Automatic removal of large blood vasculature for objective assessment of brain tumors using quantitative dynamic contrast-enhanced magnetic resonance imaging.

IF 2.7 4区 医学 Q2 BIOPHYSICS
NMR in Biomedicine Pub Date : 2024-11-01 Epub Date: 2024-07-25 DOI:10.1002/nbm.5218
Anshika Kesari, Virendra Kumar Yadav, Rakesh Kumar Gupta, Anup Singh
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引用次数: 0

Abstract

The presence of a normal large blood vessel (LBV) in a tumor region can impact the evaluation of quantitative dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) parameters and tumor classification. Hence, there is a need for automatic removal of LBVs from brain tissues including intratumoral regions for achieving an objective assessment of tumors. This retrospective study included 103 histopathologically confirmed brain tumor patients who underwent MRI, including DCE-MRI data acquisition. Quantitative DCE-MRI analysis was performed for computing various parameters such as wash-out slope (Slope-2), relative cerebral blood volume (rCBV), relative cerebral blood flow (rCBF), blood plasma volume fraction (Vp), and volume transfer constant (Ktrans). An approach based on data-clustering algorithm, morphological operations, and quantitative DCE-MRI maps was proposed for the segmentation of normal LBVs in brain tissues, including the tumor region. Here, three widely used data-clustering algorithms were evaluated on two types of quantitative maps: (a) Slope-2, and (b) a new proposed combination of rCBV and Slope-2 maps. Fluid-attenuated inversion recovery-MRI hyperintense lesions were also automatically segmented using deep learning-based architecture. The accuracy of LBV segmentation was qualitatively assessed blindly by two experienced observers, and Likert scoring was also obtained from each individual and compared using Cohen's Kappa test, and multiple statistical features from quantitative DCE-MRI parameters were obtained in the segmented tumor. t-test and receiver operating characteristic (ROC) curve analysis were performed for comparing the effect of removal of LBVs on parameters as well as on tumor grading. k-means clustering exhibited better accuracy and computational efficiency. Tumors, in particular high-grade gliomas (HGGs), showed a high contrast compared with normal tissues (relative % difference = 18.5%) on quantitative maps after the removal of LBVs. Statistical features (95th percentile values) of all parameters in the tumor region showed a statistically significant difference (p < 0.05) between with and without LBV maps. Similar results were obtained for the ROC curve analysis for differentiation between low-grade gliomas and HGGs. Moreover, after the removal of LBVs, the rCBV, rCBF, and Vp maps show better visualization of tumor regions.

自动去除大血管,利用定量动态对比增强磁共振成像客观评估脑肿瘤。
肿瘤区域中正常大血管(LBV)的存在会影响动态对比增强磁共振成像(DCE-MRI)定量参数的评估和肿瘤分类。因此,有必要自动去除脑组织(包括瘤内区域)中的大血管,以实现对肿瘤的客观评估。这项回顾性研究纳入了 103 名经组织病理学确诊的脑肿瘤患者,他们都接受了磁共振成像,包括 DCE-MRI 数据采集。对 DCE-MRI 进行了定量分析,以计算各种参数,如冲洗斜率(Slope-2)、相对脑血容量(rCBV)、相对脑血流量(rCBF)、血浆体积分数(Vp)和体积传递常数(Ktrans)。有人提出了一种基于数据聚类算法、形态学运算和定量 DCE-MRI 图的方法,用于分割脑组织(包括肿瘤区域)中的正常 LBV。本文在两种定量图上评估了三种广泛使用的数据聚类算法:(a) Slope-2;(b) rCBV 和 Slope-2 图的新组合。此外,还使用基于深度学习的架构自动分割了液体减反复-MRI 高浓病灶。两名经验丰富的观察者对LBV分割的准确性进行了盲法定性评估,每个人还进行了Likert评分,并使用Cohen's Kappa检验进行比较。去除枸杞多糖后,肿瘤,尤其是高级别胶质瘤(HGGs)与正常组织相比,在定量图上显示出较高的对比度(相对百分比差异 = 18.5%)。肿瘤区域所有参数的统计特征(第 95 百分位值)显示出显著的统计学差异(p p 地图显示出肿瘤区域更好的可视化。
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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来源期刊
NMR in Biomedicine
NMR in Biomedicine 医学-光谱学
CiteScore
6.00
自引率
10.30%
发文量
209
审稿时长
3-8 weeks
期刊介绍: NMR in Biomedicine is a journal devoted to the publication of original full-length papers, rapid communications and review articles describing the development of magnetic resonance spectroscopy or imaging methods or their use to investigate physiological, biochemical, biophysical or medical problems. Topics for submitted papers should be in one of the following general categories: (a) development of methods and instrumentation for MR of biological systems; (b) studies of normal or diseased organs, tissues or cells; (c) diagnosis or treatment of disease. Reports may cover work on patients or healthy human subjects, in vivo animal experiments, studies of isolated organs or cultured cells, analysis of tissue extracts, NMR theory, experimental techniques, or instrumentation.
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