Despite growing interest in cerebral small vessel diseases (SVD) such as cerebral amyloid angiopathy (CAA), no effective disease-modifying treatment to prevent SVD- related vascular cognitive impairment (VCI) has been identified. We propose to use novel MRI-based analyses of subjects with advanced CAA to test the hypotheses that SVD-related neurologic dysfunction represents the sum of many pathologically heterogeneous, anatomically distributed, and often undetectably small lesions, and that the collective effect of these brain injuries is best measured at the larger scale of whole- brain structure and connectivity. Three complementary quantitative measures of large- scale cortical structure and connectivity will be evaluated: high-resolution T1 mapping of cortical gray and subcortical white matter tissue by multi-echo multi-flip angle FLASH sequences, structural connectivity by diffusion-tensor imaging-based network methods and functional connectivity by resting-state functional MRI methods. Specific experiments will analyze differences in these three measures between 60 non demented CAA subjects and 30 healthy elderly controls (SA1a), and within the 60 CAA subjects, the relationships of the three measures with each other (SA1b), with defined focal lesion types such as microbleeds, white matter hyperintensities, and foci of amyloid deposition on amyloid PET imaging (SA2), and with clinically meaningful cognitive and gait outcomes (SA3). Each analysis of CAA subjects will be performed globally in the brain as a whole, locally in individual brain regions, and longitudinally across time points, and each will control for accompanying Alzheimer Disease pathology by tau PET imaging. The proposed experiments build on the PI's ground-breaking success in establishing CAA as a disease that can be diagnosed and analyzed during life, his highly productive record of influential publications in the field (including 20 published/in-press original reports over the fist 3.5 years of the current funding cycle), and strong preliminary data supporting the feasibility and promise of the proposed neuroimaging methods. The impact of the proposed studies will be further leveraged by comparison to harmonized studies performed in a hereditary CAA cohort and a non-CAA sporadic SVD/VCI cohort and by extension of the in vivo results to separately proposed ex vivo imaging and histologic examination. Successful completion of these aims has very high potential for identifying biological mechanisms linking SVD to clinically meaningful neurologic dysfunction and directly translating to efficient clinical trials of candidate SVD treatments.

Public Health Relevance

We propose to use novel MRI-based methods to determine how the small injuries to the brain from diseases of the small blood vessels interact to produce impairments in important brain functions such as memory, information processing speed, executive function, and walking ability. These studies of large-scale properties of brain structure and connectivity will be performed in individuals with cerebral amyloid angiopathy, a currently untreatable age-related degenerative condition of the small blood vessels in the brain that occurs in a substantial proportion of older people. These studies will create a strong foundation both for understanding the links between small brain injuries and impaired brain function and for efficient drug trials aimed at preventing disability in our aging population.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
5R01AG026484-15
Application #
9644971
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Hsiao, John
Project Start
2005-09-15
Project End
2021-02-28
Budget Start
2019-03-01
Budget End
2021-02-28
Support Year
15
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02114
Jacobs, Heidi I L; Hedden, Trey; Schultz, Aaron P et al. (2018) Structural tract alterations predict downstream tau accumulation in amyloid-positive older individuals. Nat Neurosci 21:424-431
Murphy, Meredith P; Kuramatsu, Joji B; Leasure, Audrey et al. (2018) Cardioembolic Stroke Risk and Recovery After Anticoagulation-Related Intracerebral Hemorrhage. Stroke 49:2652-2658
Marini, Sandro; Morotti, Andrea; Lena, Umme K et al. (2018) Men Experience Higher Risk of Pneumonia and Death After Intracerebral Hemorrhage. Neurocrit Care 28:77-82
Greenberg, Steven M; Charidimou, Andreas (2018) Diagnosis of Cerebral Amyloid Angiopathy: Evolution of the Boston Criteria. Stroke 49:491-497
Pasi, Marco; Marini, Sandro; Morotti, Andrea et al. (2018) Cerebellar Hematoma Location: Implications for the Underlying Microangiopathy. Stroke 49:207-210
Xiong, Li; van Veluw, Susanne J; Bounemia, Narimene et al. (2018) Cerebral Cortical Microinfarcts on Magnetic Resonance Imaging and Their Association With Cognition in Cerebral Amyloid Angiopathy. Stroke 49:2330-2336
Buckley, Rachel F; Mormino, Elizabeth C; Amariglio, Rebecca E et al. (2018) Sex, amyloid, and APOE ?4 and risk of cognitive decline in preclinical Alzheimer's disease: Findings from three well-characterized cohorts. Alzheimers Dement 14:1193-1203
Martinez-Ramirez, Sergi; van Rooden, Sanneke; Charidimou, Andreas et al. (2018) Perivascular Spaces Volume in Sporadic and Hereditary (Dutch-Type) Cerebral Amyloid Angiopathy. Stroke 49:1913-1919
Charidimou, Andreas; Boulouis, Gregoire; Roongpiboonsopit, Duangnapa et al. (2017) Cortical superficial siderosis multifocality in cerebral amyloid angiopathy: A prospective study. Neurology 89:2128-2135
Reijmer, Yael D; Fotiadis, Panagiotis; Charidimou, Andreas et al. (2017) Relationship between white matter connectivity loss and cortical thinning in cerebral amyloid angiopathy. Hum Brain Mapp :

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