Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box

Francesco Ciompi; Bartjan de Hoop; Sarah J van Riel; Kaman Chung; Ernst Th Scholten; Matthijs Oudkerk; Pim A de Jong; Mathias Prokop; Bram van Ginneken

doi:10.1016/j.media.2015.08.001

Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box

Francesco Ciompi, Bartjan de Hoop, Sarah J van Riel, Kaman Chung, Ernst Th Scholten, Matthijs Oudkerk, Pim A de Jong, Mathias Prokop, Bram van Ginneken

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

In this paper, we tackle the problem of automatic classification of pulmonary peri-fissural nodules (PFNs). The classification problem is formulated as a machine learning approach, where detected nodule candidates are classified as PFNs or non-PFNs. Supervised learning is used, where a classifier is trained to label the detected nodule. The classification of the nodule in 3D is formulated as an ensemble of classifiers trained to recognize PFNs based on 2D views of the nodule. In order to describe nodule morphology in 2D views, we use the output of a pre-trained convolutional neural network known as OverFeat. We compare our approach with a recently presented descriptor of pulmonary nodule morphology, namely Bag of Frequencies, and illustrate the advantages offered by the two strategies, achieving performance of AUC = 0.868, which is close to the one of human experts.

Original language	English
Pages (from-to)	195-202
Number of pages	8
Journal	Medical Image Analysis
Volume	26
Issue number	1
DOIs	https://doi.org/10.1016/j.media.2015.08.001
Publication status	Published - Dec 2015

Keywords

Chest CT
Peri-fissural nodules
Lung cancer screening
Convolutional neural networks
OverFeat
Deep learning

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10.1016/j.media.2015.08.001

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Ciompi, F., de Hoop, B., van Riel, S. J., Chung, K., Scholten, E. T., Oudkerk, M., de Jong, P. A., Prokop, M., & van Ginneken, B. (2015). Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box. Medical Image Analysis, 26(1), 195-202. https://doi.org/10.1016/j.media.2015.08.001

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title = "Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box",

abstract = "In this paper, we tackle the problem of automatic classification of pulmonary peri-fissural nodules (PFNs). The classification problem is formulated as a machine learning approach, where detected nodule candidates are classified as PFNs or non-PFNs. Supervised learning is used, where a classifier is trained to label the detected nodule. The classification of the nodule in 3D is formulated as an ensemble of classifiers trained to recognize PFNs based on 2D views of the nodule. In order to describe nodule morphology in 2D views, we use the output of a pre-trained convolutional neural network known as OverFeat. We compare our approach with a recently presented descriptor of pulmonary nodule morphology, namely Bag of Frequencies, and illustrate the advantages offered by the two strategies, achieving performance of AUC = 0.868, which is close to the one of human experts.",

keywords = "Chest CT, Peri-fissural nodules, Lung cancer screening, Convolutional neural networks, OverFeat, Deep learning",

author = "Francesco Ciompi and {de Hoop}, Bartjan and {van Riel}, {Sarah J} and Kaman Chung and Scholten, {Ernst Th} and Matthijs Oudkerk and {de Jong}, {Pim A} and Mathias Prokop and {van Ginneken}, Bram",

year = "2015",

month = dec,

doi = "10.1016/j.media.2015.08.001",

language = "English",

volume = "26",

pages = "195--202",

journal = "Medical Image Analysis",

issn = "1361-8415",

publisher = "Elsevier",

number = "1",

}

Ciompi, F, de Hoop, B, van Riel, SJ, Chung, K, Scholten, ET, Oudkerk, M, de Jong, PA, Prokop, M & van Ginneken, B 2015, 'Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box', Medical Image Analysis, vol. 26, no. 1, pp. 195-202. https://doi.org/10.1016/j.media.2015.08.001

Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box. / Ciompi, Francesco; de Hoop, Bartjan; van Riel, Sarah J et al.
In: Medical Image Analysis, Vol. 26, No. 1, 12.2015, p. 195-202.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box

AU - Ciompi, Francesco

AU - de Hoop, Bartjan

AU - van Riel, Sarah J

AU - Chung, Kaman

AU - Scholten, Ernst Th

AU - Oudkerk, Matthijs

AU - de Jong, Pim A

AU - Prokop, Mathias

AU - van Ginneken, Bram

PY - 2015/12

Y1 - 2015/12

N2 - In this paper, we tackle the problem of automatic classification of pulmonary peri-fissural nodules (PFNs). The classification problem is formulated as a machine learning approach, where detected nodule candidates are classified as PFNs or non-PFNs. Supervised learning is used, where a classifier is trained to label the detected nodule. The classification of the nodule in 3D is formulated as an ensemble of classifiers trained to recognize PFNs based on 2D views of the nodule. In order to describe nodule morphology in 2D views, we use the output of a pre-trained convolutional neural network known as OverFeat. We compare our approach with a recently presented descriptor of pulmonary nodule morphology, namely Bag of Frequencies, and illustrate the advantages offered by the two strategies, achieving performance of AUC = 0.868, which is close to the one of human experts.

AB - In this paper, we tackle the problem of automatic classification of pulmonary peri-fissural nodules (PFNs). The classification problem is formulated as a machine learning approach, where detected nodule candidates are classified as PFNs or non-PFNs. Supervised learning is used, where a classifier is trained to label the detected nodule. The classification of the nodule in 3D is formulated as an ensemble of classifiers trained to recognize PFNs based on 2D views of the nodule. In order to describe nodule morphology in 2D views, we use the output of a pre-trained convolutional neural network known as OverFeat. We compare our approach with a recently presented descriptor of pulmonary nodule morphology, namely Bag of Frequencies, and illustrate the advantages offered by the two strategies, achieving performance of AUC = 0.868, which is close to the one of human experts.

KW - Chest CT

KW - Peri-fissural nodules

KW - Lung cancer screening

KW - Convolutional neural networks

KW - OverFeat

KW - Deep learning

U2 - 10.1016/j.media.2015.08.001

DO - 10.1016/j.media.2015.08.001

M3 - Article

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SN - 1361-8415

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EP - 202

JO - Medical Image Analysis

JF - Medical Image Analysis

IS - 1

ER -

Automatic classification of pulmonary peri-fissural nodules in computed tomography using an ensemble of 2D views and a convolutional neural network out-of-the-box

Abstract

Keywords

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