de Gruy Joseph Alexander, Hopper Samuel, Kelly William, Witcher Ryan, Vu Thanh-Huyen, Spankovich Christopher
Department of Otolaryngology - Head and Neck Surgery, University of Mississippi Medical Center, Jackson, Mississippi.
University of Mississippi School of Medicine, Jackson, Mississippi.
J Am Acad Audiol. 2023 May;34(5-06):100-113. doi: 10.1055/a-2095-7002. Epub 2023 May 17.
There is a well-known metric to describe average/normal vision, 20/20, but the same agreed-upon standard does not exist for hearing. The pure-tone average has been advocated for such a metric.
We aimed to use a data-driven approach to inform a universal metric for hearing status based on pure-tone audiometry and perceived hearing difficulty (PHD).
This is a cross-sectional national representative survey of the civilian noninstitutionalized population in the United States.
Data from the 2011-2012 and 2015-2016 cycles of the National Health and Nutrition Examination Survey (NHANES) were used in our analysis. Of 9,444 participants aged 20 to 69 years from the 2011-2012 and 2015-2016 cycles, we excluded those with missing self-reported hearing difficulty ( = 8) and pure-tone audiometry data ( = 1,361). The main analysis sample, therefore, included 8,075 participants. We completed a subanalysis limited to participants with "normal" hearing based on the World Health Organization (WHO) standard (pure-tone average, PTA of 500, 1000, 2000, 4000 Hz < 20 dBHL).
Descriptive analyses to calculate means and proportions were used to describe characteristics of the analysis sample across PHD levels relative to PTA. Four PTAs were compared, low frequency (LF-PTA, 500, 1,000, 2,000 Hz), four-frequency PTA (PTA4, 500, 1,000, 2,000, 4,000 Hz), high frequency (HF-PTA, 4,000, 6,000, 8,000 Hz), and all frequency (AF-PTA, 500, 1,000, 2,000, 4,000, 6,000, 8,000 Hz). Differences between groups were tested using Rao-Scott χ tests for categorical variables and F tests for continuous variables. Logistic regression was used to plot receiver operating characteristic curves with PHD as a function of PTA. The sensitivity and specificity for each PTA and PHD were also calculated.
We found that 19.61% of adults aged 20 to 69 years reported PHD, with only 1.41% reporting greater than moderate PHD. The prevalence of reported PHD increased with higher decibel hearing levels (dBHL) categories reaching statistical significance ( < 0.05 with Bonferroni correction) at 6 to 10 dBHL for PTAs limited to lower frequencies (LF-PTA and PTA4) and 16 to 20 dBHL when limited to higher frequencies (HF-PTA). The prevalence of greater than moderate PHD reached statistical significance at 21 to 30 dBHL when limited to lower frequencies (LF-PTA) and 41 to 55 dBHL when limited to higher frequencies (HF-PTA). Forty percent of the sample had high-frequency loss with "normal" low-frequency hearing, representing nearly 70% of hearing loss configurations. The diagnostic accuracy of the PTAs for reported PHD was poor to sufficient (<0.70); however, the HF-PTA had the highest sensitivity (0.81).
We provide four basic recommendations based on our analysis: (1) a PTA-based metric for hearing ability should include frequencies above 4,000 Hz; (2) the data-driven dBHL cutoff for any PHD/"normal" hearing is 15 dBHL; (3) when considering greater than moderate PHD, the data-driven cutoffs were more variable but estimated at 20 to 30 dBHL for LF-PTA, 30 to 35 dBHL for PTA4, 25 to 50 dBHL for AF-PTA, and 40 to 65 dBHL for HF-PTA; and (4) clinical recommendations and legislative agendas should include consideration beyond pure-tone audiometry such as functional assessment of hearing and PHD.
有一个众所周知的用于描述平均/正常视力的指标,即20/20,但听力方面却不存在同样被广泛认可的标准。纯音平均听阈一直被倡导作为这样一个指标。
我们旨在采用一种数据驱动的方法,基于纯音听力测定和主观听力困难程度(PHD)来确定一个通用的听力状况指标。
这是一项针对美国非机构化平民人口的全国代表性横断面调查。
我们的分析使用了2011 - 2012年和2015 - 2016年国家健康与营养检查调查(NHANES)的数据。在2011 - 2012年和2015 - 2016年周期的9444名20至69岁参与者中,我们排除了那些自我报告听力困难信息缺失(n = 8)和纯音听力测定数据缺失(n = 1361)的参与者。因此,主要分析样本包括8075名参与者。我们完成了一项仅限于基于世界卫生组织(WHO)标准听力“正常”(纯音平均听阈,500、1000、2000、4000Hz的PTA < 20dBHL)的参与者的亚分析。
用于计算均值和比例的描述性分析被用于描述分析样本在相对于PTA的不同PHD水平下的特征。比较了四个PTA,低频(LF - PTA,500、1000、2000Hz)、四频率PTA(PTA4,500、1000、2000、4000Hz)、高频(HF - PTA,4000、6000、8000Hz)和全频率(AF - PTA,500、1000、2000、4000、6000、8000Hz)。使用Rao - Scott χ检验对分类变量进行组间差异检验,对连续变量进行F检验。使用逻辑回归绘制以PHD为PTA函数的受试者工作特征曲线。还计算了每个PTA和PHD的敏感性和特异性。
我们发现,20至69岁的成年人中有19.61%报告有主观听力困难,只有1.41%报告有中度以上的主观听力困难。报告的主观听力困难患病率随着听力损失分贝水平(dBHL)类别升高而增加,对于低频受限的PTA(LF - PTA和PTA4),在6至10dBHL时达到统计学显著差异(经Bonferroni校正P < 0.05),对于高频受限的PTA,在16至20dBHL时达到统计学显著差异。当低频受限(LF - PTA)时,中度以上主观听力困难的患病率在21至30dBHL时达到统计学显著差异,高频受限(HF - PTA)时在41至55dBHL时达到统计学显著差异。样本中有40%存在高频听力损失但低频听力“正常”,占听力损失类型的近70%。PTA对报告的主观听力困难的诊断准确性较差至尚可(< 0.70);然而,HF - PTA的敏感性最高(0.81)。
基于我们的分析我们提供了四条基本建议:(1)基于PTA的听力能力指标应包括4000Hz以上的频率;(2)对于任何主观听力困难/“正常”听力,数据驱动的dBHL临界值为15dBHL;(3)当考虑中度以上主观听力困难时,数据驱动的临界值变化更大,但估计低频PTA为20至30dBHL,PTA4为30至35dBHL,AF - PTA为25至50dBHL,HF - PTA为40至65dBHL;(4)临床建议和立法议程应包括除纯音听力测定之外的其他考虑因素(如听力功能评估和主观听力困难程度)。
