Berninger Erik, Olofsson Ake, Leijon Arne
1Department of Audiology, Karolinska Institutet, Karolinska University Hospital, Stockholm, Sweden; 2Technical and Experimental Audiology, Department of CLINTEC, Karolinska Institutet, Stockholm, Sweden; and 3School of Electrical Engineering, KTH Royal Institute of Technology, Stockholm, Sweden.
Ear Hear. 2014 May-Jun;35(3):318-29. doi: 10.1097/01.aud.0000441035.40169.f2.
The rapidly evolving field of early diagnostics after the introduction of newborn hearing screening requires rapid, valid, and objective methods, which have to be thoroughly evaluated in adults before use in infants. The aim was to study cross-correlation analysis of interleaved auditory brainstem responses (ABRs) in a wide dynamic range in normal-hearing adults. Off-line analysis allowed for comparison with psychoacoustical click threshold (PCT), pure-tone threshold, and determination of ABR input/output function. Specifically, nonfiltered and band-pass filtered ABRs were studied in various time segments along with time elapsed for ensemble of sweeps reaching a specific detection criterion.
Fourteen healthy normal-hearing subjects (18 to 35 years of age, 50% females) without any history of noise exposure participated. They all had pure-tone thresholds better than 20 dB HL (125 to 8000 Hz). ABRs were recorded in both ears using 100 μsec clicks, from 71.5 dB nHL down to -18.5 dB nHL, in 10 dB steps (repetition rate, 39 Hz; time window, 15 msec; filter, 30 to 8000 Hz). The number of sweeps increased from 2000 at 71.5 dB nHL, up to 30000 at -18.5 dB nHL. Each sweep was stored in a data base for off-line analysis. Cross-correlation analysis between two subaverages of interleaved responses was performed in the time domain for nonfiltered and digitally band-pass filtered (300 to 1500 Hz) entire and time-windowed (1 to 11 and 5 to 11 msec) responses. PCTs were measured using a Bekesy technique with the same insert phone and stimulus as used for the ABR (repetition rate, 20 Hz). Time elapsed (≈ number of accepted sweeps/repetition rate) for the ensemble of sweeps needed to reach a cross-correlation coefficient (ρ) of 0.70 (=3.7 dB signal-to-noise ratio [SNR]) was analyzed.
Mean cross-correlation coefficients exceeded 0.90 in both ears at stimulus levels ≥11.5 dB nHL for the entire nonfiltered ABR. At 1.5 dB nHL, mean(SD) ρ was 0.53(0.32) and 0.44(0.40) for left and right ears, respectively (n = 14) (=0 dB SNR). In comparison, mean(SD) PCT was -1.9(2.9) and -2.5(3.2) dB nHL for left and right ears, respectively (n = 14), while mean pure-tone average (500 to 2000 Hz) was 2.5 dB HL (n = 28). Almost no effect of band-pass filtering or reduced analysis time window existed. Average time elapsed needed to reach ρ = 0.70 was approximately 20 seconds or less at stimulus levels ≥41.5 dB nHL, and ≈30 seconds at 31.5 dB nHL. The average (interpolated) stimulus level corresponding to ρ=0.70 for the entire nonfiltered ABR was 6.5 dB nHL (n = 28), which coincided with the estimated psychoacoustical threshold for single clicks.
ABR could be identified in a short period of time using cross-correlation analysis between interleaved responses. The average stimulus level corresponding to 0 dB SNR in the entire nonfiltered ABR occurred at 1.5 dB nHL, 4 dB above the average PCT. The mean input/output function for the ensemble of sweeps required to reach ρ = 0.70 increased monotonically with increasing stimulus level, in parallel with the ABR based on all sweeps (≥1.5 dB nHL). Time domain cross-correlation analysis of ABR might form the basis for automatic response identification and future threshold-seeking procedures.
新生儿听力筛查引入后,早期诊断领域迅速发展,需要快速、有效且客观的方法,这些方法在用于婴儿之前必须在成人中进行全面评估。本研究旨在探讨正常听力成人在宽动态范围内交错听觉脑干反应(ABR)的互相关分析。离线分析可与心理声学咔嗒声阈值(PCT)、纯音阈值进行比较,并确定ABR输入/输出功能。具体而言,研究了未滤波和带通滤波的ABR在不同时间段以及达到特定检测标准的扫描集合所经过的时间。
14名健康的正常听力受试者(年龄18至35岁,50%为女性)参与研究,他们均无噪声暴露史。所有受试者的纯音阈值在125至8000Hz范围内均优于20dB HL。使用100μsec的咔嗒声记录双耳的ABR,刺激强度从71.5dB nHL以10dB步长降至-18.5dB nHL(重复率39Hz;时间窗15msec;滤波器30至8000Hz)。扫描次数从71.5dB nHL时的2000次增加到-18.5dB nHL时的30000次。每次扫描均存储在数据库中用于离线分析。对未滤波和数字带通滤波(300至1500Hz)的完整和时间窗(1至11和5至11msec)反应,在时域中进行交错反应的两个子平均值之间的互相关分析。使用Bekesy技术,采用与ABR相同的插入式耳机和刺激(重复率20Hz)测量PCT。分析达到互相关系数(ρ)为0.70(=3.7dB信噪比[SNR])所需的扫描集合所经过的时间(≈接受的扫描次数/重复率)。
对于整个未滤波的ABR,在刺激强度≥11.5dB nHL时,双耳的平均互相关系数均超过0.90。在1.5dB nHL时,左耳和右耳的平均(标准差)ρ分别为0.53(0.32)和0.44(0.40)(n = 14)(=0dB SNR)。相比之下,左耳和右耳的平均(标准差)PCT分别为-1.9(2.9)和-2.5(3.2)dB nHL(n = 14),而平均纯音平均值(500至2000Hz)为2.5dB HL(n = 28)。带通滤波或缩短分析时间窗几乎没有影响。在刺激强度≥41.5dB nHL时,达到ρ = 0.70所需的平均时间约为20秒或更短,在31.5dB nHL时约为30秒。整个未滤波ABR达到ρ = 0.70对应的平均(插值)刺激强度为6.5dB nHL(n = 28),这与单次咔嗒声的估计心理声学阈值一致。
使用交错反应之间的互相关分析可在短时间内识别ABR。整个未滤波ABR中对应0dB SNR的平均刺激强度出现在1.5dB nHL,比平均PCT高4dB。达到ρ = 0.70所需的扫描集合的平均输入/输出函数随刺激强度增加而单调增加,与基于所有扫描(≥1.5dB nHL)的ABR平行。ABR的时域互相关分析可能构成自动反应识别和未来阈值搜索程序的基础。
