Yi Fangyuan, Wang Jirui, Lin Meiqing, Li Baizhu, Han Shiyu, Wang Shan, Jin Yingbin, Hu Ning, Chen Yutong, Shang Xiuli
Department of Neurology, The First Affiliated Hospital of China Medical University, Shenyang, China.
Department of Neurology, Jin Qiu Hospital of Liaoning Province (Geriatric Hospital of Liaoning Province), Shenyang, China.
Front Aging Neurosci. 2024 Sep 16;16:1429098. doi: 10.3389/fnagi.2024.1429098. eCollection 2024.
White matter hyperintensities (WMH) are the most common neuroimaging manifestation of cerebral small vessel disease, and is frequently observed in Alzheimer's disease (AD). This study aimed to investigate the relationship between WMH and cognition and to verify the mediation of grey matter atrophy in this relationship.
The diffusion tensor imaging (DTI) technique analyses white matter fiber tract to assess white matter integrity. Voxel-based morphometry was applied to measure the grey matter volume (GMV). A linear regression model was applied to examine the associations between WMH and GMV, and mediation analyses was performed to determine the mediating role of regional GMV in the effect of WMH on cognitive function.
Compared to the HC group, AD group have 8 fiber tract fractional anisotropy (FA) decreased and 16 fiber tract mean diffusivity (MD) increased. Compared to AD without WMH, AD with high WMH had 9 fiber tracts FA decreased and 13 fiber tracts MD increased. High WMH volume was negatively correlated with GMV in the frontal-parietal region. Low WMH volume was also negatively correlated with GMV except for the three regions (right angular gyrus, right superior frontal gyrus and right middle/inferior parietal gyrus), where GMV was positively correlated. Mediation analysis showed that the association between WMH and executive function or episodic memory were mediated by GMV in the frontal-parietal region.
Damage to white matter integrity was more severe in AD with WMH. Differential changes in DTI metrics may be caused by progressive myelin and axonal damage. There was a negative correlation between WMH and grey matter atrophy in frontal-parietal regions in a volume-dependent manner. This study indicates the correspondence between WMH volume and GMV in cognition, and GMV being a key modulator between WMH and cognition in AD. This result will contribute to understanding the progression of the disease process and applying targeted therapeutic intervention in the earlier stage to delay neurodegenerative changes in frontal-parietal regions to achieve better treatment outcomes and affordability.
白质高信号(WMH)是脑小血管病最常见的神经影像学表现,且在阿尔茨海默病(AD)中经常被观察到。本研究旨在探讨WMH与认知之间的关系,并验证灰质萎缩在这种关系中的中介作用。
扩散张量成像(DTI)技术分析白质纤维束以评估白质完整性。基于体素的形态测量法用于测量灰质体积(GMV)。应用线性回归模型来检验WMH与GMV之间的关联,并进行中介分析以确定区域GMV在WMH对认知功能影响中的中介作用。
与健康对照组(HC组)相比,AD组有8条纤维束的分数各向异性(FA)降低,16条纤维束的平均扩散率(MD)增加。与无WMH的AD患者相比,高WMH的AD患者有9条纤维束FA降低,13条纤维束MD增加。高WMH体积与额顶叶区域的GMV呈负相关。低WMH体积除了在三个区域(右侧角回、右侧额上回和右侧顶叶中/下回)与GMV呈正相关外,也与GMV呈负相关。中介分析表明,WMH与执行功能或情景记忆之间的关联由额顶叶区域的GMV介导。
伴有WMH的AD患者白质完整性损伤更严重。DTI指标的差异变化可能是由进行性髓鞘和轴突损伤引起的。WMH与额顶叶区域的灰质萎缩在体积依赖性方式上呈负相关。本研究表明WMH体积与GMV在认知方面的对应关系,以及GMV是AD中WMH与认知之间的关键调节因子。这一结果将有助于理解疾病进程的进展,并在早期应用有针对性的治疗干预措施,以延缓额顶叶区域的神经退行性变化,从而获得更好的治疗效果和可及性。
