逐像素增强超声灌注动力学自动肿瘤分类。

IF 1.5 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Casey N Ta, Yuko Kono, Christopher V Barback, Robert F Mattrey, Andrew C Kummel
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引用次数: 18

摘要

对比增强超声(CEUS)通过静脉注射~ 2 μm充满气体的微泡,实现血管系统的高度特异性时间分辨成像。采用n -乙基-n -亚硝基脲诱导大鼠乳腺肿瘤,建立超声造影定量自动诊断乳腺肿瘤的方法。对每个肿瘤进行微泡注射,并获取至少3分钟的超声造影视频。分析感兴趣区域(ROI)内每个像素的时间强度曲线,以测量与微泡注射的冲洗、峰值增强和冲洗阶段相关的动力学参数,因为预计恶性肿瘤的异常血管性将导致比良性病变更快、更多样化的灌注动力学。采用线性判别分析对参数进行分类,以区分良恶性肿瘤,提高诊断准确率。使用小数据集(10个肿瘤,19个视频)的初步结果显示,使用少至两个选择变量进行训练和验证,通过五倍交叉验证测试,准确率达到100%。对ROI中所有像素点的增强覆盖率、分数增强覆盖次数、包络曲线差归一化到峰值帧均值的标准差等进行比较分析,得到了最能区分恶性肿瘤和良性肿瘤的几个参数。对五个变量的组合分析表明,逐像素分析为肿瘤诊断提供了最可靠的信息,并且与基于roi的分析相比,良恶性病例的分离程度提高了5倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automating tumor classification with pixel-by-pixel contrast-enhanced ultrasound perfusion kinetics.

Contrast-enhanced ultrasound (CEUS) enables highly specific time-resolved imaging of vasculature by intravenous injection of ∼2 μm gas filled microbubbles. To develop a quantitative automated diagnosis of breast tumors with CEUS, breast tumors were induced in rats by administration of N-ethyl-N-nitrosourea. A bolus injection of microbubbles was administered and CEUS videos of each tumor were acquired for at least 3 min. The time-intensity curve of each pixel within a region of interest (ROI) was analyzed to measure kinetic parameters associated with the wash-in, peak enhancement, and wash-out phases of microbubble bolus injections since it was expected that the aberrant vascularity of malignant tumors will result in faster and more diverse perfusion kinetics versus those of benign lesions. Parameters were classified using linear discriminant analysis to differentiate between benign and malignant tumors and improve diagnostic accuracy. Preliminary results with a small dataset (10 tumors, 19 videos) show 100% accuracy with fivefold cross-validation testing using as few as two choice variables for training and validation. Several of the parameters which provided the best differentiation between malignant and benign tumors employed comparative analysis of all the pixels in the ROI including enhancement coverage, fractional enhancement coverage times, and the standard deviation of the envelope curve difference normalized to the mean of the peak frame. Analysis of combinations of five variables demonstrated that pixel-by-pixel analysis produced the most robust information for tumor diagnostics and achieved 5 times greater separation of benign and malignant cases than ROI-based analysis.

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CiteScore
2.70
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