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Title Page
Abstract
Contents
Chapter 1. Introduction 10
1.1. Motivation 10
1.2. Definition 11
1.2.1. Problem Definition 11
1.2.2. Terminology 13
1.3. Contributions 14
Chapter 2. Related Works 15
Chapter 3. Methods 21
3.1. Materials and Image Preprocessing 21
3.2. Differential Trajectory Model 23
3.3. Time-varying Brain Network 29
Chapter 4. Experiments 34
4.1. Differential Trajectory 34
4.1.1. Regional Cortical Thinning Patterns 34
4.1.2. Comparison with Cross-sectional and Atrophy Rate Analysis 42
4.1.3. Correlation Analysis with Neuropsychological Performances 46
4.1.4. Longitudinal Subcortical Volume Trajectory 50
4.2. Time-varying Brain Network 52
4.2.1. Longitudinal Comparison 52
4.2.2. Topological Properties 55
Chapter 5. Discussion 59
Chapter 6. Conclusions 72
Bibliography 74
Figure 2.1: Conceptual diagram showing the relationship between the pro-... 18
Figure 3.1: Conceptual diagrams of hypotheses in cortical thinning trajecto-... 26
Figure 4.1: Regional cortical thinning trajectory of MCIc (a) and MCInc... 35
Figure 4.2: Regional cortical thinning trajectory of MCIc (a) and MCInc (c). 39
Figure 4.3: Regional cortical thinning trajectory of females (a, c) and males... 40
Figure 4.4: Comparison to cross-sectional analysis and atrophy-rate analy-... 45
Figure 4.5: Correlational analysis with neuropsychological performances. 48
Figure 4.6: Longitudinal subcortical volume trajectories of MCIc (a) and... 51
Figure 4.7: Degree distribution with hub regions from similarity measure. 54
Figure 4.8: Network measures: Five network summary measures for MCIc... 56
Figure 4.9: Average regional specificity for the left hemisphere of MCInc... 58
Figure 5.1: Representative regions showing conflicting cortical thinning tra-... 61
Figure 5.2: Regional cortical thinning trajectory of MCIc (a,c) and MCInc... 65
초록보기
Alzheimer's disease (AD) is the most common cause of dementia in elderly pa-tients. The dynamics of the cortical thinning driven by AD are hypothesized to follow sigmoid trajectories, i.e., the rate of tissue loss first accelerates, then re-mains constant, and finally decelerates. Herein, a method is proposed to identify a trajectory model that best describes regional cortical thinning pattern over time and is applied to patients with mild cognitive impairment (MCI) to compare be-tween MCI converters (MCIc, n=103) and non-converters (MCInc, n=107). The left supramarginal gyrus, the bilateral medial and lateral temporal lobes, conflict-ing trajectories between groups are observed. Representative trajectories are U-shaped quadratic (decelerating pattern) in MCIc and inverted U-shaped quadratic trajectory (accelerating pattern) in MCInc, possibly reflecting a more advanced stage of neurodegeneration in MCIc. Within the 2-year study period, the cortical atrophy rate of MCIc in regions with conflicting trajectories are significantly faster than that of MCInc in year 0-1, whereas it is not significantly different in year 1-2, indicating that the cortical atrophy rate should be interpreted in the context of the overall cortical trajectories. Second, in the subcortical atrophy, the bilateral caudate and left hippocampus and right putamen have conflicting trajectories be-tween MCIc and MCInc. The trajectory analysis presents distinguishable regions with false discovery compared to previous works. Third, time-varying network is analyzed using a proposed network similarity measure based on modified Haus-dorff distance and its magnitude. Longitudinal pattern in network-level properties also differentiates MCIc from MCInc. Bilateral banks of the superior temporal sul-cus, inferior parietal and caudal middle frontal gyrus, left middle temporal, and right pars opercularis are identified as hub nodes related to AD. Time-varying network measures distinguish between MCIc and MCInc, which also verifies the hypothetical sigmoid model of disease progression. These methods may be useful in predicting the future course of patients with MCI.
참고문헌 (121건) : 자료제공( 네이버학술정보 )
| 번호 | 참고문헌 | 국회도서관 소장유무 |
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| 4 | Mixed brain pathologies account for most dementia cases in community-dwelling older persons. |
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| 5 | Relationships between biomarkers in aging and dementia. |
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| 6 | MRI and CSF biomarkers in normal, MCI, and AD subjects: diagnostic discrimination and cognitive correlations. |
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| 7 | Hypothetical model of dynamic biomarkers of the Alzheimer's pathological cascade |
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| 9 | Mild cognitive impairment: clinical characterization and outcome. |
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| 10 | Progression of mild cognitive impairment to dementia in clinic- vs community-based cohorts. |
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| 11 | Mild Cognitive Impairment. |
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| 12 | Identification of conversion from mild cognitive impairment to Alzheimer's disease using multivariate predictors. |
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| 13 | Network-level analysis of cortical thickness of the epileptic brain |
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| 14 | Thinning of the cerebral cortex in aging. |
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| 15 | Dementia epidemiology |
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| 18 | In vivo mapping of incremental cortical atrophy from incipient to overt Alzheimer’s disease |
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| 19 | The dynamics of cortical and hippocampal atrophy in Alzheimer disease. |
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| 20 | 3D maps from multiple MRI illustrate changing atrophy patterns as subjects progress from mild cognitive impairment to Alzheimer's disease |
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| 21 | Mild cognitive impairment |
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| 22 | Longitudinal changes in cortical thickness associated with normal aging |
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| 23 | Longitudinal changes in cortical thickness in autism and typical development |
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| 24 | Differential longitudinal changes in cortical thickness, surface area and volume across the adult life span: regions of accelerating and decelerating change. |
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| 25 | Regional rates of neocortical atrophy from normal aging to early Alzheimer disease. |
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| 26 | Mapping gray matter loss with voxel-based morphometry in mild cognitive impairment |
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| 27 | Longitudinal MRI atrophy biomarkers: Relationship to conversion in the ADNI cohort |
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| 28 | Comparison of different MRI brain atrophy rate measures with clinical disease progression in AD. |
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| 29 | Rate of medial temporal lobe atrophy in typical aging and Alzheimer's disease. |
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| 30 | Cerebral atrophy in mild cognitive impairment and Alzheimer disease: rates and acceleration. |
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| 31 | Atrophy rates accelerate in amnestic mild cognitive impairment. |
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| 32 | Atrophy accelerates with conversion from mild cognitive impairment to Alzheimer disease. |
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| 39 | Small-world anatomical networks in the human brain revealed by cortical thickness from MRI. |
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| 40 | Mapping Human Whole-Brain Structural Networks with Diffusion MRI |
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| 45 | A longitudinal study of structural brain network changes with normal aging. |
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| 46 | Mapping the structural core of human cerebral cortex. |
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| 119 | A comprehensive study of gray matter loss in patients with Alzheimer’s disease using optimized voxel-based morphometry |
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| 120 | Using voxel-based morphometry to map the structural changes associated with rapid conversion in MCI: A longitudinal MRI study |
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| 121 | Atrophy of medial temporal lobes on MRI in ``probable'' Alzheimer's disease and normal ageing: diagnostic value and neuropsychological correlates |
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