Robust estimation of group-wise cortical correspondence with an application to macaque and human neuroimaging studies

We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging studies. The proposed method is based on our earlier template based registration that estimates a continuous, smooth deformation field via s...

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Published inFrontiers in neuroscience Vol. 9; p. 210
Main Authors Lyu, Ilwoo, Kim, Sun H., Seong, Joon-Kyung, Yoo, Sang W., Evans, Alan, Shi, Yundi, Sanchez, Mar, Niethammer, Marc, Styner, Martin A.
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 11.06.2015
Frontiers Media S.A
Subjects
Brain
Brain mapping
Cortex
cortical surface
Entropy
Entropy minimization
Group-wise registration
Information processing
Medical imaging
Monkeys & apes
Neuroimaging
Neuroscience
Population
Registration
spherical harmonics
Studies
sulcal curve
Surface Registration
United States > US
South Korea
entropy minimization
spherical harmonics
group-wise registration
cortical surface
sulcal curve
surface registration
Online AccessGet full text
ISSN1662-453X
1662-4548
1662-453X
DOI10.3389/fnins.2015.00210

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Abstract We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging studies. The proposed method is based on our earlier template based registration that estimates a continuous, smooth deformation field via sulcal curve-constrained registration employing spherical harmonic decomposition of the deformation field. This pairwise registration though results in a well-known template selection bias, which we aim to overcome here via a group-wise approach. We propose the use of an unbiased ensemble entropy minimization following the use of the pairwise registration as an initialization. An individual deformation field is then iteratively updated onto the unbiased average. For the optimization, we use metrics specific for cortical correspondence though all of these are straightforwardly extendable to the generic setting: The first focused on optimizing the correspondence of automatically extracted sulcal landmarks and the second on that of sulcal depth property maps. We further propose a robust entropy metric and a hierarchical optimization by employing spherical harmonic basis orthogonality. We also provide the detailed methodological description of both our earlier work and the proposed method with a set of experiments on a population of human and non-human primate subjects. In the experiment, we have shown that our method achieves superior results on consistency through quantitative and visual comparisons as compared to the existing methods.
AbstractList We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging studies. The proposed method is based on our earlier template based registration that estimates a continuous, smooth deformation field via sulcal curve-constrained registration employing spherical harmonic decomposition of the deformation field. This pairwise registration though results in a well-known template selection bias, which we aim to overcome here via a group-wise approach. We propose the use of an unbiased ensemble entropy minimization following the use of the pairwise registration as an initialization. An individual deformation field is then iteratively updated onto the unbiased average. For the optimization, we use metrics specific for cortical correspondence though all of these are straightforwardly extendable to the generic setting: The first focused on optimizing the correspondence of automatically extracted sulcal landmarks and the second on that of sulcal depth property maps. We further propose a robust entropy metric and a hierarchical optimization by employing spherical harmonic basis orthogonality. We also provide the detailed methodological description of both our earlier work and the proposed method with a set of experiments on a population of human and non-human primate subjects. In the experiment, we have shown that our method achieves superior results on consistency through quantitative and visual comparisons as compared to the existing methods.
We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging studies. The proposed method is based on our earlier template based registration that estimates a continuous, smooth deformation field via sulcal curve-constrained registration employing spherical harmonic decomposition of the deformation field. This pairwise registration though results in a well-known template selection bias, which we aim to overcome here via a group-wise approach. We propose the use of an unbiased ensemble entropy minimization following the use of the pairwise registration as an initialization. An individual deformation field is then iteratively updated onto the unbiased average. For the optimization, we use metrics specific for cortical correspondence though all of these are straightforwardly extendable to the generic setting: The first focused on optimizing the correspondence of automatically extracted sulcal landmarks and the second on that of sulcal depth property