Cochlear Center for Hearing and Public Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, Maryland, USA.
Department of Mental Health, Johns Hopkins Bloomberg School of Public Health, Baltimore, Maryland, USA.
J Gerontol A Biol Sci Med Sci. 2022 Mar 3;77(3):632-639. doi: 10.1093/gerona/glab214.
Sleep characteristics might be associated with hearing loss through disturbed energy metabolism and disrupted cochlear blood flow, but prior evidence is limited. This study aims to investigate cross-sectional associations of sleep duration and signs/symptoms of sleep-disordered breathing with hearing in a nationally representative cohort of US older adults aged 70 and older.
We studied 632 older adults aged 70 and older from the 2005-2006 cycle of the National Health and Nutrition Examination Survey. Hearing thresholds were measured using pure-tone audiometry and were averaged to create speech-frequency (0.5-4 kHz), low-frequency (0.5-2 kHz), and high-frequency (4-8 kHz) pure-tone averages (PTAs) in better-hearing ear, with higher values indicate worse hearing. Sleep duration and signs/symptoms of sleep-disordered breathing (snoring, snorting/stopping breathing, excessive sleepiness) were collected through questionnaires. Multivariable-adjusted spline models with knots at 6 and 8 hours were fitted for associations between sleep duration and PTAs. Multivariable-adjusted linear regression was used for associations between sleep-disordered breathing and PTAs. Primary models adjusted for demographic and lifestyle factors, secondary models additionally adjusted for cardiovascular factors.
When sleep duration exceeded 8 hours, every additional hour of sleep duration was marginally associated with higher(poorer) high-frequency PTA (primary: 2.45 dB in hearing level, 95% CI: -0.34 to 5.24; secondary: 2.89 dB in hearing level, 95% CI: 0.02-5.76). No associations were observed between sleep-disordered breathing and hearing.
Longer sleep duration is marginally associated with poorer high-frequency hearing among older adults sleeping more than 8 hours. However, we cannot infer temporality given the cross-sectional design. Future longitudinal studies are needed to establish temporality and clarify mechanisms.
睡眠特征可能通过干扰能量代谢和破坏耳蜗血流与听力损失有关,但先前的证据有限。本研究旨在调查美国 70 岁及以上的具有全国代表性的成年人队列中,睡眠时间和睡眠呼吸障碍的迹象/症状与听力之间的横断面关联。
我们研究了来自 2005-2006 年全国健康和营养检查调查的 632 名 70 岁及以上的老年人。使用纯音测听法测量听力阈值,并将其平均化,以创建更好耳的言语频率(0.5-4 kHz)、低频(0.5-2 kHz)和高频(4-8 kHz)纯音平均值(PTA),值越高表示听力越差。通过问卷收集睡眠时间和睡眠呼吸障碍的迹象/症状(打鼾、呼吸暂停/停止呼吸、过度嗜睡)。使用在 6 小时和 8 小时处带有结的多变量调整样条模型拟合睡眠时间与 PTA 之间的关联。使用多变量调整线性回归分析睡眠呼吸障碍与 PTA 之间的关联。主要模型调整了人口统计学和生活方式因素,次要模型还调整了心血管因素。
当睡眠时间超过 8 小时时,每增加 1 小时的睡眠时间与高频 PTA 更高(更差)呈边缘相关(主要:听力水平增加 2.45 分贝,95%CI:-0.34 至 5.24;次要:听力水平增加 2.89 分贝,95%CI:0.02 至 5.76)。睡眠呼吸障碍与听力之间没有关联。
睡眠时间较长与 8 小时以上睡眠时间较长的老年人高频听力较差呈边缘相关。然而,鉴于横断面设计,我们不能推断出时间关系。需要进行未来的纵向研究以确定时间关系并阐明机制。