AiiSH-iR

The relationship between acceptable noise level and electrophysiologic auditory brainstem and cortical signal to noise ratios

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dc.contributor.author Hemanth N. Shetty
dc.contributor.author Sankalapa Mahadev
dc.contributor.author Devamma Veeresh
dc.date.accessioned 2022-01-31T10:04:06Z
dc.date.available 2022-01-31T10:04:06Z
dc.date.issued 2014
dc.identifier.issn 2039-4349
dc.identifier.uri https://doi.org/10.4081/audiores.2014.93
dc.identifier.uri http://192.168.100.26:8080/xmlui/handle/123456789/3230
dc.description.abstract The following objectives of the study were formulated: i) to investigate differences in measured signal to noise ratios while recording speech-evoked auditory brainstem response (cABR) and cortical late latency response (LLR) in low and high acceptable noise level (ANL) groups; and ii) to compare peak to peak amplitude of cABR (V-A) and LLR (N1-P2) in low and high ANL groups. A total of 23 normal hearing participants was included in the study. One shot replicative and partly exploratory research design was utilized to study the effect of signal to noise ratio in a recorded waveform on afferent mechanism, assessed by cABR and LLR on participants having values of ANL of ?7 (low ANL group) and ?13 (high ANL group). There were no differences in signal to noise ratio in the recorded waveforms of cABR and LLR between low and high ANL groups at both brainstem and cortical levels. However, the peak to peak amplitude of V-A of cABR and N1-P2 of LLR were both statistically larger in the high ANL group compared to their counterpart. The signal to noise ratio in recorded waveforms did not differentiated cABR (V-A) or LLR (N1-P2) in low and high ANL groups. However, Larger peak to peak amplitudes in the high ANL group suggests differences higher processing centers in the upper brainstem to the auditory cortex. The findings of the study may be useful in determining the patient acceptability of noise.
dc.publisher MDPI
dc.title The relationship between acceptable noise level and electrophysiologic auditory brainstem and cortical signal to noise ratios
dc.type Article
dc.issueno 1
dc.journalname Audiology research
dc.pageno 01-Apr
dc.terms signal to noise ratio; auditory brainstem response; late latency response
dc.volumeno 4


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