Magnetic resonance imaging standardization for accurate grading of cerebral gliomas

Magnetic resonance imaging standardization for accurate grading of cerebral gliomas

Computer-aided diagnosis has attracted attention for the accurate grading of cerebral glioma. Most algorithms are only effective in relatively large datasets. Although multicenter data sharing is expanding, the results of cerebral glioma grading are not promising for multicenter data. Considering th...

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Bibliographic Details
Published in:Multimedia tools and applications Vol. 81; no. 29; pp. 41477 - 41496
Main Authors: Zhao, Guohua, Bai, Jie, Yang, Guan, Shi, Lei, Tao, Yongcai, Cheng, Jingliang, Lin, Yusong
Format: Journal Article
Language:English
Published: New York Springer US 01-12-2022
Springer Nature B.V
Subjects:
1181: Multimedia-based Healthcare Systems using Computational Intelligence
Algorithms
Computer Communication Networks
Computer Science
Data retrieval
Data Structures and Information Theory
Datasets
Expert systems
Glioma
Image contrast
Magnetic resonance imaging
Multimedia Information Systems
Special Purpose and Application-Based Systems
Standardization
Grid search
Histogram specification
Data standardization
Multicenter
MRI
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Summary:Computer-aided diagnosis has attracted attention for the accurate grading of cerebral glioma. Most algorithms are only effective in relatively large datasets. Although multicenter data sharing is expanding, the results of cerebral glioma grading are not promising for multicenter data. Considering that multicenter images differ in contrast, we propose an effective image standardization method to reduce the disparity in image contrast of different datasets. The method is adopted in multiple sets of comparative experiments on a public dataset (BraTS2017) and a local dataset. The classification accuracy of experimental data relative to that of multicenter data without image normalization is improved by approximately 25% on average. Results demonstrate that the proposed approach is effective in solving the image contrast disparity of multicenter data. It also addresses the challenge of limited effective sample size in accurate cerebral glioma grading. The novel image standardization technology proposed in this work is a promising solution that can be integrated into expert systems.
ISSN:1380-7501
1573-7721
DOI:10.1007/s11042-020-10487-3