Arne N. Rasmussen

Distortion product otoacoustic emissions. The influence of the middle ear transmission.

Distortion product otoacoustic emissions (DPOEs) were recorded in 8 normal hearing subjects (16 ears, mean age 37) in order to evaluate the sensitivity of the DPOE amplitudes as a function of pneumatic changes (-400 to +200 daPa) in the external ear canal. The responses were collected using time averaging and subsequent FFT-analysis of the collected data. Distortion products were measured at the following geometric mean frequencies: 1,000, 2,000, 4,000, 6,000 and 8,000 Hz. The results show that the amplitudes of the distortion products depend on an optimal transmission through the middle ear, and that measurements of DPOEs should always be preceded by determination of the middle ear pressure. The present findings are in good agreement with investigations based on evoked otoacoustic emissions published by other researchers.

Clinical Significance of Relative Probe-Tone Levels on Distortion Product Otoacoustic Emissions

The effect of systematic variations in the relative levels (L1, L2) of two primary tones (f1, f2) on the amplitude of the distortion product otoacoustic emission (DPOAE) at 2f1-f2 and f1 < f2 was investigated in 14 ears from 7 normally hearing human subjects. The primary tones (f2:f1 = 1.23) were geometrically centred at the standard clinical frequencies of 0.5, 1, 1.5, 2, 3, 4, 6 and 8 kHz. The quantity L1-L2 was varied systematically from -10 dB through + 10 dB with L2 held constant at 75 dB SPL for negative values, L1 held constant at 75 dB SPL for positive values, and L1 = L2 = 75 dB SPL at 0 dB relative difference. The maximum amplitudes of the distortion products were generated when L1 = L2 at all geometric centre frequencies except 8 kHz. The reduction of the DPOAE with reduction of L1 was linear at a rate that gradually increased as a function of geometric mean frequency. To a lesser extent, the reduction of the DPOAE with reduction of L2 also was linear but at a rate that systematically decreased as a function of geometric mean frequency. The results suggest, that to maximize the level of the distortion product for clinical purposes, the relative levels of the primary tones should be equal to each other, at least when overall stimulus levels are around 75 dB SPL and f2:f1 = 1.23.

Clinical Significance of Probe-tone Frequency Ratio on Distortion Product Otoacoustic Emissions

Parametric variations in the ratio of primary-tone frequencies were explored to optimize the amplitude of the 2f1-f2 distortion product otoacoustic emission for clinical purposes. Ten ears from 5 normally hearing human subjects were examined with primary tones geometrically centred around the standard audiometric frequencies of 0.5, 1, 1.5, 2, 3, 4, 6 and 8 kHz. The distortion product at the frequency 2f1-f2 (f1 < f2) was measured at six probe tone frequency ratios (f2:f1) varying between 1.15 and 1.40 using equal level primaries of 75 dB SPL. The results showed that a single f2:f1 ratio between 1.20 and 1.25 provides a reasonable value for clinical use in that it optimizes the magnitude of the distortion product at 2f1-f2, provides for sufficient resolution in the test frequency range, and is applicable to the standard clinical test frequencies.

Neonatal hearing screening using otoacoustic emissions elicited by maximum length sequences.

The aim of this study was to provide statistical information on otoacoustic emission (OAE) measurements in new-born infants, which could be useful in the interpretation of results and could add some clinical parameters that might be used for future objective and automatic response evaluations. Transient evoked OAEs (TEOAEs) using maximum length sequences (MLS) were recorded in 129 full-term new-born infants between 48 and 72 hours of age. The use of MLS enabled stimulus rates of up to 2000/sec to be utilized. The analysis comprised five main issues: (1) signal to noise ratio (S/N); (2) derived non-linear responses; (3) a combination of derived non-linear emissions called compound non-linear emissions; (4) time/frequency analysis and (5) signal power analysis. The result of the analysis were as follows. (1) The largest S/N ratio was obtained when more than 60% of the recordings were rejected. (2) The derived non-linear emissions comprised level non-linear and rate non-linear responses, the latter obtained by subtraction of recordings at fixed stimulus level, but at different stimulus rates. The rapid suppression of emission amplitude as the stimulus rate increases is the basis for this non-linear response which also features stimulus cancellation. (3) The compound non-linear emissions, consisting of a sum of derived non-linear responses may prove efficient by proper selection of stimulus parameters, but did not in the present form show the expected improvements of amplitude and stimulus cancellation. (4) The time/frequency analysis, however, based on calculations of the instantaneous frequency as a function time after stimulus onset, showed a consistent tendency of falling frequency versus time after stimulus onset as a basic characteristic feature of OAE. (5) The analysis of the emission power as a function of time after stimulus onset showed that linear recordings in new-born infants are reliable, with stimulus ringing fully decayed 3 ms after the stimulus onset. The findings may prove useful in future attempts to develop screening equipment with automatic response evaluation for new-born infants. From a clinical point of view the MLS technique was successful when measuring emissions in neonates, owing to the fast recording time and the utilization of an efficient noise rejection paradigm.

