Binjie Qin scite author profile

Ultrasound imaging is a commonly used modality for breast cancer detection and diagnosis. In this review, we summarize ultrasound imaging technologies and their clinical applications for the management of breast cancer patients. The technologies include ultrasound elastography, contrast-enhanced ultrasound, 3-D ultrasound, automatic breast ultrasound and computer-aided detection of breast ultrasound. We summarize the study results seen in the literature and discuss their future directions. We also provide a review of ultrasound-guided, breast biopsy and the fusion of ultrasound with other imaging modalities, especially magnetic resonance imaging (MRI). For comparison, we also discuss the diagnostic performance of mammography, MRI, positron emission tomography and computed tomography for breast cancer diagnosis at the end of this review. New ultrasound imaging techniques, ultrasound-guided biopsy and the fusion of ultrasound with other modalities provide important tools for the management of breast patients.

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Detail-Preserving Image Denoising via Adaptive Clustering and Progressive PCA Thresholding

Zhao

Liu

et al. 2018

IEEE Access

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Extracting contrast-filled vessels in X-ray angiography by graduated RPCA with motion coherency constraint

Jin

Jian

et al. 2017

Pattern Recognition

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Phase Asymmetry Ultrasound Despeckling With Fractional Anisotropic Diffusion and Total Variation

Mei

Fei

et al. 2020

IEEE Trans. on Image Process.

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Accurate vessel extraction via tensor completion of background layer in X-ray coronary angiograms

Qin

Jin

Hao

et al. 2019

Pattern Recognition

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This paper proposes an effective method for accurately recovering vessel structures and intensity information from the X-ray coronary angiography (XCA) images of moving organs or tissues. Specifically, a global logarithm transformation of XCA images is implemented to fit the X-ray attenuation sum model of vessel/background layers into a low-rank, sparse decomposition model for vessel/background separation. The contrast-filled vessel structures are extracted by distinguishing the vessels from the low-rank backgrounds by using a robust principal component analysis and by constructing a vessel mask via Radon-like feature filtering plus spatially adaptive thresholding. Subsequently, the low-rankness and inter-frame spatio-temporal connectivity in the complex and noisy backgrounds are used to recover the vessel-masked background regions using tensor completion of all other background regions, while the twist tensor nuclear norm is minimized to complete the background layers. Finally, the method is able to accurately extract vessels’ intensities from the noisy XCA data by subtracting the completed background layers from the overall XCA images. We evaluated the vessel visibility of resulting images on real X-ray angiography data and evaluated the accuracy of vessel intensity recovery on synthetic data. Experiment results show the superiority of the proposed method over the state-of-the-art methods.

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Binjie Qin

Ultrasound Imaging Technologies for Breast Cancer Detection and Management: A Review

Detail-Preserving Image Denoising via Adaptive Clustering and Progressive PCA Thresholding

Extracting contrast-filled vessels in X-ray angiography by graduated RPCA with motion coherency constraint

Phase Asymmetry Ultrasound Despeckling With Fractional Anisotropic Diffusion and Total Variation

Accurate vessel extraction via tensor completion of background layer in X-ray coronary angiograms

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