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Structural covariance of superficial white matter in mild Alzheimer's disease compared to normal aging

Carmeli, C ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1002/brb3.252
  3. Abstract:
  4. Introduction: Interindividual variations in regional structural properties covary across the brain, thus forming networks that change as a result of aging and accompanying neurological conditions. The alterations of superficial white matter (SWM) in Alzheimer's disease (AD) are of special interest, since they follow the AD-specific pattern characterized by the strongest neurodegeneration of the medial temporal lobe and association cortices. Methods: Here, we present an SWM network analysis in comparison with SWM topography based on the myelin content quantified with magnetization transfer ratio (MTR) for 39 areas in each hemisphere in 15 AD patients and 15 controls. The networks are represented by graphs, in which nodes correspond to the areas, and edges denote statistical associations between them. Results: In both groups, the networks were characterized by asymmetrically distributed edges (predominantly in the left hemisphere). The AD-related differences were also leftward. The edges lost due to AD tended to connect nodes in the temporal lobe to other lobes or nodes within or between the latter lobes. The newly gained edges were mostly confined to the temporal and paralimbic regions, which manifest demyelination of SWM already in mild AD. Conclusion: This pattern suggests that the AD pathological process coordinates SWM demyelination in the temporal and paralimbic regions, but not elsewhere. A comparison of the MTR maps with MTR-based networks shows that although, in general, the changes in network architecture in AD recapitulate the topography of (de)myelination, some aspects of structural covariance (including the interhemispheric asymmetry of networks) have no immediate reflection in the myelination pattern. The network model of superficial WM myelination in healthy subjects and in patients with Alzheimer's disease (AD) shows that (1) regional covariance is predominant in the left hemisphere in both groups; (2) AD pathology coordinates demyelination in the temporal and paralimbic regions; (3) demyelination of other regions in AD is accompanied by their decreased covariance. Myelination topography and the network model complementarily describe the AD process
  5. Keywords:
  6. Connectivity ; Graph theory ; Interhemispheric asymmetry ; Magnetization transfer imaging ; U-fibers
  7. Source: Brain and Behavior ; Vol. 4, issue. 5 , September , 2014 , p. 721-737
  8. URL: http://onlinelibrary.wiley.com/doi/10.1002/brb3.252/full