多发性硬化症脑网络中脑血流调节功能不全：一项高碳酸血症MRI研究。

Cerebral blood flow modulation insufficiency in brain networks in multiple sclerosis: A hypercapnia MRI study.

作者信息

Marshall Olga, Chawla Sanjeev, Lu Hanzhang, Pape Louise, Ge Yulin

机构信息

Radiology/Center for Biomedical Imaging, New York University School of Medicine, NY, USA.

Department of Radiology, Johns Hopkins University School of Medicine, Baltimore, MD, USA.

出版信息

J Cereb Blood Flow Metab. 2016 Dec;36(12):2087-2095. doi: 10.1177/0271678X16654922. Epub 2016 Jun 15.

DOI:10.1177/0271678X16654922

PMID:27306754

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5363669/

Abstract

Cerebrovascular reactivity measures vascular regulation of cerebral blood flow and is responsible for maintaining healthy neurovascular coupling. Multiple sclerosis exhibits progressive neurodegeneration and global cerebrovascular reactivity deficits. This study investigates varied degrees of cerebrovascular reactivity impairment in different brain networks, which may be an underlying cause for functional changes in the brain, affecting long-distance projection integrity and cognitive function; 28 multiple sclerosis and 28 control subjects underwent pseudocontinuous arterial spin labeling perfusion MRI to measure cerebral blood flow under normocapnia (room air) and hypercapnia (5% carbon dioxide gas mixture) breathing. Cerebrovascular reactivity, measured as normocapnic to hypercapnic cerebral blood flow percent increase normalized by end-tidal carbon dioxide change, was determined from seven functional networks (default mode, frontoparietal, somatomotor, visual, limbic, dorsal, and ventral attention networks). Group analysis showed significantly decreased cerebrovascular reactivity in patients compared to controls within the default mode, frontoparietal, somatomotor, and ventral attention networks after multiple comparison correction. Regression analysis showed a significant correlation of cerebrovascular reactivity with lesion load in the default mode and ventral attention networks and with gray matter atrophy in the default mode network. Functional networks in multiple sclerosis patients exhibit varied amounts of cerebrovascular reactivity deficits. Such blood flow regulation abnormalities may contribute to functional communication disruption in multiple sclerosis.

摘要

脑血管反应性衡量的是脑血管对脑血流量的调节作用，负责维持健康的神经血管耦合。多发性硬化症表现为进行性神经退行性变和整体脑血管反应性缺陷。本研究调查了不同脑网络中不同程度的脑血管反应性损害，这可能是大脑功能变化的潜在原因，影响远距离投射完整性和认知功能；28例多发性硬化症患者和28例对照受试者接受了伪连续动脉自旋标记灌注MRI，以测量在正常碳酸血症（室内空气）和高碳酸血症（5%二氧化碳气体混合物）呼吸状态下的脑血流量。脑血管反应性通过七个功能网络（默认模式、额顶叶、躯体运动、视觉、边缘系统、背侧和腹侧注意网络）进行测定，以正常碳酸血症时脑血流量相对于高碳酸血症时脑血流量的百分比增加量除以呼气末二氧化碳变化量来衡量。经过多重比较校正后，组间分析显示，在默认模式、额顶叶、躯体运动和腹侧注意网络中，患者的脑血管反应性显著低于对照组。回归分析显示，默认模式和腹侧注意网络中的脑血管反应性与病变负荷以及默认模式网络中的灰质萎缩存在显著相关性。多发性硬化症患者的功能网络表现出不同程度的脑血管反应性缺陷。这种血流调节异常可能导致多发性硬化症中的功能通讯中断。

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