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MRI-detected white matter hyperintensities (WMH) are often recognized as markers of cerebrovascular abnormalities and an index of vascular brain injury. The literature establishes a strong link between WMH burden and cognitive decline, and suggests that the anatomical distribution of WMH mediates cognitive dysfunction. Pathological remodeling of major cerebral arteries (anterior, ACA; middle, MCA; posterior, PCA) may increase WMH burden in an arterial territory (AT)-specific manner. However, this has not been systematically studied across neurodegenerative diseases (NDDs). To address this gap, we aimed to assess WMH distribution (i) across ATs per clinical category, (ii) across clinical categories per AT, and (iii) between men and women. We also investigated the association between AT-specific WMH burden and cognition. Using two cohorts - Canadian CCNA-COMPASS-ND (N=927) and US-based NIFD (N=194) - we examined WMH distribution across ten clinical categories: cognitively unimpaired (CU), subjective cognitive decline (SCD), mild cognitive impairment (MCI), Alzheimer disease (AD), MCI and AD with high vascular injury (+V), Lewy body dementia, frontotemporal dementia, Parkinson's disease (PD), and PD with cognitive impairment or dementia. WMH masks were segmented from FLAIR MRI and mapped onto an arterial atlas. Cognitive performance was assessed using four psychometric tests evaluating reaction time and overall cognition, namely Simple Reaction Time (SRT), Choice Reaction Time (CRT), Digit Symbol Substitution Test (DSST), and Montreal Cognitive Assessment (MoCA). Statistical analyses involved linear regression models, controlling for demographic factors, with a 5% False Discovery Rate for multiple comparisons. Our transdiagnostic analysis revealed unique AT-specific WMH burden patterns. Comparisons between ACA and PCA territories revealed distinct burden patterns in clinical categories with similar whole-brain WMH burden, while the MCA territory consistently exhibited the highest burden across all categories, despite accounting for AT size. Hemispheric asymmetries were noted in seven diagnostic categories, with most showing higher WMH burden in the left MCA territory. Our results further revealed distinct AT-specific WMH patterns in diagnostic groups that are more vascular than neurodegenerative (i.e., MCI+V, AD+V). Categories often misdiagnosed in clinical practice, such as FTD and AD, displayed contrasting WMH signatures across ATs. SCD showed distinct AT-specific WMH patterns compared to CU and NDD participants. Additionally, sex-specific differences emerged in five NDDs, with varying AT effects. Importantly, AT-specific WMH burden was associated with slower processing speed in MCI (PCA) and AD (ACA, MCA). This study highlights the importance of evaluating WMH distribution through a vascular-based brain parcellation. We identified ATs with increased vulnerability to WMH accumulation across NDDs, revealing distinct WMH signatures for multiple clinical categories. In the AD continuum, these signatures correlated with cognitive impairment, underscoring the potential for vascular considerations in imaging criteria to improve diagnostic precision.
MRI-detected white matter hyperintensities (WMH) are often recognized as markers of cerebrovascular abnormalities and an index of vascular brain injury. The literature establishes a strong link between WMH burden and cognitive decline, and suggests that the anatomical distribution of WMH mediates cognitive dysfunction. Pathological remodeling of major cerebral arteries (anterior, ACA; middle, MCA; posterior, PCA) may increase WMH burden in an arterial territory (AT)-specific manner. However, this has not been systematically studied across neurodegenerative diseases (NDDs). To address this gap, we aimed to assess WMH distribution (i) across ATs per clinical category, (ii) across clinical categories per AT, and (iii) between men and women. We also investigated the association between AT-specific WMH burden and cognition. Using two cohorts - Canadian CCNA-COMPASS-ND (N=927) and US-based NIFD (N=194) - we examined WMH distribution across ten clinical categories: cognitively unimpaired (CU), subjective cognitive decline (SCD), mild cognitive impairment (MCI), Alzheimer disease (AD), MCI and AD with high vascular injury (+V), Lewy body dementia, frontotemporal dementia, Parkinson's disease (PD), and PD with cognitive impairment or dementia. WMH masks were segmented from FLAIR MRI and mapped onto an arterial atlas. Cognitive performance was assessed using four psychometric tests evaluating reaction time and overall cognition, namely Simple Reaction Time (SRT), Choice Reaction Time (CRT), Digit Symbol Substitution Test (DSST), and Montreal Cognitive Assessment (MoCA). Statistical analyses involved linear regression models, controlling for demographic factors, with a 5% False Discovery Rate for multiple comparisons. Our transdiagnostic analysis revealed unique AT-specific WMH burden patterns. Comparisons between ACA and PCA territories revealed distinct burden patterns in clinical categories with similar whole-brain WMH burden, while the MCA territory consistently exhibited the highest burden across all categories, despite accounting for AT size. Hemispheric asymmetries were noted in seven diagnostic categories, with most showing higher WMH burden in the left MCA territory. Our results further revealed distinct AT-specific WMH patterns in diagnostic groups that are more vascular than neurodegenerative (i.e., MCI+V, AD+V). Categories often misdiagnosed in clinical practice, such as FTD and AD, displayed contrasting WMH signatures across ATs. SCD showed distinct AT-specific WMH patterns compared to CU and NDD participants. Additionally, sex-specific differences emerged in five NDDs, with varying AT effects. Importantly, AT-specific WMH burden was associated with slower processing speed in MCI (PCA) and AD (ACA, MCA). This study highlights the importance of evaluating WMH distribution through a vascular-based brain parcellation. We identified ATs with increased vulnerability to WMH accumulation across NDDs, revealing distinct WMH signatures for multiple clinical categories. In the AD continuum, these signatures correlated with cognitive impairment, underscoring the potential for vascular considerations in imaging criteria to improve diagnostic precision.
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