Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods

Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods

The identification of bone lesions is crucial in the diagnostic assessment of multiple myeloma (MM). 68Ga-Pentixafor PET/CT can capture the abnormal molecular expression of CXCR-4 in addition to anatomical changes. However, whole-body detection of dozens of lesions on hybrid imaging is tedious and e...

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Main Authors: Lina Xu, Giles Tetteh, Jana Lipkova, Yu Zhao, Hongwei Li, Patrick Christ, Marie Piraud, Andreas Buck, Kuangyu Shi, Bjoern H. Menze
Format: Article
Language:English
Published: Hindawi-Wiley 2018-01-01
Series:Contrast Media & Molecular Imaging
Online Access:http://dx.doi.org/10.1155/2018/2391925
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spelling doaj-e3cce365710749b3ac543a5b88953cb82020-11-25T02:26:49ZengHindawi-WileyContrast Media & Molecular Imaging1555-43091555-43172018-01-01201810.1155/2018/23919252391925Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning MethodsLina Xu0Giles Tetteh1Jana Lipkova2Yu Zhao3Hongwei Li4Patrick Christ5Marie Piraud6Andreas Buck7Kuangyu Shi8Bjoern H. Menze9Department of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyDepartment of Nuclear Medicine, Universität Würzburg, Würzburg, GermanyDepartment of Nuclear Medicine, Klinikum Rechts der Isar, TU München, Munich, GermanyDepartment of Informatics, Technische Universität München, Munich, GermanyThe identification of bone lesions is crucial in the diagnostic assessment of multiple myeloma (MM). 68Ga-Pentixafor PET/CT can capture the abnormal molecular expression of CXCR-4 in addition to anatomical changes. However, whole-body detection of dozens of lesions on hybrid imaging is tedious and error prone. It is even more difficult to identify lesions with a large heterogeneity. This study employed deep learning methods to automatically combine characteristics of PET and CT for whole-body MM bone lesion detection in a 3D manner. Two convolutional neural networks (CNNs), V-Net and W-Net, were adopted to segment and detect the lesions. The feasibility of deep learning for lesion detection on 68Ga-Pentixafor PET/CT was first verified on digital phantoms generated using realistic PET simulation methods. Then the proposed methods were evaluated on real 68Ga-Pentixafor PET/CT scans of MM patients. The preliminary results showed that deep learning method can leverage multimodal information for spatial feature representation, and W-Net obtained the best result for segmentation and lesion detection. It also outperformed traditional machine learning methods such as random forest classifier (RF), k-Nearest Neighbors (k-NN), and support vector machine (SVM). The proof-of-concept study encourages further development of deep learning approach for MM lesion detection in population study.http://dx.doi.org/10.1155/2018/2391925
collection DOAJ
language English
format Article
sources DOAJ
author Lina Xu
Giles Tetteh
Jana Lipkova
Yu Zhao
Hongwei Li
Patrick Christ
Marie Piraud
Andreas Buck
Kuangyu Shi
Bjoern H. Menze
spellingShingle Lina Xu
Giles Tetteh
Jana Lipkova
Yu Zhao
Hongwei Li
Patrick Christ
Marie Piraud
Andreas Buck
Kuangyu Shi
Bjoern H. Menze
Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
Contrast Media & Molecular Imaging
author_facet Lina Xu
Giles Tetteh
Jana Lipkova
Yu Zhao
Hongwei Li
Patrick Christ
Marie Piraud
Andreas Buck
Kuangyu Shi
Bjoern H. Menze
author_sort Lina Xu
title Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
title_short Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
title_full Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
title_fullStr Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
title_full_unstemmed Automated Whole-Body Bone Lesion Detection for Multiple Myeloma on 68Ga-Pentixafor PET/CT Imaging Using Deep Learning Methods
title_sort automated whole-body bone lesion detection for multiple myeloma on 68ga-pentixafor pet/ct imaging using deep learning methods
publisher Hindawi-Wiley
series Contrast Media & Molecular Imaging
issn 1555-4309
1555-4317
publishDate 2018-01-01
description The identification of bone lesions is crucial in the diagnostic assessment of multiple myeloma (MM). 68Ga-Pentixafor PET/CT can capture the abnormal molecular expression of CXCR-4 in addition to anatomical changes. However, whole-body detection of dozens of lesions on hybrid imaging is tedious and error prone. It is even more difficult to identify lesions with a large heterogeneity. This study employed deep learning methods to automatically combine characteristics of PET and CT for whole-body MM bone lesion detection in a 3D manner. Two convolutional neural networks (CNNs), V-Net and W-Net, were adopted to segment and detect the lesions. The feasibility of deep learning for lesion detection on 68Ga-Pentixafor PET/CT was first verified on digital phantoms generated using realistic PET simulation methods. Then the proposed methods were evaluated on real 68Ga-Pentixafor PET/CT scans of MM patients. The preliminary results showed that deep learning method can leverage multimodal information for spatial feature representation, and W-Net obtained the best result for segmentation and lesion detection. It also outperformed traditional machine learning methods such as random forest classifier (RF), k-Nearest Neighbors (k-NN), and support vector machine (SVM). The proof-of-concept study encourages further development of deep learning approach for MM lesion detection in population study.
url http://dx.doi.org/10.1155/2018/2391925
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