Extended High-Frequency Thresholds: Associations With Demographic and Risk Factors, Cognitive Ability, and Hearing Outcomes in Middle-Aged and Older Adults.

IF 2.6 2区 医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Ear and Hearing Pub Date : 2024-11-01 Epub Date: 2024-07-11 DOI:10.1097/AUD.0000000000001531
Karen S Helfer, Lizmarie Maldonado, Lois J Matthews, Annie N Simpson, Judy R Dubno
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Abstract

Objectives: This study had two objectives: to examine associations between extended high-frequency (EHF) thresholds, demographic factors (age, sex, race/ethnicity), risk factors (cardiovascular, smoking, noise exposure, occupation), and cognitive abilities; and to determine variance explained by EHF thresholds for speech perception in noise, self-rated workload/effort, and self-reported hearing difficulties.

Design: This study was a retrospective analysis of a data set from the MUSC Longitudinal Cohort Study of Age-related Hearing Loss. Data from 347 middle-aged adults (45 to 64 years) and 694 older adults (≥ 65 years) were analyzed for this study. Speech perception was quantified using low-context Speech Perception In Noise (SPIN) sentences. Self-rated workload/effort was measured using the effort prompt from the National Aeronautics and Space Administration-Task Load Index. Self-reported hearing difficulty was assessed using the Hearing Handicap Inventory for the Elderly/Adults. The Wisconsin Card Sorting Task and the Stroop Neuropsychological Screening Test were used to assess selected cognitive abilities. Pure-tone averages representing conventional and EHF thresholds between 9 and 12 kHz (PTA (9 - 12 kHz) ) were utilized in simple linear regression analyses to examine relationships between thresholds and demographic and risk factors or in linear regression models to assess the contributions of PTA (9 - 12 kHz) to the variance among the three outcomes of interest. Further analyses were performed on a subset of individuals with thresholds ≤ 25 dB HL at all conventional frequencies to control for the influence of hearing loss on the association between PTA (9 - 12 kHz) and outcome measures.

Results: PTA (9 - 12 kHz) was higher in males than females, and was higher in White participants than in racial Minority participants. Linear regression models showed the associations between cardiovascular risk factors and PTA (9 - 12 kHz) were not statistically significant. Older adults who reported a history of noise exposure had higher PTA (9 - 12 kHz) than those without a history, while associations between noise history and PTA (9 - 12 kHz) did not reach statistical significance for middle-aged participants. Linear models adjusting for age, sex, race and noise history showed that higher PTA (9 - 12 kHz) was associated with greater self-perceived hearing difficulty and poorer speech recognition scores in noise for both middle-aged and older participants. Workload/effort was significantly related to PTA (9 - 12 kHz) for middle-aged, but not older, participants, while cognitive task performance was correlated with PTA (9 - 12 kHz) only for older participants. In general, PTA (9 - 12 kHz) did not account for additional variance in outcome measures as compared to conventional pure-tone thresholds, with the exception of self-reported hearing difficulties in older participants. Linear models adjusting for age and accounting for subject-level correlations in the subset analyses revealed no association between PTA (9 - 12 kHz) and outcomes of interest.

Conclusions: EHF thresholds show age-, sex-, and race-related patterns of elevation that are similar to what is observed for conventional thresholds. The current results support the need for more research to determine the utility of adding EHF thresholds to routine audiometric assessment with middle-aged and older adults.

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扩展高频阈值:扩展高频阈值:与中老年人的人口统计学因素、风险因素、认知能力和听力结果的关系。
目标:本研究有两个目标:研究扩展高频(EHF)阈值、人口统计学因素(年龄、性别、种族/民族)、风险因素(心血管、吸烟、噪声暴露、职业)和认知能力之间的关联;确定EHF阈值对噪声中的言语感知、自我评价的工作量/努力程度和自我报告的听力困难所解释的方差:本研究是对麻省医疗中心老年性听力损失纵向队列研究数据集的回顾性分析。本研究分析了 347 名中年人(45 至 64 岁)和 694 名老年人(≥ 65 岁)的数据。语音感知采用低语境噪声语音感知(SPIN)句子进行量化。自我评定的工作量/努力程度采用美国国家航空航天局任务负荷指数中的努力程度提示进行测量。自我报告的听力困难采用老年人/成人听力障碍量表进行评估。威斯康星卡片分类任务和斯特罗普神经心理筛查测试用于评估选定的认知能力。在简单线性回归分析中使用了代表 9 至 12 kHz 之间传统和超高频阈值的纯音平均值(PTA(9 - 12 kHz)),以检验阈值与人口统计学因素和风险因素之间的关系,或在线性回归模型中评估 PTA(9 - 12 kHz) 对三个相关结果之间差异的贡献。为了控制听力损失对 PTA(9 - 12 kHz) 和结果测量之间关系的影响,还对所有常规频率下阈值≤ 25 dB HL 的个体进行了进一步分析:男性的 PTA(9 - 12 kHz) 值高于女性,白人参与者的 PTA(9 - 12 kHz) 值高于少数民族参与者。线性回归模型显示,心血管风险因素与 PTA(9 - 12 kHz) 之间的关系没有统计学意义。报告有噪音暴露史的老年人的 PTA(9 - 12 kHz) 比没有噪音暴露史的老年人高,而中年人的噪音暴露史与 PTA(9 - 12 kHz) 之间的关系没有达到统计学意义。根据年龄、性别、种族和噪声史进行调整的线性模型显示,PTA(9 - 12 kHz)越高,中老年参与者自我感觉的听力困难就越大,噪声中的语音识别得分就越低。中年参与者的工作量/努力程度与 PTA(9 - 12 kHz)有显著关系,但与老年参与者无关,而只有老年参与者的认知任务表现与 PTA(9 - 12 kHz)相关。总的来说,与传统的纯音阈值相比,PTA(9 - 12 kHz)并不能解释结果测量的额外差异,但老年参与者自我报告的听力困难除外。在子集分析中,调整年龄并考虑受试者相关性的线性模型显示,PTA(9 - 12 kHz)与相关结果之间没有关联:超高频阈值显示出与年龄、性别和种族相关的升高模式,这与常规阈值观察到的情况相似。目前的研究结果表明,有必要开展更多研究,以确定在中老年人常规听力评估中添加超高频阈值的实用性。
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来源期刊
Ear and Hearing
Ear and Hearing 医学-耳鼻喉科学
CiteScore
5.90
自引率
10.80%
发文量
207
审稿时长
6-12 weeks
期刊介绍: From the basic science of hearing and balance disorders to auditory electrophysiology to amplification and the psychological factors of hearing loss, Ear and Hearing covers all aspects of auditory and vestibular disorders. This multidisciplinary journal consolidates the various factors that contribute to identification, remediation, and audiologic and vestibular rehabilitation. It is the one journal that serves the diverse interest of all members of this professional community -- otologists, audiologists, educators, and to those involved in the design, manufacture, and distribution of amplification systems. The original articles published in the journal focus on assessment, diagnosis, and management of auditory and vestibular disorders.
期刊最新文献
Associations Between Vestibular Perception and Cognitive Performance in Healthy Adults. Sounds of Nature and Hearing Loss: A Call to Action. Breathy Vocal Quality, Background Noise, and Hearing Loss: How Do These Adverse Conditions Affect Speech Perception by Older Adults? Effects of Tympanic Membrane Electrodes on Sound Transmission From the Ear Canal to the Middle and Inner Ears. The Optimal Speech-to-Background Ratio for Balancing Speech Recognition With Environmental Sound Recognition.
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