Review

. 2018 Sep;91(1089):20170545.

doi: 10.1259/bjr.20170545. Epub 2018 Apr 10.

Deep learning beyond cats and dogs: recent advances in diagnosing breast cancer with deep neural networks

Jeremy R Burt^{1

2}, Neslisah Torosdagli², Naji Khosravan², Harish RaviPrakash², Aliasghar Mortazi², Fiona Tissavirasingham¹, Sarfaraz Hussein², Ulas Bagci²

Affiliations

¹ 1 Department of Radiology, Florida Hospital , Orlando, FL , USA.
² 2 Department of Computer Science, Center for Research in Computer Vision, University of Central Florida (UCF) , Orlando, FL , USA.

PMID: 29565644
PMCID: PMC6223155
DOI: 10.1259/bjr.20170545

Review

Deep learning beyond cats and dogs: recent advances in diagnosing breast cancer with deep neural networks

Jeremy R Burt et al. Br J Radiol. 2018 Sep.

. 2018 Sep;91(1089):20170545.

doi: 10.1259/bjr.20170545. Epub 2018 Apr 10.

Authors

Jeremy R Burt^{1

2}, Neslisah Torosdagli², Naji Khosravan², Harish RaviPrakash², Aliasghar Mortazi², Fiona Tissavirasingham¹, Sarfaraz Hussein², Ulas Bagci²

Affiliations

¹ 1 Department of Radiology, Florida Hospital , Orlando, FL , USA.
² 2 Department of Computer Science, Center for Research in Computer Vision, University of Central Florida (UCF) , Orlando, FL , USA.

PMID: 29565644
PMCID: PMC6223155
DOI: 10.1259/bjr.20170545

Abstract

Deep learning has demonstrated tremendous revolutionary changes in the computing industry and its effects in radiology and imaging sciences have begun to dramatically change screening paradigms. Specifically, these advances have influenced the development of computer-aided detection and diagnosis (CAD) systems. These technologies have long been thought of as "second-opinion" tools for radiologists and clinicians. However, with significant improvements in deep neural networks, the diagnostic capabilities of learning algorithms are approaching levels of human expertise (radiologists, clinicians etc.), shifting the CAD paradigm from a "second opinion" tool to a more collaborative utility. This paper reviews recently developed CAD systems based on deep learning technologies for breast cancer diagnosis, explains their superiorities with respect to previously established systems, defines the methodologies behind the improved achievements including algorithmic developments, and describes remaining challenges in breast cancer screening and diagnosis. We also discuss possible future directions for new CAD models that continue to change as artificial intelligence algorithms evolve.

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Figures

**Figure 1.**
Comparison of conventional machine learning approach vs deep learning based approaches. ROI, Region of interest.

**Figure 2.**
Statistical distribution of 28 deep learning papers selected for this review. The distribution regarding imaging modalities (a), year of publication (b), deep learning applications (c), and type of publication (d) are shown.

**Figure 3.**
The connection between convolutional networks and the recognition pathway of the human visual cortex is illustrated. The recognition pathway in the visual cortex has multiple relays of information processing: retina, LGN, V1, V2, V4, PIT, AIT. Similarly, these relays of processing are represented in convolutional neural network layers. DoG, difference of Gaussians; LGN, lateral geniculate nucleus; LN, convolution—batch-normalization—RELU—max-pooling; RGC, retinal ganglion cell; T(*), transformation.

See this image and copyright information in PMC

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Deep learning beyond cats and dogs: recent advances in diagnosing breast cancer with deep neural networks

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Deep learning beyond cats and dogs: recent advances in diagnosing breast cancer with deep neural networks

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