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Assessment of microvascular rarefaction in human brain disorders using physiological magnetic resonance imaging

Maud van Dinther, Paulien HM Voorter, Jacobus FA Jansen, Elizabeth AV Jones, Robert J van Oostenbrugge, Julie Staals, Walter H Backes

2022Journal of Cerebral Blood Flow & Metabolism36 citationsDOIOpen Access PDF

Abstract

Cerebral microvascular rarefaction, the reduction in number of functional or structural small blood vessels in the brain, is thought to play an important role in the early stages of microvascular related brain disorders. A better understanding of its underlying pathophysiological mechanisms, and methods to measure microvascular density in the human brain are needed to develop biomarkers for early diagnosis and to identify targets for disease modifying treatments. Therefore, we provide an overview of the assumed main pathophysiological processes underlying cerebral microvascular rarefaction and the evidence for rarefaction in several microvascular related brain disorders. A number of advanced physiological MRI techniques can be used to measure the pathological alterations associated with microvascular rarefaction. Although more research is needed to explore and validate these MRI techniques in microvascular rarefaction in brain disorders, they provide a set of promising future tools to assess various features relevant for rarefaction, such as cerebral blood flow and volume, vessel density and radius and blood-brain barrier leakage.

Topics & Concepts

Cerebral blood flowMedicineHuman brainMicrocirculationNeuroscienceMagnetic resonance imagingBlood flowRarefaction (ecology)PathophysiologyNeuroimagingPathologyHuman studiesCerebrovascular CirculationPathologicalBiomedical engineeringBlood–brain barrierFunctional imagingHuman diseaseFunctional magnetic resonance imagingAdvanced MRI Techniques and ApplicationsBarrier Structure and Function StudiesIntracerebral and Subarachnoid Hemorrhage Research
Assessment of microvascular rarefaction in human brain disorders using physiological magnetic resonance imaging | Litcius