Rigters Stephanie C, Bos Daniel, Metselaar Mick, Roshchupkin Gennady V, Baatenburg de Jong Robert J, Ikram M Arfan, Vernooij Meike W, Goedegebure André
Department of Otorhinolaryngology, Head and Neck Surgery, Erasmus University Medical Center Rotterdam, Netherlands.
Department of Radiology, Erasmus University Medical CenterRotterdam, Netherlands; Department of Epidemiology, Erasmus University Medical CenterRotterdam, Netherlands.
Front Aging Neurosci. 2017 Jan 20;9:2. doi: 10.3389/fnagi.2017.00002. eCollection 2017.
Although recent studies show that age-related hearing impairment is associated with cerebral changes, data from a population perspective are still lacking. Therefore, we studied the relation between hearing impairment and brain volume in a large elderly cohort. From the population-based Rotterdam Study, 2,908 participants (mean age 65 years, 56% female) underwent a pure-tone audiogram to quantify hearing impairment. By performing MR imaging of the brain we quantified global and regional brain tissue volumes (total brain volume, gray matter volume, white matter (WM) volume, and lobe-specific volumes). We used multiple linear regression models, adjusting for age, sex, head size, time between hearing test and MR imaging, and relevant cognitive and cardiovascular covariates. Furthermore, we performed voxel-based morphometry to explore sub-regional differences. We found that a higher pure-tone threshold was associated with a smaller total brain volume [difference in standardized brain volume per decibel increase in hearing threshold in the age-sex adjusted model: -0.003 (95% confidence interval -0.004; -0.001)]. Specifically, WM volume was associated. Both associations were more pronounced in the lower frequencies. All associations were consistently present in all brain lobes in the lower frequencies and in most lobes in the higher frequencies, and were independent of cognitive function and cardiovascular risk factors. In voxel-based analyses we found associations of hearing impairment with smaller white volumes and some smaller and larger gray volumes, yet these were statistically non-significant. Our findings demonstrate that hearing impairment in elderly is related to smaller total brain volume, independent of cognition and cardiovascular risk factors. This mainly seems to be driven by smaller WM volume, throughout the brain.
尽管最近的研究表明,年龄相关性听力障碍与脑部变化有关,但从人群角度获得的数据仍然缺乏。因此,我们在一个大型老年队列中研究了听力障碍与脑容量之间的关系。在基于人群的鹿特丹研究中,2908名参与者(平均年龄65岁,56%为女性)接受了纯音听力图测试以量化听力障碍。通过对大脑进行磁共振成像,我们量化了全脑和局部脑组织体积(全脑体积、灰质体积、白质体积和各脑叶特定体积)。我们使用多元线性回归模型,对年龄、性别、头围、听力测试与磁共振成像之间的时间间隔以及相关的认知和心血管协变量进行了调整。此外,我们进行了基于体素的形态测量以探索亚区域差异。我们发现,较高的纯音阈值与较小的全脑体积相关[在年龄-性别调整模型中,听力阈值每增加1分贝,标准化脑体积的差异为:-0.003(95%置信区间-0.004;-0.001)]。具体而言,白质体积与之相关。这两种关联在低频时更为明显。在低频时,所有关联在所有脑叶中均持续存在,在高频时在大多数脑叶中也存在,并且独立于认知功能和心血管危险因素。在基于体素的分析中,我们发现听力障碍与较小的白质体积以及一些较小和较大的灰质体积有关,但这些在统计学上无显著意义。我们的研究结果表明,老年人的听力障碍与较小的全脑体积有关,独立于认知和心血管危险因素。这似乎主要是由全脑白质体积较小所驱动的。
