The term cerebral small vessel disease (SVD) refers to a group of pathologic processes with various etiologies that affect small arteries, arterioles, venules, and capillaries of the brain. Magnetic resonance imaging (MRI) correlates of SVD are lacunes, recent small subcortical infarcts, white-matter hyperintensities, enlarged perivascular spaces, microbleeds, and brain atrophy. Endothelial dysfunction is thought to have a role in the mechanisms leading to SVD-related brain changes, and the study of endothelial dysfunction has been proposed as an important step for a better comprehension of cerebral SVD. Among available methods to assess endothelial function in vivo, measurement of molecules of endothelial origin in peripheral blood is currently receiving selective attention. These molecules include products of endothelial cells that change when the endothelium is activated, as well as molecules that reflect endothelial damage and repair. This review examines the main molecular factors involved in both endothelial function and dysfunction, and the evidence linking endothelial dysfunction with cerebral SVD, and gives an overview of clinical studies that have investigated the possible association between endothelial circulating biomarkers and SVD-related brain changes.
KeywordsCerebral small vessel disease, endothelium, inflammation, lacunar infarcts, white-mater hyperintensities The term cerebral small vessel disease (SVD) refers to a group of pathologic processes with various etiologies that affect the small arteries, arterioles, venules, and capillaries of the brain.1 Age/hypertension-related SVDs and cerebral amyloid angiopathy are the most common sporadic forms of SVD. Among a few genetic forms of SVD, CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy), caused by NOTCH3 gene mutations, is the most frequent one. It is a systemic arteriopathy although the clinical symptoms are those caused by brain dysfunction. The effects of both sporadic and inherited SVD on the brain parenchyma are represented by lesions mainly located in the subcortical structures, and include lacunar infarcts, ischemic white-matter lesions, and intracerebral hemorrhage. An international working group has recently published the STRIVE (STandards for ReportIng Vascular changes on nEuroimaging) to provide definitions and imaging standards for markers and consequences of SVD.2 According to this consensus, changes currently seen on neuroimaging related to SVD include lacunes, recent small subcortical infarcts, white-matter hyperintensities (WMH), perivascular spaces (PVS), microbleeds (MB), and brain atrophy.Over the last few decades, evidence has being accumulated regarding prevalence, clinical significance, and
