Parallel transport in diffeomorphisms distinguishes the time-dependent pattern of hippocampal surface deformation due to healthy aging and the dementia of the Alzheimer's type

Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imagin...

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Published in	NeuroImage (Orlando, Fla.) Vol. 40; no. 1; pp. 68 - 76
Main Authors	Qiu, Anqi, Younes, Laurent, Miller, Michael I., Csernansky, John G.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.03.2008 Elsevier Limited
Subjects	Aged Aging - pathology Aging - physiology Algorithms Alzheimer Disease - pathology Alzheimer's disease Brain Mapping Data Interpretation, Statistical Deformation Dementia Euclidean space Female Hippocampus Hippocampus - growth & development Hippocampus - pathology Humans Hypothesis testing Image Processing, Computer-Assisted LDDMM Longitudinal Studies Magnetic Resonance Imaging Male Medical imaging Methods Normal Distribution Parallel transport Shape analysis LDDMM Shape analysis Alzheimer's disease Parallel transport Hippocampus
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Abstract	Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imaging. We used parallel transport in diffeomorphisms under the large deformation diffeomorphic metric mapping framework to translate within-subject deformation of the hippocampal surface as represented in the MR images between the two time points in a global template coordinate system. We then performed hypothesis testing on the longitudinal variation of hippocampal shape in the global template. Both subjects with early DAT and converters showed greater rates of hippocampal deformation across time than nondemented controls within every subfield of the hippocampus. In a random field analysis, inward surface deformation across time occurred in a non-uniform manner across the hippocampal surface in subjects with early DAT relative to the nondemented controls. Also, compared to the controls, the lateral aspect of the left hippocampal tail showed inward surface deformation in the converters. Using surface deformation patterns as features in a linear discriminant analysis, we were able to respectively distinguish converters and patients with early DAT from healthy nondemented controls at classification rates of 0.77 and 0.87, which were obtained in the same training set using the leave-one-out cross validation approach.
AbstractList	Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imaging. We used parallel transport in diffeomorphisms under the large deformation diffeomorphic metric mapping framework to translate within- subject deformation of the hippocampal surface as represented in the MR images between the two time points in a global template coordinate system. We then performed hypothesis testing on the longitudinal variation of hippocampal shape in the global template. Both subjects with early DAT and converters showed greater rates of hippocampal deformation across time than nondemented controls within every subfield of the hippocampus. In a random field analysis, inward surface deformation across time occurred in a non- uniform manner across the hippocampal surface in subjects with early DAT relative to the nondemented controls. Also, compared to the controls, the lateral aspect of the left hippocampal tail showed inward surface deformation in the converters. Using surface deformation patterns as features in a linear discriminant analysis, we were able to respectively distinguish converters and patients with early DAT from healthy nondemented controls at classification rates of 0.77 and 0.87, which were obtained in the same training set using the leave-one-out cross validation approach. Hippocampal surface structure was assessed at twice two years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imaging. We used parallel transport in diffeomorphisms under the large deformation diffeomorphic metric mapping framework to translate within-subject deformation of the hippocampal surface as represented in the MR images between the two time points in a global template coordinate system. We then performed hypothesis testing on the longitudinal variation of hippocampal shape in the global template. Both subjects with early DAT and converters showed greater rates of hippocampal deformation across time than nondemented controls within every subfield of the hippocampus. In a random field analysis, inward surface deformation across time occurred in a non-uniform manner across the hippocampal surface in subjects with early DAT relative to the nondemented controls. Also, compared to the controls, the lateral aspect of the left hippocampal tail showed inward surface deformation in the converters. Using surface deformation patterns as features in a linear discriminant analysis, we were able to respectively distinguish converters and patients with early DAT from healthy nondemented controls at classification rates of 0.77 and 0.87, which were obtained in the same training set using the leave-one-out cross validation approach. Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imaging. We used parallel transport in diffeomorphisms under the large deformation diffeomorphic metric mapping framework to translate within-subject deformation of the hippocampal surface as represented in the MR images between the two time points in a global template coordinate system. We then performed hypothesis testing on the longitudinal variation of hippocampal shape in the global template. Both subjects with early DAT and converters showed greater rates of hippocampal deformation across time than nondemented controls within every subfield of the hippocampus. In a random field analysis, inward surface deformation across time occurred in a non-uniform manner across the hippocampal surface in subjects with early DAT relative to the nondemented controls. Also, compared to the controls, the lateral aspect of the left hippocampal tail showed inward surface deformation in the converters. Using surface deformation patterns as features in a linear discriminant analysis, we were able to respectively distinguish converters and patients with early DAT from healthy nondemented controls at classification rates of 0.77 and 0.87, which were obtained in the same training set using the leave-one-out cross validation approach.Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type (DAT, CDR 0.5), and in 9 subjects who converted from the nondemented (CDR 0) to the demented (CDR 0.5) state using magnetic resonance (MR) imaging. We used parallel transport in diffeomorphisms under the large deformation diffeomorphic metric mapping framework to translate within-subject deformation of the hippocampal surface as represented in the MR images between the two time points in a global template coordinate system. We then performed hypothesis testing on the longitudinal variation of hippocampal shape in the global template. Both subjects with early DAT and converters showed greater rates of hippocampal deformation across time than nondemented controls within every subfield of the hippocampus. In a random field analysis, inward surface deformation across time occurred in a non-uniform manner across the hippocampal surface in subjects with early DAT relative to the nondemented controls. Also, compared to the controls, the lateral aspect of the left hippocampal tail showed inward surface deformation in the converters. Using surface deformation patterns as features in a linear discriminant analysis, we were able to respectively distinguish converters and patients with early DAT from healthy nondemented controls at classification rates of 0.77 and 0.87, which were obtained in the same training set using the leave-one-out cross validation approach.
Author	Miller, Michael I. Younes, Laurent Csernansky, John G. Qiu, Anqi
AuthorAffiliation	6 Institute for Computational Medicine, Johns Hopkins University, Baltimore, 21218 3 Department of Psychiatry, Washington University School of Medicine, St. Louis MO 63110 5 Department of Applied Mathematics and Statistics, Johns Hopkins University, Baltimore, 21218 7 Department of Biomedical Engineering, Johns Hopkins University, Baltimore, 21218 2 Center for Imaging Science, Johns Hopkins University, Baltimore, MD 21218 4 Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis MO 63110 1 Division of Bioengineering, National University of Singapore, Singapore 117574
AuthorAffiliation_xml	– name: 3 Department of Psychiatry, Washington University School of Medicine, St. Louis MO 63110 – name: 6 Institute for Computational Medicine, Johns Hopkins University, Baltimore, 21218 – name: 2 Center for Imaging Science, Johns Hopkins University, Baltimore, MD 21218 – name: 5 Department of Applied Mathematics and Statistics, Johns Hopkins University, Baltimore, 21218 – name: 7 Department of Biomedical Engineering, Johns Hopkins University, Baltimore, 21218 – name: 1 Division of Bioengineering, National University of Singapore, Singapore 117574 – name: 4 Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis MO 63110
Author_xml	– sequence: 1 givenname: Anqi surname: Qiu fullname: Qiu, Anqi email: bieqa@nus.edu.sg organization: Division of Bioengineering, National University of Singapore, 7 Engineering Drive 1, Block E3A #04-15, Singapore 117574, Singapore – sequence: 2 givenname: Laurent surname: Younes fullname: Younes, Laurent organization: Center for Imaging Science, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 3 givenname: Michael I. surname: Miller fullname: Miller, Michael I. organization: Center for Imaging Science, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 4 givenname: John G. surname: Csernansky fullname: Csernansky, John G. organization: Department of Psychiatry, Washington University School of Medicine, St. Louis, MO 63110, USA
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Snippet	Hippocampal surface structure was assessed at twice 2 years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type... Hippocampal surface structure was assessed at twice two years apart in 26 nondemented subjects (CDR 0), in 18 subjects with early dementia of Alzheimer type...
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SubjectTerms	Aged Aging - pathology Aging - physiology Algorithms Alzheimer Disease - pathology Alzheimer's disease Brain Mapping Data Interpretation, Statistical Deformation Dementia Euclidean space Female Hippocampus Hippocampus - growth & development Hippocampus - pathology Humans Hypothesis testing Image Processing, Computer-Assisted LDDMM Longitudinal Studies Magnetic Resonance Imaging Male Medical imaging Methods Normal Distribution Parallel transport Shape analysis
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Title	Parallel transport in diffeomorphisms distinguishes the time-dependent pattern of hippocampal surface deformation due to healthy aging and the dementia of the Alzheimer's type
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