Cerebral Hemorrhage Clinical Trial
Official title:
Blood-Brain Barrier Permeability Quantification in Cerebral Small Vessel Disease -- Reproducibility of Dynamic Contrast-enhanced MRI
Cerebral small vessel disease (cSVD) encompasses all pathological processes that affect the
small vessels of the brain. On brain-MRI cSVD is characterized by structural brain
abnormalities such as white matter lesions (WMLs). Clinically, cSVD is related to acute
syndromes as lacunar stroke but also to more chronic health problems such as cognitive
decline. Recent literature suggests that a disrupted blood brain barrier (BBB), leading to
elevated BBB permeability, may play a pivotal role in the aetiology of cSVD and lacunar
stroke. The BBB is a complex system of neuronal, glial and vascular cells which main
function is to shield the brain from toxic components and regulate the homeostasis.
Elucidating the role of the BBB may have far reaching consequences for the treatment of cSVD
patients and the reduction of recurrence rate of the disease. This could lead to a better
quality of life among cSVD patients and reduce the economic burden on society. Currently the
exact contribution and extent of a possibly defective BBB in cSVD remains largely unclear,
due to the lack of a reliable method to accurately quantify the BBB permeability in cSVD
patients. As a result, the current treatment consists of treating the cardiovascular risk
factors, often with poor results.
Quantification of the BBB permeability provides an objective measure of the integrity of the
BBB and as such aids the study of the role of the BBB. The aim of this study is to realize a
clinically applicable MRI-method to quantify the BBB permeability. Moreover, the method can
be used to study the involvement of BBB disruption in other neuropathologies including
Alzheimer's disease, vascular dementia, hypertension and diabetes.
Primary Study Objective:
To realize a clinically applicable quantification of BBB permeability using DCE-MRI by
determining the reproducibility of the DCE-MRI method
Secondary Study Objective:
To achieve the shortest scan duration without compromising the reliability of the BBB
permeability quantification.
Hypotheses:
1. Using an optimized DCE-MRI method to quantify the BBB permeability, the BBB
permeability can be reliably determined in cSVD patients.
2. The scan duration can be shortened without compromising the reliability of the BBB
permeability quantification.
n/a
Observational Model: Case-Only, Time Perspective: Prospective
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