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White matter hyperintensity longitudinal morphometric analysis in association with Alzheimer disease

https://doi.org/10.1002/alz.13377

Strain, Jeremy Fuller ; Phuah, Chia‐Ling ; Adeyemo, Babatunde ; Cheng, Kathleen ; Womack, Kyle B. ; McCarthy, John ; Goyal, Manu ; Chen, Yasheng ; Sotiras, Aristeidis ; An, Hongyu ; et al ( October 2023 , Alzheimer's & Dementia)

Abstract INTRODUCTION
Vascular damage in Alzheimer's disease (AD) has shown conflicting findings particularly when analyzing longitudinal data. We introduce white matter hyperintensity (WMH) longitudinal morphometric analysis (WLMA) that quantifies WMH expansion as the distance from lesion voxels to a region of interest boundary.
METHODS
WMH segmentation maps were derived from 270 longitudinal fluid‐attenuated inversion recovery (FLAIR) ADNI images. WLMA was performed on five data‐driven WMH patterns with distinct spatial distributions. Amyloid accumulation was evaluated with WMH expansion across the five WMH patterns.
RESULTS
The preclinical group had significantly greater expansion in the posterior ventricular WM compared to controls. Amyloid significantly associated with frontal WMH expansion primarily within AD individuals. WLMA outperformed WMH volume changes for classifying AD from controls primarily in periventricular and posterior WMH.
DISCUSSION
These data support the concept that localized WMH expansion continues to proliferate with amyloid accumulation throughout the entirety of the disease in distinct spatial locations.

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Free, publicly-accessible full text available October 1, 2024
Anatomically interpretable deep learning of brain age captures domain-specific cognitive impairment

https://doi.org/10.1073/pnas.2214634120

Yin, Chenzhong ; Imms, Phoebe ; Cheng, Mingxi ; Amgalan, Anar ; Chowdhury, Nahian F. ; Massett, Roy J. ; Chaudhari, Nikhil N. ; Chen, Xinghe ; Thompson, Paul M. ; Bogdan, Paul ; et al ( January 2023 , Proceedings of the National Academy of Sciences)

The gap between chronological age (CA) and biological brain age, as estimated from magnetic resonance images (MRIs), reflects how individual patterns of neuroanatomic aging deviate from their typical trajectories. MRI-derived brain age (BA) estimates are often obtained using deep learning models that may perform relatively poorly on new data or that lack neuroanatomic interpretability. This study introduces a convolutional neural network (CNN) to estimate BA after training on the MRIs of 4,681 cognitively normal (CN) participants and testing on 1,170 CN participants from an independent sample. BA estimation errors are notably lower than those of previous studies. At both individual and cohort levels, the CNN provides detailed anatomic maps of brain aging patterns that reveal sex dimorphisms and neurocognitive trajectories in adults with mild cognitive impairment (MCI, N = 351) and Alzheimer’s disease (AD, N = 359). In individuals with MCI (54% of whom were diagnosed with dementia within 10.9 y from MRI acquisition), BA is significantly better than CA in capturing dementia symptom severity, functional disability, and executive function. Profiles of sex dimorphism and lateralization in brain aging also map onto patterns of neuroanatomic change that reflect cognitive decline. Significant associations between BA and neurocognitive measures suggest that the proposed framework can map, systematically, the relationship between aging-related neuroanatomy changes in CN individuals and in participants with MCI or AD. Early identification of such neuroanatomy changes can help to screen individuals according to their AD risk.
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Biphasic cortical macro‐ and microstructural changes in autosomal dominant Alzheimer's disease

https://doi.org/10.1002/alz.12224

Montal, Victor ; Vilaplana, Eduard ; Pegueroles, Jordi ; Bejanin, Alexandre ; Alcolea, Daniel ; Carmona‐Iragui, María ; Clarimón, Jordi ; Levin, Johannes ; Cruchaga, Carlos ; Graff‐Radford, Neill R. ; et al ( November 2020 , Alzheimer's & Dementia)

Abstract INTRODUCTION
A biphasic model for brain structural changes in preclinical Alzheimer's disease (AD) could reconcile some conflicting and paradoxical findings in observational studies and anti‐amyloid clinical trials.
METHODS
In this study we tested this model fitting linear versus quadratic trajectories and computed the timing of the inflection points vertexwise of cortical thickness and cortical diffusivity—a novel marker of cortical microstructure—changes in 389 participants from the Dominantly Inherited Alzheimer Network.
RESULTS
In early preclinical AD, between 20 and 15 years before estimated symptom onset, we found increases in cortical thickness and decreases in cortical diffusivity followed by cortical thinning and cortical diffusivity increases in later preclinical and symptomatic stages. The inflection points 16 to 19 years before estimated symptom onset are in agreement with the start of tau biomarker alterations.
DISCUSSION
These findings confirm a biphasic trajectory for brain structural changes and have direct implications when interpreting magnetic resonance imaging measures in preventive AD clinical trials.

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Predicting Short-term MCI-to-AD Progression Using Imaging, CSF, Genetic Factors, Cognitive Resilience, and Demographics

https://doi.org/10.1038/s41598-019-38793-3

Varatharajah, Yogatheesan ; Ramanan, Vijay K. ; Iyer, Ravishankar ; Vemuri, Prashanthi ; For the Alzheimer’s Disease Neuroimaging Initiative ; Weiner, Michael W. ; Aisen, Paul ; Petersen, Ronald ; Jack, Clifford R. ; Saykin, Andrew J. ; et al ( February 2019 , Scientific Reports)

Abstract
In the Alzheimer’s disease (AD) continuum, the prodromal state of mild cognitive impairment (MCI) precedes AD dementia and identifying MCI individuals at risk of progression is important for clinical management. Our goal was to develop generalizable multivariate models that integrate high-dimensional data (multimodal neuroimaging and cerebrospinal fluid biomarkers, genetic factors, and measures of cognitive resilience) for identification of MCI individuals who progress to AD within 3 years. Our main findings were i) we were able to build generalizable models with clinically relevant accuracy (~93%) for identifying MCI individuals who progress to AD within 3 years; ii) markers of AD pathophysiology (amyloid, tau, neuronal injury) accounted for large shares of the variance in predicting progression; iii) our methodology allowed us to discover that expression ofCR1(complement receptor 1), an AD susceptibility gene involved in immune pathways, uniquely added independent predictive value. This work highlights the value of optimized machine learning approaches for analyzing multimodal patient information for making predictive assessments.

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