An Application of Super-Resolution Generative Adversary Networks for Quasi-Static Ultrasound Strain Elastography: A Feasibility Study

He, Lianhai; Peng, Bo; Yang, Tianlan; Jiang, Jingfeng

doi:10.1109/access.2020.2984733

Cited by 9 publications

(4 citation statements)

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“…In a complementary study, He et al. ( 39 ) investigate the suitability of using a GAN-based approach (i.e., SRRFNN) to improve lateral resolution in the radiofrequency (RF) data (i.e., up-sample RF data perpendicular to acoustic beam), consequently improving the elastogram quality in ultrasound strain elastography. However, the V-EUS ( 20 ) generation approach is a preferable end-to-end solution because it generates elastograms directly from conventional B-mode US rather than upsampling the lateral resolution to improve quality.…”

Section: Literature Comparisonmentioning

confidence: 99%

“…Moreover, the authors evaluate the quality of generated elastograms based on improved breast cancer diagnostic accuracy, elastography of deep-seated tumors, and improvement in diagnostic effectiveness of pocket US, which were omitted in the evaluation of AUE-Net for the elastography of thyroid nodule. In a complementary study, He et al (39) investigate the suitability of using a GAN-based approach (i.e., SRRFNN) to improve lateral resolution in the radiofrequency (RF) data (i.e., up-sample RF data perpendicular to acoustic beam), consequently improving the elastogram quality in ultrasound strain elastography. However, the V-EUS (20) generation approach is a preferable end-to-end solution because it generates elastograms directly from conventional B-mode US rather than upsampling the lateral resolution to improve quality.…”

Section: Literature Comparisonmentioning

confidence: 99%

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Unveiling the future of breast cancer assessment: a critical review on generative adversarial networks in elastography ultrasound

Ansari,

Qaraqe,

Righetti

et al. 2023

Front. Oncol.

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Elastography Ultrasound provides elasticity information of the tissues, which is crucial for understanding the density and texture, allowing for the diagnosis of different medical conditions such as fibrosis and cancer. In the current medical imaging scenario, elastograms for B-mode Ultrasound are restricted to well-equipped hospitals, making the modality unavailable for pocket ultrasound. To highlight the recent progress in elastogram synthesis, this article performs a critical review of generative adversarial network (GAN) methodology for elastogram generation from B-mode Ultrasound images. Along with a brief overview of cutting-edge medical image synthesis, the article highlights the contribution of the GAN framework in light of its impact and thoroughly analyzes the results to validate whether the existing challenges have been effectively addressed. Specifically, This article highlights that GANs can successfully generate accurate elastograms for deep-seated breast tumors (without having artifacts) and improve diagnostic effectiveness for pocket US. Furthermore, the results of the GAN framework are thoroughly analyzed by considering the quantitative metrics, visual evaluations, and cancer diagnostic accuracy. Finally, essential unaddressed challenges that lie at the intersection of elastography and GANs are presented, and a few future directions are shared for the elastogram synthesis research.

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Section: Literature Comparisonmentioning

confidence: 99%

Section: Literature Comparisonmentioning

confidence: 99%

Unveiling the future of breast cancer assessment: a critical review on generative adversarial networks in elastography ultrasound

Ansari,

Qaraqe,

Righetti

et al. 2023

Front. Oncol.

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“…123,180 GANs have been used for super resolution in ultrasound elastography. 181 Deep learning methods also have the ability to create synthetic elastography images from ultrasound B-mode images. 83 Image fusion is another feature of deep learning, which is a future scope in ultrasound elastography by now, but is already popular for other imaging modalities.…”

Section: Limitations Being Resolved By Deep Learning Technologiesmentioning

confidence: 99%

“…Many super resolution models such as FUS‐Net are based on extensive down‐ and up‐sampling of the images 123,180 . GANs have been used for super resolution in ultrasound elastography 181 . Deep learning methods also have the ability to create synthetic elastography images from ultrasound B‐mode images 83 .…”

Section: Deep Learning Applications In Ultrasound Elastographymentioning

confidence: 99%

Deep learning in ultrasound elastography imaging: A review

Bhatt

et al. 2022

Medical Physics

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It is known that changes in the mechanical properties of tissues are associated with the onset and progression of certain diseases. Ultrasound elastography is a technique to characterize tissue stiffness using ultrasound imaging either by measuring tissue strain using quasi‐static elastography or natural organ pulsation elastography, or by tracing a propagated shear wave induced by a source or a natural vibration using dynamic elastography. In recent years, deep learning has begun to emerge in ultrasound elastography research. In this review, several common deep learning frameworks in the computer vision community, such as multilayered perceptron, convolutional neural network, and recurrent neural network, are described. Then, recent advances in ultrasound elastography using such deep learning techniques are revisited in terms of algorithm development and clinical diagnosis. Finally, the current challenges and future developments of deep learning in ultrasound elastography are prospected.

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