The original theory offered by Braak & Braak (1991)?that neurofibrillary tangle pathology proceeds along well- defined predilection sites beginning in the medial temporal cortex?has been modified by the same author to suggest that the pathologic process instead commences in the lower brainstem (Braak et al. 2011). The first visible pathologic changes are now thought to occur in the locus coeruleus (LC) and then spread via its axonal projections to transentorhinal/entorhinal cortex (TEC). We propose to study LC change using a novel computational morphology method, combined with novel methods of measuring white matter microstructural tractography and functional connectivity to TEC. These new methods are designed to overcome major limitations in current neuro-MRI analysis methods that limit the ability to detect subtle structural and functional changes associated with early AD. Such alterations across the aging-MCI-AD continuum, as well as in those cognitively normal individuals with risk factors for AD (e.g., CSF AD biomarkers; apolipoprotein E ?4 carriers), would provide significant advances in our understanding of the pathogenesis of AD across clinical transition points and perhaps during this `silent' period (i.e., prior to the occurrence of traditional AD biomarker positivities). Using our newly developed diagnostic and MRI metrics, we propose to quantify variations in LC morphology and its projections to TEC (termed the LC-TEC system).
Aim 1. Examine locus coeruleus morphology, contrast, and associated cortical thickness. In this supplement, we propose to augment the structural morphology estimates with our newly developed Joint Estimation Diffusion (JEDI) method (Frank et al., 2020) to provide improved sensitivity to the assessment of gray matter (GM) tissue characteristics. We hypothesize that this greater sensitivity will produce greater distinctions in LC morphology, contrast and associated cortical thickness?particularly in vulnerable TEC and hippocampal regions?along the aging-MCI-AD continuum.
Aim 2. Examine structural connectivity of the LC-TEC system. In this supplement, we propose to augment the diffusion analysis with our newly developed JEDI method that provides sensitivity to sub-voxel (microscopic) diffusion anisotropy, facilitating assessment of GM tissue status, and improving anisotropy estimates in white matter (WM). We hypothesize that this greater sensitivity will produce more accurate estimates of structural connectivity derived from the local anisotropy measures in the LC-TEC system.
Aim 3. Examine functional connectivity of the LC-TEC system.In this supplement, we propose to supplement the functional modes and connectivity estimates with functional tractography augmented by averaged structural GM/WM tissue constraints derived from our JEDI method to provide improved sensitivity to the assessment of functional modes and connectivity. We hypothesize that this greater sensitivity will produce better clustering of abnormal functional modes and greater distinctions in connectivity patterns for the aging-MCI-AD continuum.
We are entering a new era of research and clinical activity that will increasingly focus on the role of biomarkers in Alzheimer's disease (AD) detection, diagnosis, and clinical outcome. Braak et al. (2011) have modified their longstanding theory of AD pathogenesis to suggest that the first visible pathologic changes occur in the locus coeruleus (LC) and then spread via its axonal projections to transentorhinal/entorhinal cortex (TEC), and we propose to employ a novel morphological analysis method to study whether LC changes, combined with novel methods of measuring white matter microstructural tractography and functional connectivity to TEC, are demonstrable in the earliest stages of AD. Such alterations across the aging-MCI-AD continuum, as well as in those cognitively normal individuals with risk factors for AD (e.g., CSF AD biomarkers; apolipoprotein E ?4 carriers), would provide significant advances in our understanding of the pathogenesis of AD across clinical transition points and perhaps during this `silent' period (i.e., prior to the occurrence of traditional AD biomarker positivities).
| Berry, David B; Regner, Benjamin; Galinsky, Vitaly et al. (2018) Relationships between tissue microstructure and the diffusion tensor in simulated skeletal muscle. Magn Reson Med 80:317-329 |
