Journal ArticleDOI
Middle-Latency Auditory Components in Response to Clicks and Low- and Middle-Frequency Tone Pips (0.5-1 kHz)
TLDR
The morphology of MLC elicited by tone pips is less affected by changes in stimulus frequency than that of corresponding auditory brainstem responses, thus, MLC are a reliable indicator for defining low- and middle-frequency auditory thresholds.Abstract:
Middle-latency auditory components (MLC) in response to clicks and tone pips have been recorded in 20 normal subjects, aged between 26 and 32 years, in order to verify their reliability in response to frequency-specific stimuli (0.5 and 1kHz). The results indicate a good reliability of MLC obtained when using tone pips. The responses show the conventionally labeled Po, Na, Nb, Pb waves. The latencies of these waves tend to be greater than those of the corresponding waves elicited by clicks and their amplitudes are smaller. This is probably due to an asynchrony of the responses. The Po and Pa waves are the most resistant to decreasing stimulus intensity, as both are clearly detectable down to 20 dB nHL, but Po is the best threshold index because at 20 dB it has a more clear-cut shape than Pa. According to the latency values obtained for MLC elicited by both clicks and tone pips, the Po wave is probably generated at the inferior colliculus level. The latency shift towards the click-elicited Jewett wave V is mainly due to the different filter settings employed. The morphology of MLC elicited by tone pips is less affected by changes in stimulus frequency than that of corresponding auditory brainstem responses. Thus, MLC are a reliable indicator for defining low- and middle-frequency auditory thresholds.read more
Citations
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Journal ArticleDOI
Age-related changes in human middle latency auditory evoked potentials.
David L. Woods,C. C. Clayworth +1 more
TL;DR: Differences in Pa amplitude and latency were not due exclusively to changes in auditory thresholds, since they were not duplicated by changes in stimulus intensity, and persisted when MAEPs from selected young and old subjects were compared at similar SPL levels.
Journal ArticleDOI
Human auditory steady state responses: effects of intensity and frequency.
TL;DR: In patients with sensorineural hearing loss the amplitude increased more with increasing intensity above threshold than in patients with conductive hearing loss and frequency-specific thresholds obtained with notched noise were less variable and more accurate with the fixed intensity technique.
Book ChapterDOI
Middle and long latency auditory evoked potentials
TL;DR: The MLRs and ACRs are generated at and above the level of the mesencephalon and are therefore of interest for neuraudiology regarding the perceptual and developmental aspects of audition.
Journal ArticleDOI
40-Hz Steady-State Responses in Newborns and in Children
TL;DR: It is concluded that the 40-Hz SSR are difficult to obtain and are scarcely reliable in defining the low-frequency threshold in newborns and with age, the stability and reliability of the responses increase with age.
Journal ArticleDOI
Human auditory middle latency responses: influence of stimulus type and intensity.
TL;DR: Most MLR amplitudes increased and their latencies decreased with increasing stimulus intensity for both types of stimulation, and they seem to be located in primary auditory areas along Heschl's gyrus.
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TL;DR: ABR appears to be the test of choice when hearing sensitivity is in question and MLRs are likely to be most clinically useful in patients with neurological or central auditory processing disorders.
Journal ArticleDOI
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