Qiuhui Yang, Meng Wang, Weiqiang Dou, Ya Ren, Tianyu Zhang, Long Qian, Yi Xu, Kefeng Li, Mingwei Wang, Yue Sun, Zhou Liu, Tao Tan
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引用次数: 0
摘要
背景:酰胺质子转移加权(APTw)成像在乳腺癌的诊断、治疗评估和预后预测方面有着广泛的临床应用。目的:利用 APTw 成像原始图像在不同频率偏移下显示的乳腺病变及其周围腺体和脂肪组织的不同对比度,在 APTw 成像序列的原始图像上建立一个分割模型:本文提出了一个包含多个任务的网络,其中包括一个乳腺病变分割模型(任务 I),该模型结合了多幅不同频率、肿瘤与周围组织对比度不同的图像;病理任务自动分类(任务 II);以及 APTw 参数图拟合(任务 III):与 U-Net、segment anything model(SAM)、segment anything in medical images(Med-SAM)、transomer for MRI brain tumor segmentation(TransBTS)等先进的分割方法相比,我们的方法获得了更高的准确率(ACC)。此外,该模型的可解释性有助于评估不同灰度对比度的映射对分割的贡献。此外,还可以通过病理分类和参数图拟合等任务来提高分割的 ACC:结论:病理分类任务和参数拟合任务可以改善分割的 ACC。
Parameter map guided explainable segmentation framework for breast cancer using amide proton transfer weighted imaging
Background
Amide proton transfer weighted (APTw) imaging has demonstrated extensive clinical applications in diagnosing, treating evaluating, and prognosis prediction of breast cancer. There is a pressing need to automatically segment breast lesions on APTw original images to facilitate downstream quantification, which is however challenging.
Purpose
To build a segmentation model on the original images of APTw imaging sequence by leveraging the varying contrasts between breast lesions and their surrounding glandular and fat tissues displayed on the original images of APTw imaging at different frequency offsets.
Methods
This paper proposes a network with multiple tasks, including a breast lesion segmentation model (task I) incorporating multiple images at different frequencies with different contrasts between tumor and surrounding tissues, an automatic classification of pathological task (task II), and an APTw parameter map fitting (task III).
Results
Compared with these advanced segmentation methods such as U-Net, segment anything model (SAM), segment anything in medical images (Med-SAM), and transfomer for MRI brain tumor segmentation (TransBTS), our method achieves higher accuracy (ACC). Furthermore, the model's interpretability facilitates the evaluation of how maps with varying gray contrasts contribute to the segmentation. Moreover, improving the ACC of segmentation can be accomplished through tasks such as pathological classification and parametric map fitting.
Conclusions
The pathological classification task and parameter fitting task could improve the ACC of segmentation.
期刊介绍:
Medical Physics publishes original, high impact physics, imaging science, and engineering research that advances patient diagnosis and therapy through contributions in 1) Basic science developments with high potential for clinical translation 2) Clinical applications of cutting edge engineering and physics innovations 3) Broadly applicable and innovative clinical physics developments
Medical Physics is a journal of global scope and reach. By publishing in Medical Physics your research will reach an international, multidisciplinary audience including practicing medical physicists as well as physics- and engineering based translational scientists. We work closely with authors of promising articles to improve their quality.
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