neighbor model was trained to differentiate between IJ and HJ using the values of the radiomic features in the subset as input. The training was repeated 100 times, randomly subdividing the data with 75%/25% training/testing.

Results: The texture-based gray level features yielded the highest prediction max accuracy (0.972) with the smallest subset of features. This suggests that the gray image values are more homogeneously distributed in the HJ in comparison to IJ, which could be due to stress-related inflammation resulting from impingement.

Conclusions: We showed that radiomics can automatically distinguish IJ from HJ using water-only Dixon MRI. To our knowledge, this is the first application of radiomics for FAI diagnosis. We reported an accuracy greater than 97%, which is higher than the 90% accuracy for detecting FAI reported for standard diagnostic tests (90%). Our proposed radiomic analysis could be combined with methods for automated joint segmentation to rapidly identify patients with FAI, avoiding time-consuming radiological measurements of bone morphology.

Abstract Image

Abstract Image

Abstract Image

放射组学方法诊断股髋臼撞击。
简介:股髋臼撞击(FAI)是一种髋关节病理,其特征是由于骨形态异常导致股骨头颈交界处撞击髋臼缘。FAI通常通过人工评估磁共振成像(MRI)的形态学特征来诊断。在这项研究中,我们首次评估了使用放射组学通过自动从图像中提取定量特征来检测FAI的可行性。材料和方法:17例诊断为单侧FAI的患者行术前MR成像,包括骨盆三维Dixon序列。放射科专家在仅水的Dixon图像上画出了撞击关节(IJ)和健康关节(HJ)的股骨和髋臼的轮廓。每个髋关节提取182个放射学特征。使用临时数据增强工具,数据集数量增加了60倍。将特征按类型和区域细分为24个子集。对于每一个,采用单变量方差分析f值分析,根据p值找到与IJ最相关的5个特征,共48个子集。对于每个子集,使用子集中的放射特征值作为输入,训练k近邻模型来区分IJ和HJ。训练重复100次,随机将数据细分为75%/25%的训练/测试。结果:基于纹理的灰度特征以最小的特征子集获得了最高的预测准确率(0.972)。这表明,与IJ相比,HJ的灰度图像值分布更均匀,这可能是由于撞击引起的应激相关炎症。结论:我们发现放射组学可以使用仅水的Dixon MRI自动区分IJ和HJ。据我们所知,这是放射组学在FAI诊断中的首次应用。我们报告的准确率大于97%,高于标准诊断测试报告的90%的FAI检测准确率(90%)。我们提出的放射组学分析可以与自动关节分割方法相结合,以快速识别FAI患者,避免耗时的骨形态学放射测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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