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Majd Zreik

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Combined analysis of coronary arteries and the left ventricular myocardium in cardiac CT angiography for detection of patients with functionally significant stenosis

Nov 10, 2019
Majd Zreik, Tim Leiner, Nadieh Khalili, Robbert W. van Hamersvelt, Jelmer M. Wolterink, Michiel Voskuil, Max A. Viergever, Ivana Išgum

Figure 1 for Combined analysis of coronary arteries and the left ventricular myocardium in cardiac CT angiography for detection of patients with functionally significant stenosis
Figure 2 for Combined analysis of coronary arteries and the left ventricular myocardium in cardiac CT angiography for detection of patients with functionally significant stenosis
Figure 3 for Combined analysis of coronary arteries and the left ventricular myocardium in cardiac CT angiography for detection of patients with functionally significant stenosis
Figure 4 for Combined analysis of coronary arteries and the left ventricular myocardium in cardiac CT angiography for detection of patients with functionally significant stenosis
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Deep learning analysis of cardiac CT angiography for detection of coronary arteries with functionally significant stenosis

Jun 11, 2019
Majd Zreik, Robbert W. van Hamersvelt, Nadieh Khalili, Jelmer M. Wolterink, Michiel Voskuil, Max A. Viergever, Tim Leiner, Ivana Išgum

Figure 1 for Deep learning analysis of cardiac CT angiography for detection of coronary arteries with functionally significant stenosis
Figure 2 for Deep learning analysis of cardiac CT angiography for detection of coronary arteries with functionally significant stenosis
Figure 3 for Deep learning analysis of cardiac CT angiography for detection of coronary arteries with functionally significant stenosis
Figure 4 for Deep learning analysis of cardiac CT angiography for detection of coronary arteries with functionally significant stenosis
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Improving Myocardium Segmentation in Cardiac CT Angiography using Spectral Information

Sep 27, 2018
Steffen Bruns, Jelmer M. Wolterink, Robbert W. van Hamersvelt, Majd Zreik, Tim Leiner, Ivana Išgum

Figure 1 for Improving Myocardium Segmentation in Cardiac CT Angiography using Spectral Information
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Figure 3 for Improving Myocardium Segmentation in Cardiac CT Angiography using Spectral Information
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A Recurrent CNN for Automatic Detection and Classification of Coronary Artery Plaque and Stenosis in Coronary CT Angiography

Aug 20, 2018
Majd Zreik, Robbert W. van Hamersvelt, Jelmer M. Wolterink, Tim Leiner, Max A. Viergever, Ivana Isgum

Figure 1 for A Recurrent CNN for Automatic Detection and Classification of Coronary Artery Plaque and Stenosis in Coronary CT Angiography
Figure 2 for A Recurrent CNN for Automatic Detection and Classification of Coronary Artery Plaque and Stenosis in Coronary CT Angiography
Figure 3 for A Recurrent CNN for Automatic Detection and Classification of Coronary Artery Plaque and Stenosis in Coronary CT Angiography
Figure 4 for A Recurrent CNN for Automatic Detection and Classification of Coronary Artery Plaque and Stenosis in Coronary CT Angiography
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Automatic calcium scoring in low-dose chest CT using deep neural networks with dilated convolutions

Feb 01, 2018
Nikolas Lessmann, Bram van Ginneken, Majd Zreik, Pim A. de Jong, Bob D. de Vos, Max A. Viergever, Ivana Išgum

Figure 1 for Automatic calcium scoring in low-dose chest CT using deep neural networks with dilated convolutions
Figure 2 for Automatic calcium scoring in low-dose chest CT using deep neural networks with dilated convolutions
Figure 3 for Automatic calcium scoring in low-dose chest CT using deep neural networks with dilated convolutions
Figure 4 for Automatic calcium scoring in low-dose chest CT using deep neural networks with dilated convolutions
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Deep learning analysis of the myocardium in coronary CT angiography for identification of patients with functionally significant coronary artery stenosis

Dec 06, 2017
Majd Zreik, Nikolas Lessmann, Robbert W. van Hamersvelt, Jelmer M. Wolterink, Michiel Voskuil, Max A. Viergever, Tim Leiner, Ivana Išgum

Figure 1 for Deep learning analysis of the myocardium in coronary CT angiography for identification of patients with functionally significant coronary artery stenosis
Figure 2 for Deep learning analysis of the myocardium in coronary CT angiography for identification of patients with functionally significant coronary artery stenosis
Figure 3 for Deep learning analysis of the myocardium in coronary CT angiography for identification of patients with functionally significant coronary artery stenosis
Figure 4 for Deep learning analysis of the myocardium in coronary CT angiography for identification of patients with functionally significant coronary artery stenosis
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Automatic Segmentation of the Left Ventricle in Cardiac CT Angiography Using Convolutional Neural Network

Apr 19, 2017
Majd Zreik, Tim Leiner, Bob D. de Vos, Robbert W. van Hamersvelt, Max A. Viergever, Ivana Isgum

Figure 1 for Automatic Segmentation of the Left Ventricle in Cardiac CT Angiography Using Convolutional Neural Network
Figure 2 for Automatic Segmentation of the Left Ventricle in Cardiac CT Angiography Using Convolutional Neural Network
Figure 3 for Automatic Segmentation of the Left Ventricle in Cardiac CT Angiography Using Convolutional Neural Network
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