Medical Imaging Centre, Semmelweis University, 1082 Budapest, Hungary.
Department of Radiology, Faculty of Medicine and Health, Örebro University, 702 81 Örebro, Sweden.
Medicina (Kaunas). 2022 Oct 10;58(10):1425. doi: 10.3390/medicina58101425.
White matter hyperintensities (WMH) indicate white matter brain lesions in magnetic resonance imaging (MRI), which can be used as a marker for brain aging and cerebrovascular and neurodegenerative disorders. Twin studies revealed substantial but not uniform WMH heritability in elderly twins. The objective of our study was to investigate the genetic and environmental components of WMH, as well as their importance in a healthy twin population, utilizing 3T MRI scanners in a middle-aged twin population. Brain MRI was performed on 120 healthy adult twins from the Hungarian Twin Registry on a 3T scanner (86 monozygotic, MZ and 34 dizygotic, DZ twins; median age 50 ± 26.5 years, 72.5% female and 27.5% male). The count of WMH on FLAIR images was calculated using an automated volumetry pipeline (volBrain) and human processing. The age- and sex-adjusted MZ and DZ intra-pair correlations were determined and the total variance was decomposed into genetic, shared and unique environmental components using structural equation modeling. Age and sex-adjusted MZ intrapair correlations were higher than DZ correlations, indicating moderate genetic influence in each lesion (rMZ = 0.466, rDZ = -0.025 for total count; rMZ = 0.482, rDZ = 0.093 for deep white matter count; rMZ = 0.739, rDZ = 0.39 for infratentorial count; rMZ = 0.573, rDZ = 0.372 for cerebellar count and rMZ = 0.473, rDZ = 0.19 for periventricular count), indicating a moderate heritability (A = 40.3%, A = 45%, A = 72.7% and A = 55.5%and 47.2%, respectively). The rest of the variance was influenced by unique environmental effects (E between 27.3% and 59.7%, respectively). The number of WMH lesions is moderately influenced by genetic effects, particularly in the infratentorial region in middle-aged twins. These results suggest that the distribution of WMH in various brain regions is heterogeneous.
脑白质高信号(WMH)是磁共振成像(MRI)显示的脑白质病变,可作为脑老化及脑血管和神经退行性疾病的标志物。双胞胎研究表明,老年双胞胎的 WMH 具有相当大但非一致的遗传力。本研究旨在利用 3T MRI 扫描仪,在中年双胞胎人群中,探讨 WMH 的遗传和环境成分及其在健康双胞胎人群中的重要性。在 3T 扫描仪上对来自匈牙利双胞胎登记处的 120 名健康成年双胞胎进行脑部 MRI 检查(86 对同卵双胞胎,MZ 和 34 对异卵双胞胎,DZ;中位年龄 50±26.5 岁,72.5%为女性,27.5%为男性)。使用自动容积测量管道(volBrain)和人工处理计算 FLAIR 图像上的 WMH 计数。确定年龄和性别调整后的 MZ 和 DZ 同卵双胞胎内的相关系数,并使用结构方程模型将总方差分解为遗传、共享和独特的环境成分。年龄和性别调整后的 MZ 同卵双胞胎内的相关系数高于 DZ 相关系数,表明每个病变部位均存在中度遗传影响(总计数 rMZ=0.466,rDZ=-0.025;深部脑白质计数 rMZ=0.482,rDZ=0.093;小脑下计数 rMZ=0.739,rDZ=0.39;小脑计数 rMZ=0.573,rDZ=0.372;脑室周围计数 rMZ=0.473,rDZ=0.19),表明中度遗传率(A 分别为 40.3%、45%、72.7%、55.5%和 47.2%)。其余的方差受独特环境因素的影响(E 分别为 27.3%至 59.7%)。WMH 病变数量受遗传因素的中度影响,尤其是在中年双胞胎的小脑下区。这些结果表明,各脑区 WMH 的分布存在异质性。
