Optimum primary tone level setting for measuring high amplitude DPOAEs in guinea pigs

Michaelis, Cornelia; Gehr, Daniel D.; Deingruber, Kerstin; Arnold, W.; Lamm, Kerstin

doi:10.1016/s0378-5955(03)00373-3

Cited by 9 publications

(4 citation statements)

References 13 publications

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“…The levels of the primary tones were 65 dB SPL for f2 and 60 dB SPL for f1, and the ratio f2/f1 was set at 1.20. The stimulus parameters were chosen according to published data about DPOAEs in guinea pigs (Michaelis et al, 2003). Data are described with respect to f2 frequency since the generator site of the 2f1-f2 distortion product has been most closely correlated with the f2 frequency place in the cochlea (Brown and Kemp, 1984).…”

Section: Dpoae Measurementsmentioning

confidence: 99%

Long-term administration of magnesium after acoustic trauma caused by gunshot noise in guinea pigs

et al. 2009

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Section: Dpoae Measurementsmentioning

confidence: 99%

Long-term administration of magnesium after acoustic trauma caused by gunshot noise in guinea pigs

et al. 2009

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“…From Eq. ͑7͒, the calculated values of L 1 and f 2 / f 1 are well comparable with results in humans ͑Kummer et al., 2000;Johnson et al, 2006͒ androdents ͑Pibal et al, 2002;Michaelis et al, 2004͒. Parameters used in the formulas still need to be tested and refined by large-scaled studies with wider stimulus ranges.…”

Section: Optimal Signal Conditionsmentioning

confidence: 99%

Comparing the optimal signal conditions for recording cubic and quadratic distortion product otoacoustic emissions

Bian

Chen

2008

The Journal of the Acoustical Society of America

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Odd-and even-order distortion products ͑DPs͒, evoked by two primary tones ͑f 1 , f 2 , f 1 Ͻ f 2 ͒, represent different aspects of cochlear nonlinearity. The cubic and quadratic difference tones ͑CDT 2f 1 − f 2 and QDT f 2 − f 1 ͒ are prominent representatives of the odd and even DPs. Distortion product otoacoustic emissions ͑DPOAEs͒ were measured within a primary level ͑L 1 , L 2 ͒ space over a wide range of f 2 / f 1 ratios to compare the optimal signal conditions for these DPs. For CDT, the primary level difference decreased as L 1 increased with a rate proportional to the f 2 / f 1 ratio. Moreover, the optimal ratio increased with L 1 . A set of two formulas is proposed to describe the optimal signal conditions. However, for a given level of a primary, increasing the other tone level could maximize the QDT amplitude. The frequency ratio at the maximal QDT was about 1.3 and quite constant across different primary levels. A notch was found in the QDT amplitude at the f 2 / f 1 ratio of about 1.22-1.25. These opposite behaviors suggest that the optimal recording conditions are different for CDT and QDT due to the different aspects in the cochlear nonlinearity. Optimizing the DPOAE recordings could improve the reliability in clinical or research practices.

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“…Animals of group B were included in another study (not shown) with already determined f 2 frequencies, therefore the frequency values are not completely identical among groups. DPOAE I/Ofunctions were recorded with a guinea pig specific stimulus paradigm (Michaelis et al, 2003) to achieve maximum DPOAE levels at different stimulus intensities. L 2 ranged between 15 and 60 dB SPL with L 1 ¼ 0:46 L 2 þ 41 dB SPL and a step size of 5 dB.…”

Section: Dpoae Measurementsmentioning

confidence: 99%

Middle ear and cochlear disorders result in different DPOAE growth behaviour: implications for the differentiation of sound conductive and cochlear hearing loss

et al. 2004

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Optimum primary tone level setting for measuring high amplitude DPOAEs in guinea pigs

Cited by 9 publications

References 13 publications

Long-term administration of magnesium after acoustic trauma caused by gunshot noise in guinea pigs

Long-term administration of magnesium after acoustic trauma caused by gunshot noise in guinea pigs

Comparing the optimal signal conditions for recording cubic and quadratic distortion product otoacoustic emissions

Middle ear and cochlear disorders result in different DPOAE growth behaviour: implications for the differentiation of sound conductive and cochlear hearing loss

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