Uncoupling of Microvascular Blood Flow and Capillary Density in Vascular Cognitive Impairment.

Chenxing Eleana Zhang,Julie Staals,Robert Jan Van Oostenbrugge,Hans Vink

doi:10.3389/fneur.2019.01268

Chenxing Eleana Zhang, Julie Staals + Show 2 more

Open Access

https://doi.org/10.3389/fneur.2019.01268

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Journal: Frontiers in neurology	Publication Date: Dec 3, 2019
Citations: 5	License type: CC BY 4.0

Affiliation: Maastricht University

Abstract

Cerebral small vessel disease (cSVD) plays an important role in dementia and is a major cause for vascular cognitive impairment (VCI). Recent studies hypothesized that capillary dysfunction including reduction of capillary patency, rather than a flow-limiting pathology is crucial in cSVD. As cSVD is considered a systemic microvascular disease, we examined sublingual microvascular blood flow and capillary density in patients with VCI and controls. Fifteen patients with VCI due to cSVD and 15 controls underwent intravital microscopy of the sublingual microvessels. Microvascular blood flow and capillary density in high and low flow areas were determined for each participant. Flow-density coupling was examined by determining the ratio of density changes to flow changes, and the ratio of feed vessel red blood cell (RBC) velocity to capillary RBC velocity. These were compared between VCI and controls. In healthy controls, capillary density increased proportionally with feed vessel blood flow increase. In patients with VCI, no increase of capillary density was observed. Moreover, increase of feed vessel RBC velocity led to significant increase of capillary RBC velocity in VCI, whereas in controls, the capillary RBC increased only slightly. Flow-density coupling differed significantly between VCI and controls, also after correcting for age and hypertension. Our findings suggest uncoupling of microvascular blood flow and capillary density in patients with VCI. This uncoupling may impair oxygen and nutrients exchange when blood flow increases in response to increased metabolic demand, ultimately leading to tissue damage.

Highlights

Cerebral small vessel disease is a disorder of the small arteries and veins in the brain and is considered the most important cause of vascular cognitive impairment (VCI) [1, 2]
VCI, Vascular Cognitive Impairment; BMI, Body Mass Index; WMH volume, white matter hyperintensities volume normalized to intracranial volume. *p < 0.05 comparing VCI patients with controls
We aimed to examine the coupling of spontaneous variability in microvascular blood flow and capillary density in sublingual microvessels in patients with VCI

Summary

Introduction

Cerebral small vessel disease (cSVD) is a disorder of the small arteries and veins in the brain and is considered the most important cause of vascular cognitive impairment (VCI) [1, 2]. It has been hypothesized that changes in cerebral perfusion play a role in cSVD and development of VCI [2, 3]. Findings are inconsistent: some studies reported lower cerebral perfusion in patients with cSVD and VCI compared with controls, while others found similar or higher perfusion values [4, 5]. These inconclusive findings on the role of cerebral perfusion may be due to technical limitations in detecting subtle changes in microvascular blood flow as most techniques measure large vessel perfusion or are contaminated by large vessel influences, and microvascular flow changes are probably more complex and dynamic.

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