Cougo Pedro, Colares Heber, Farinhas João Gabriel, Hämmerle Mariana, Neves Pedro, Bezerra Raquel, Balduino Alex, Wu Ona, Pontes-Neto Octavio M
Instituto Americas, Neurology Division, Rio de Janeiro 22775-001, Brazil.
Hospital Samaritano Barra, Department of Neurology, Rio de Janeiro 22775-001, Brazil.
Brain Commun. 2024 Mar 13;6(2):fcae089. doi: 10.1093/braincomms/fcae089. eCollection 2024.
Leukoaraiosis is a neuroimaging marker of small-vessel disease that is characterized by high signal intensity on fluid-attenuated inversion recovery MRI. There is increasing evidence from pathology and neuroimaging suggesting that the structural abnormalities that characterize leukoaraiosis are actually present within regions of normal-appearing white matter, and that the underlying pathophysiology of white matter damage related to small-vessel disease involves blood-brain barrier damage. In this study, we aim to verify whether leukoaraiosis is associated with elevated signal intensity on fluid-attenuated inversion recovery imaging, a marker of brain tissue free-water accumulation, in normal-appearing white matter. We performed a cross-sectional study of adult patients admitted to our hospital with a diagnosis of acute ischaemic stroke or transient ischaemic attack. Leukoaraiosis was segmented using a semi-automated method involving manual outlining and signal thresholding. White matter regions were segmented based on the probabilistic tissue maps from the International Consortium for Brain Mapping 152 atlas. Also, normal-appearing white matter was further segmented based on voxel distance from leukoaraiosis borders, resulting in five normal-appearing white matter strata at increasing voxel distances from leukoaraiosis. The relationship between mean normalized fluid-attenuated inversion recovery signal intensity on normal-appearing white matter and leukoaraiosis volume was studied in a multivariable statistical analysis using linear mixed modelling, having normal-appearing white matter strata as a clustering variable. One hundred consecutive patients meeting inclusion and exclusion criteria were selected for analysis (53% female, mean age 68 years). Mean normalized fluid-attenuated inversion recovery signal intensity on normal-appearing white matter was higher in the vicinity of leukoaraiosis and progressively lower at increasing distances from leukoaraiosis. In a multivariable analysis, the mean normalized fluid-attenuated inversion recovery signal intensity on normal-appearing white matter was positively associated with leukoaraiosis volume and age ( = 0.025 for each leukoaraiosis quartile increase; 95% confidence interval 0.019-0.030). This association was found similarly across normal-appearing white matter strata. Voxel maps of the mean normalized fluid-attenuated inversion recovery signal intensity on normal-appearing white matter showed an increase in signal intensity that was not adjacent to leukoaraiosis regions. Our results show that normal-appearing white matter exhibits subtle signal intensity changes on fluid-attenuated inversion recovery imaging that are related to leukoaraiosis burden. These results suggest that diffuse free-water accumulation is likely related to the aetiopathogenic processes underlying the development of white matter damage related to small-vessel disease.
脑白质疏松是小血管疾病的一种神经影像学标志物,其特征为液体衰减反转恢复序列磁共振成像(FLAIR MRI)上的高信号强度。病理学和神经影像学方面越来越多的证据表明,脑白质疏松所具有的结构异常实际上存在于外观正常的白质区域内,并且与小血管疾病相关的白质损伤的潜在病理生理学涉及血脑屏障损伤。在本研究中,我们旨在验证脑白质疏松是否与外观正常的白质中液体衰减反转恢复成像上的信号强度升高相关,液体衰减反转恢复成像上的信号强度升高是脑组织自由水积聚的一个标志物。我们对我院收治的诊断为急性缺血性卒中或短暂性脑缺血发作的成年患者进行了一项横断面研究。脑白质疏松采用一种半自动方法进行分割,该方法包括手动勾勒轮廓和信号阈值设定。白质区域根据来自国际脑图谱联盟152图谱的概率性组织图谱进行分割。此外,外观正常的白质根据距脑白质疏松边界的体素距离进一步分割,从而在距脑白质疏松不同体素距离处产生五个外观正常的白质层。在多变量统计分析中,使用线性混合模型研究外观正常的白质上平均标准化液体衰减反转恢复信号强度与脑白质疏松体积之间的关系,将外观正常的白质层作为聚类变量。选择100例符合纳入和排除标准的连续患者进行分析(女性占53%,平均年龄68岁)。外观正常的白质上平均标准化液体衰减反转恢复信号强度在脑白质疏松附近较高,并且随着与脑白质疏松距离的增加而逐渐降低。在多变量分析中,外观正常的白质上平均标准化液体衰减反转恢复信号强度与脑白质疏松体积和年龄呈正相关(脑白质疏松每增加一个四分位数,β = 0.025;95%置信区间0.019 - 0.030)。在外观正常的白质各层中均发现了类似的关联。外观正常的白质上平均标准化液体衰减反转恢复信号强度的体素图显示,在不与脑白质疏松区域相邻处信号强度也有所增加。我们的结果表明,外观正常的白质在液体衰减反转恢复成像上表现出与脑白质疏松负担相关的细微信号强度变化。这些结果表明,弥漫性自由水积聚可能与小血管疾病相关的白质损伤发展的病因病理过程有关。
