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Linear-fitting-based similarity coefficient map for tissue dissimilarity analysis in T sub(2)-w magnetic resonance imaging
Similarity coefficient mapping (SCM) aims to improve the morphological evaluation of T* sub(2) weighted magnetic resonance imaging (T* sub(2)). However, how to interpret the generated SCM map is still pending. Moreover, is it probable to extract tissue dissimilarity messages based on the theory behi...
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| Published in: | Chinese physics B 2015-12, Vol.24 (12) |
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| Main Authors: | , , , , , , , |
| Format: | Article |
| Language: | English |
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| container_issue | 12 |
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| container_title | Chinese physics B |
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| creator | Yu, Shao-De Wu, Shi-Bin Wang, Hao-Yu Wei, Xin-Hua Chen, Xin Pan, Wan-Long Hu, Jiani Xie, Yao-Qin |
| description | Similarity coefficient mapping (SCM) aims to improve the morphological evaluation of T* sub(2) weighted magnetic resonance imaging (T* sub(2)). However, how to interpret the generated SCM map is still pending. Moreover, is it probable to extract tissue dissimilarity messages based on the theory behind SCM? The primary purpose of this paper is to address these two questions. First, the theory of SCM was interpreted from the perspective of linear fitting. Then, a term was embedded for tissue dissimilarity information. Finally, our method was validated with sixteen human brain image series from multi-echo T* sub(2)-w MRI. Generated maps were investigated from signal-to-noise ratio (SNR) and perceived visual quality, and then interpreted from intra- and inter-tissue intensity. Experimental results show that both perceptibility of anatomical structures and tissue contrast are improved. More importantly, tissue similarity or dissimilarity can be quantified and cross-validated from pixel intensity analysis. This method benefits image enhancement, tissue classification, malformation detection and morphological evaluation. |
| doi_str_mv | 10.1088/1674-1056/24/12/128711 |
| format | article |
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However, how to interpret the generated SCM map is still pending. Moreover, is it probable to extract tissue dissimilarity messages based on the theory behind SCM? The primary purpose of this paper is to address these two questions. First, the theory of SCM was interpreted from the perspective of linear fitting. Then, a term was embedded for tissue dissimilarity information. Finally, our method was validated with sixteen human brain image series from multi-echo T* sub(2)-w MRI. Generated maps were investigated from signal-to-noise ratio (SNR) and perceived visual quality, and then interpreted from intra- and inter-tissue intensity. Experimental results show that both perceptibility of anatomical structures and tissue contrast are improved. More importantly, tissue similarity or dissimilarity can be quantified and cross-validated from pixel intensity analysis. 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However, how to interpret the generated SCM map is still pending. Moreover, is it probable to extract tissue dissimilarity messages based on the theory behind SCM? The primary purpose of this paper is to address these two questions. First, the theory of SCM was interpreted from the perspective of linear fitting. Then, a term was embedded for tissue dissimilarity information. Finally, our method was validated with sixteen human brain image series from multi-echo T* sub(2)-w MRI. Generated maps were investigated from signal-to-noise ratio (SNR) and perceived visual quality, and then interpreted from intra- and inter-tissue intensity. Experimental results show that both perceptibility of anatomical structures and tissue contrast are improved. More importantly, tissue similarity or dissimilarity can be quantified and cross-validated from pixel intensity analysis. 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However, how to interpret the generated SCM map is still pending. Moreover, is it probable to extract tissue dissimilarity messages based on the theory behind SCM? The primary purpose of this paper is to address these two questions. First, the theory of SCM was interpreted from the perspective of linear fitting. Then, a term was embedded for tissue dissimilarity information. Finally, our method was validated with sixteen human brain image series from multi-echo T* sub(2)-w MRI. Generated maps were investigated from signal-to-noise ratio (SNR) and perceived visual quality, and then interpreted from intra- and inter-tissue intensity. Experimental results show that both perceptibility of anatomical structures and tissue contrast are improved. More importantly, tissue similarity or dissimilarity can be quantified and cross-validated from pixel intensity analysis. 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| ispartof | Chinese physics B, 2015-12, Vol.24 (12) |
| issn | 1674-1056 1741-4199 |
| language | eng |
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| source | Institute of Physics:Jisc Collections:IOP Publishing Read and Publish 2024-2025 (Reading List) |
| subjects | Brain Classification Coefficients Image enhancement Magnetic resonance imaging Messages Similarity Visual |
| title | Linear-fitting-based similarity coefficient map for tissue dissimilarity analysis in T sub(2)-w magnetic resonance imaging |
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