Reconstruction of the human cerebral cortex robust to white matter lesions: Method and validation

Navid Shiee; Pierre Louis Bazin; Jennifer L. Cuzzocreo; Chuyang Ye; Bhaskar Kishore; Aaron Carass; Peter A. Calabresi; Daniel S. Reich; Jerry L. Prince; Dzung L. Pham

doi:10.1002/hbm.22409

Reconstruction of the human cerebral cortex robust to white matter lesions: Method and validation

Navid Shiee^*, Pierre Louis Bazin, Jennifer L. Cuzzocreo, Chuyang Ye, Bhaskar Kishore, Aaron Carass, Peter A. Calabresi, Daniel S. Reich, Jerry L. Prince, Dzung L. Pham

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

Cortical atrophy has been reported in a number of diseases, such as multiple sclerosis and Alzheimer's disease, that are also associated with white matter (WM) lesions. However, most cortical reconstruction techniques do not account for these pathologies, thereby requiring additional processing to correct for the effect of WM lesions. In this work, we introduce CRUISE⁺, an automated process for cortical reconstruction from magnetic resonance brain images with WM lesions. The process extends previously well validated methods to allow for multichannel input images and to accommodate for the presence of WM lesions. We provide new validation data and tools for measuring the accuracy of cortical reconstruction methods on healthy brains as well as brains with multiple sclerosis lesions. Using this data, we validate the accuracy of CRUISE⁺ and compare it to another state-of-the-art cortical reconstruction tool. Our results demonstrate that CRUISE⁺ has superior performance in the cortical regions near WM lesions, and similar performance in other regions. Hum Brain Mapp 35:3385-3401, 2014.

Original language	English
Pages (from-to)	3385-3401
Number of pages	17
Journal	Human Brain Mapping
Volume	35
Issue number	7
DOIs	https://doi.org/10.1002/hbm.22409
Publication status	Published - Jul 2014
Externally published	Yes

Keywords

Cortical reconstruction
Cortical thickness
Lesion segmentation
Multiple sclerosis
WM lesions

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10.1002/hbm.22409

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title = "Reconstruction of the human cerebral cortex robust to white matter lesions: Method and validation",

abstract = "Cortical atrophy has been reported in a number of diseases, such as multiple sclerosis and Alzheimer's disease, that are also associated with white matter (WM) lesions. However, most cortical reconstruction techniques do not account for these pathologies, thereby requiring additional processing to correct for the effect of WM lesions. In this work, we introduce CRUISE+, an automated process for cortical reconstruction from magnetic resonance brain images with WM lesions. The process extends previously well validated methods to allow for multichannel input images and to accommodate for the presence of WM lesions. We provide new validation data and tools for measuring the accuracy of cortical reconstruction methods on healthy brains as well as brains with multiple sclerosis lesions. Using this data, we validate the accuracy of CRUISE+ and compare it to another state-of-the-art cortical reconstruction tool. Our results demonstrate that CRUISE+ has superior performance in the cortical regions near WM lesions, and similar performance in other regions. Hum Brain Mapp 35:3385-3401, 2014.",

keywords = "Cortical reconstruction, Cortical thickness, Lesion segmentation, Multiple sclerosis, WM lesions",

author = "Navid Shiee and Bazin, {Pierre Louis} and Cuzzocreo, {Jennifer L.} and Chuyang Ye and Bhaskar Kishore and Aaron Carass and Calabresi, {Peter A.} and Reich, {Daniel S.} and Prince, {Jerry L.} and Pham, {Dzung L.}",

year = "2014",

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AU - Shiee, Navid

AU - Bazin, Pierre Louis

AU - Cuzzocreo, Jennifer L.

AU - Ye, Chuyang

AU - Kishore, Bhaskar

AU - Carass, Aaron

AU - Calabresi, Peter A.

AU - Reich, Daniel S.

AU - Prince, Jerry L.

AU - Pham, Dzung L.

PY - 2014/7

Y1 - 2014/7

N2 - Cortical atrophy has been reported in a number of diseases, such as multiple sclerosis and Alzheimer's disease, that are also associated with white matter (WM) lesions. However, most cortical reconstruction techniques do not account for these pathologies, thereby requiring additional processing to correct for the effect of WM lesions. In this work, we introduce CRUISE+, an automated process for cortical reconstruction from magnetic resonance brain images with WM lesions. The process extends previously well validated methods to allow for multichannel input images and to accommodate for the presence of WM lesions. We provide new validation data and tools for measuring the accuracy of cortical reconstruction methods on healthy brains as well as brains with multiple sclerosis lesions. Using this data, we validate the accuracy of CRUISE+ and compare it to another state-of-the-art cortical reconstruction tool. Our results demonstrate that CRUISE+ has superior performance in the cortical regions near WM lesions, and similar performance in other regions. Hum Brain Mapp 35:3385-3401, 2014.

AB - Cortical atrophy has been reported in a number of diseases, such as multiple sclerosis and Alzheimer's disease, that are also associated with white matter (WM) lesions. However, most cortical reconstruction techniques do not account for these pathologies, thereby requiring additional processing to correct for the effect of WM lesions. In this work, we introduce CRUISE+, an automated process for cortical reconstruction from magnetic resonance brain images with WM lesions. The process extends previously well validated methods to allow for multichannel input images and to accommodate for the presence of WM lesions. We provide new validation data and tools for measuring the accuracy of cortical reconstruction methods on healthy brains as well as brains with multiple sclerosis lesions. Using this data, we validate the accuracy of CRUISE+ and compare it to another state-of-the-art cortical reconstruction tool. Our results demonstrate that CRUISE+ has superior performance in the cortical regions near WM lesions, and similar performance in other regions. Hum Brain Mapp 35:3385-3401, 2014.

KW - Cortical reconstruction

KW - Cortical thickness

KW - Lesion segmentation

KW - Multiple sclerosis

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Reconstruction of the human cerebral cortex robust to white matter lesions: Method and validation

Abstract

Keywords

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