maps. We further propose a robust entropy metric and a hierarchical optimization by employing spherical harmonic basis orthogonality. We also provide the detailed methodological description of both our earlier work and the proposed method with a set of experiments on a population of human and non-human primate subjects. In the experiment, we have shown that our method achieves superior results on consistency through quantitative and visual comparisons as compared to the existing methods.We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging studies. The proposed method is based on our earlier template based registration that estimates a continuous, smooth deformation field via sulcal curve-constrained registration employing spherical harmonic decomposition of the deformation field. This pairwise registration though results in a well-known template selection bias, which we aim to overcome here via a group-wise approach. We propose the use of an unbiased ensemble entropy minimization following the use of the pairwise registration as an initialization. An individual deformation field is then iteratively updated onto the unbiased average. For the optimization, we use metrics specific for cortical correspondence though all of these are straightforwardly extendable to the generic setting: The first focused on optimizing the correspondence of automatically extracted sulcal landmarks and the second on that of sulcal depth property maps. We further propose a robust entropy metric and a hierarchical optimization by employing spherical harmonic basis orthogonality. We also provide the detailed methodological description of both our earlier work and the proposed method with a set of experiments on a population of human and non-human primate subjects. In the experiment, we have shown that our method achieves superior results on consistency through quantitative and visual comparisons as compared to the existing methods.
Author Evans, Alan
Sanchez, Mar
Seong, Joon-Kyung
Yoo, Sang W.
Styner, Martin A.
Lyu, Ilwoo
Shi, Yundi
Niethammer, Marc
Kim, Sun H.
AuthorAffiliation 2 Department of Psychiatry, University of North Carolina Chapel Hill, NC, USA
5 Montreal Neurological Institute, McGill University Montreal, QC, Canada
7 Biomedical Research Imaging Center, University of North Carolina Chapel Hill, NC, USA
3 Department of Biomedical Engineering, Korea University Seoul, South Korea
6 Department of Psychiatry and Behavioral Sciences, Emory University School of Medicine, Emory university Atlanta, GA, USA
1 Department of Computer Science, University of North Carolina Chapel Hill, NC, USA
4 R&D Team, Health and Medical Equipment Business, Samsung Electronics Suwon, South Korea
AuthorAffiliation_xml – name: 7 Biomedical Research Imaging Center, University of North Carolina Chapel Hill, NC, USA
– name: 5 Montreal Neurological Institute, McGill University Montreal, QC, Canada
– name: 6 Department of Psychiatry and Behavioral Sciences, Emory University School of Medicine, Emory university Atlanta, GA, USA
– name: 3 Department of Biomedical Engineering, Korea University Seoul, South Korea
– name: 1 Department of Computer Science, University of North Carolina Chapel Hill, NC, USA
– name: 4 R&D Team, Health and Medical Equipment Business, Samsung Electronics Suwon, South Korea
– name: 2 Department of Psychiatry, University of North Carolina Chapel Hill, NC, USA
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Copyright © 2015 Lyu, Kim, Seong, Yoo, Evans, Shi, Sanchez, Niethammer and Styner. 2015
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Keywords entropy minimization
spherical harmonics
group-wise registration
cortical surface
sulcal curve
surface registration
Language English
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This article was submitted to Brain Imaging Methods, a section of the journal Frontiers in Neuroscience
Edited by: John Ashburner, University College London, UK
Reviewed by: Shantanu H. Joshi, University of California at Los Angeles, USA; Moo K. Chung, University of Wisconsin-Madison, USA
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Snippet We present a novel group-wise registration method for cortical correspondence for local cortical thickness analysis in human and non-human primate neuroimaging...
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SubjectTerms Brain
Brain mapping
Cortex
cortical surface
Entropy
Entropy minimization
Group-wise registration
Information processing
Medical imaging
Monkeys & apes
Neuroimaging
Neuroscience
Population
Registration
spherical harmonics
Studies
sulcal curve
Surface Registration
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Title Robust estimation of group-wise cortical correspondence with an application to macaque and human neuroimaging studies
URI https://www.ncbi.nlm.nih.gov/pubmed/26113807
https://www.proquest.com/docview/2305106933
https://www.proquest.com/docview/1691593851
https://pubmed.ncbi.nlm.nih.gov/PMC4462677
https://doaj.org/article/92378ae082024020aa7bb0d73b11f52e
Volume 9
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