The purpose of this research project is: * to use an advanced quantitative MRI technique (FBFI) to detect and quantify brain lesion in patients with FD * to use fMRI to identify altered brain function * to use FBFI and fMRI together to map altered connectivity in response to brain lesions
Fabry disease (FD) is a lysosomal storage disease caused by a deficiency in an enzyme that degrades components of the outer cell wall. A deficiency of this enzyme in humans has been associated with stroke. In males with FD, 6.9% have a stroke by 39 years of age. In females with FD, 4.3% have a stroke by 46 years of age. Magnetic resonance imaging (MRI) is the main tool for studying stroke in FD. Importantly, MRI has identified other types of lesions in the brain beyond that caused by stroke. These additional lesions may herald stroke or be a different manifestation of FD in the brain. These lesions are seen in \>50% of men and women with FD. Diffusion-based imaging MRI has been the leading approach for studying these lesions in FD. However, these lesions that appear to be specific to FD are difficult to quantify, analyze, and interpret using this and other current MRI methods. The Investigators would like to use a form of MRI called fast bound-pool fraction imaging (FBFI), which is a technique better suited to capture and quantify these lesions, to study these lesions in patients with FD. In parallel, the investigators would like to use functional MRI (fMRI) to study how these lesions alter brain function and connectivity in FD. The combination of these techniques (FBFI + fMRI) will also provide us the opportunity to study brain plasticity in response to injury as Fabry disease is slowly progressive over decades allowing the brain to remodel connections to maintain function.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
40
Use a form of MRI called fast bound-pool fraction imaging (FBFI), which is a technique better suited to capture and quantify these lesions, to study these lesions in patients with FD. In parallel, we would like to use functional MRI (fMRI) to study how these lesions alter brain function and connectivity in FD. Neuropsychological assessements will include Wechsler Adult Intelligence Scale, WAIS-III (Digit Span, Symbol-Digit/Coding, and Symbol Search), the Connors Continous Performance text (CPT-II). The Health Questionnaire form, the Center for Epidemiologic Studies Depression Scale (CES-D), the RAND 36-Item Health Survey.
University of Utah
Salt Lake City, Utah, United States
FBFI MRI using advanced MRI technique
advanced quantitative MRI technique (FBFI) to detect and quantify brain lesion in patients with FD
Time frame: 6 months after enrollment closes
Identify difference between patients with Fabry disease and healthy controls in brain function as measured and quantified by functional MRI
identify altered brain function
Time frame: 6 months after enrollment closes
use FBFI and fMRI to map
together to map altered connectivity in response to brain lesions
Time frame: 6 months after enrollment closes
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