Academic Journal
QSMRim-Net: Imbalance-aware learning for identification of chronic active multiple sclerosis lesions on quantitative susceptibility maps
| Title: | QSMRim-Net: Imbalance-aware learning for identification of chronic active multiple sclerosis lesions on quantitative susceptibility maps |
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| Authors: | Hang Zhang, Thanh D. Nguyen, Jinwei Zhang, Melanie Marcille, Pascal Spincemaille, Yi Wang, Susan A. Gauthier, Elizabeth M. Sweeney |
| Source: | NeuroImage: Clinical, Vol 34, Iss , Pp 102979- (2022) |
| Publisher Information: | Elsevier, 2022. |
| Publication Year: | 2022 |
| Collection: | LCC:Computer applications to medicine. Medical informatics LCC:Neurology. Diseases of the nervous system |
| Subject Terms: | Multiple sclerosis, Quantitative susceptibility mapping, Chronic active lesions, Convolutional neural network, Radiomic features, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429 |
| More Details: | Background and Purpose: Chronic active multiple sclerosis (MS) lesions are characterized by a paramagnetic rim at the edge of the lesion and are associated with increased disability in patients. Quantitative susceptibility mapping (QSM) is an MRI technique that is sensitive to chronic active lesions, termed rim + lesions on the QSM. We present QSMRim-Net, a data imbalance-aware deep neural network that fuses lesion-level radiomic and convolutional image features for automated identification of rim + lesions on QSM. Methods: QSM and T2-weighted-Fluid-Attenuated Inversion Recovery (T2-FLAIR) MRI of the brain were collected at 3 T for 172 MS patients. Rim + lesions were manually annotated by two human experts, followed by consensus from a third expert, for a total of 177 rim + and 3986 rim negative (rim−) lesions. Our automated rim + detection algorithm, QSMRim-Net, consists of a two-branch feature extraction network and a synthetic minority oversampling network to classify rim + lesions. The first network branch is for image feature extraction from the QSM and T2-FLAIR, and the second network branch is a fully connected network for QSM lesion-level radiomic feature extraction. The oversampling network is designed to increase classification performance with imbalanced data. Results: On a lesion-level, in a five-fold cross validation framework, the proposed QSMRim-Net detected rim + lesions with a partial area under the receiver operating characteristic curve (pROC AUC) of 0.760, where clinically relevant false positive rates of less than 0.1 were considered. The method attained an area under the precision recall curve (PR AUC) of 0.704. QSMRim-Net out-performed other state-of-the-art methods applied to the QSM on both pROC AUC and PR AUC. On a subject-level, comparing the predicted rim + lesion count and the human expert annotated count, QSMRim-Net achieved the lowest mean square error of 0.98 and the highest correlation of 0.89 (95% CI: 0.86, 0.92). Conclusion: This study develops a novel automated deep neural network for rim + MS lesion identification using T2-FLAIR and QSM images. |
| Document Type: | article |
| File Description: | electronic resource |
| Language: | English |
| ISSN: | 2213-1582 |
| Relation: | http://www.sciencedirect.com/science/article/pii/S2213158222000444; https://doaj.org/toc/2213-1582 |
| DOI: | 10.1016/j.nicl.2022.102979 |
| Access URL: | https://doaj.org/article/d597666120be446e8da665e52b7b8ac5 |
| Accession Number: | edsdoj.597666120be446e8da665e52b7b8ac5 |
| Database: | Directory of Open Access Journals |
| ISSN: | 22131582 |
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| DOI: | 10.1016/j.nicl.2022.102979 |
| Published in: | NeuroImage: Clinical |
| Language: | English |