A system for measuring distortion product otoacoustic emissions at ultra-sonic frequencies in rodents Un sistema para medida emisiones otoacústicas por productos de distorsión en roedores a frecuencias ultra-sónicas

The aim of this work has been to construct and evaluate a system for recording distortion product otoacoustic emissions in rats at ultrasonic frequencies up to at least 50 kHz. The paper primarily describes the design of the acoustic probe system, as this is the most critical part. An acoustic ear simulator was developed and used for the subsequent calibration of the stimulus signals. A detachable probe system was provided in order to allow for visual inspection of the probe fitting in the ear canal prior to the final placement of the acoustic probe. Test/retest performance was evaluated by comparing DP-grams and I/O curves in 12 anaesthetized Wistar rats in two sessions separated approximately by one week. The between subject variance of the 12 tested rats appeared to be very modest, thus making the setup suitable for testing, for instance, ototoxicity of drugs or detection of cochlear damage due to noise exposures in rodents.

The Influence of Spontaneous Otoacoustic Emissions on the Amplitude of Transient-evoked Emissions

The aim of the study was to analyse whether the presence of spontaneous otoacoustic emissions (SOAEs) in a group of normal-hearing adults is related to larger transient evoked otoacoustic emission (TEOAE) amplitudes when compared to a similar adult population without SOAEs. Twenty-four normal-hearing subjects participated in the investigation. They were selected to form two groups of 12, one containing only subjects with measurable spontaneous emissions, the other of members who had no measurable spontaneous emissions. Each group comprised 7 males and 5 females. TEOAEs were recorded in both linear and non-linear mode, and equivalent sound pressure levels in different octave frequency bands were calculated. For each frequency band, the comparison of the equivalent sound pressure levels in the two selected groups showed statistically significant differences. Therefore, when normative TEOAE data were collected with the purpose of establishing a normative reference for the assessment of cochlear hearing loss, it is mandatory to search for and, when pertinent, to compensate for the presence of SOAEs.

A New Approach for Recording Distortion Product Oto-Acoustic Emissions

A system for recording of distortion product oto-acoustic emissions (DPOEs) utilizing a linear time-averaging technique is described. The main advantage of the system is the ability to obtain a high signal-to-noise ratio of the recordings. DPOEs have proven to yield important frequency-specific information on the behaviour of the outer hair cells in the human inner ear. DPOEs at nine audiometric frequencies, elicited at a stimulus intensity of 75 dB SPL were recorded from a group of 14 normal-hearing subjects in an attempt to establish normative data. An example of the relationship between the configuration of the conventional audiogram and DPOEs for a patient with a noise-induced hearing loss is presented to demonstrate the diagnostic value of the method.

Instrumentation for Transient Evoked Otoacoustic Emissions Elicited by Maximum Length Sequences

A system for recording Transient Evoked Otoacoustic Emissions (TEOAE) for neonatal screening, utilizing Maximum Length Sequences (MLS) for the generation of stimulus signals, is described. The main advantage of the system is its ability to obtain responses within a very short period of time, compared to conventional OAE systems. The actual recording time for the MLS system is reduced by a factor of between 10 and 20 for comparable signal-to-noise ratios. Stimulus levels range from 50 to 90 dB peak equivalent SPL and available stimulus rates are 31, 62, 125, 250, 500, 1000 and 2000/sec. A dynamic noise rejection algorithm is performed during data collection, and, moreover, all sweeps (both accepted and rejected) are stored in memory so that the signal-to-noise ratio can be optimized by post-processing immediately after data collection. As a result, robust response can be achieved even if the subject is noisy during the test. A new semi-non-linear recording technique is described, combining the benefits from the conventional linear and non-linear recording methods. Examples of adult and neonatal responses under different conditions are provided to demonstrate the value of the recording principle.

The Relationship Between the Acoustic Reflex Threshold and Levels of Loudness Categories in Hearing-impaired Listeners

When applied as a tool for hearing aid fitting, categorical loudness scaling (CLS) is time consuming and not feasible in all subjects. It is therefore desirable to use objective measures for accurate prediction of loudness categories among hearing-impaired individuals. The present study aimed at exploring whether loudness perception at the ART is constant with varying hearing threshold. Seventy-five subjects with various degrees of hearing impairment, measurable acoustic reflex and normal middle ear function participated. The HTLs, ARTs and the levels of six loudness categories at frequencies 0.5, 1, 2 and 4 kHz were determined for all subjects. Loudness at the ART was found to be correlated with the amount of hearing loss. On the basis of these results, it is concluded that the ART cannot be used for accurate estimation of loudness in hearing-impaired subjects.

Calibration of Ipsilateral Stimulus Transducer for Acoustic Reflex Measurements

Pure-tone Reference Equivalent Threshold Sound Pressure Level (RETSPL) of the ipsilateral stimulus receiver for acoustic reflex measurements on Madsen Electronics type Zodiac 901 impedance audiometer is provided. The results, obtained from 20 normal-hearing subjects, are achieved by comparing hearing threshold levels measured using a TDH 39 telephone (calibrated to ISO 389) with thresholds recorded using the ipsilateral stimulus insert phone. The calibration is referenced to an IEC-711 ear simulator and comprises the following frequencies: 125, 250, 500, 750, 1000, 1500, 2000, 3000, 4000, 6000, 8000 Hz.