Direct cochlear recordings in humans show a theta rhythmic modulation of the auditory nerve by selective attention

Gehmacher, Quirin; Reisinger, Patrick; Hartmann, Thomas; Keintzel, Thomas; Roesch, Sebastian; Schwarz, Konrad; Weisz, Nathan

doi:10.1101/2021.03.01.433316

Cited by 2 publications

(1 citation statement)

References 83 publications

(145 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Recent studies using non-invasive electrophysiology have shown that auditory activity at putative subcortical processing stages can be measured for complex natural sounds (such as speech; [19][20][21][22]. Furthermore, this subcortical activity can even be modulated by attention (19,20,23). Interestingly, top-down attentional modulations of auditory activity can already be detected at the hair cells in the inner ear measured as otoacoustic activity (faint sounds emitted by the outer hair cells; see 24).…”

Section: Modelling Of Subcortical Activity Reveals a Predominant Tracking Of The Modulation Rate Of Speechmentioning

confidence: 99%

Neural speech tracking shifts from the syllabic to the modulation rate of speech as intelligibility decreases

Schmidt

Chen

Keitel

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

The most prominent acoustic features in speech are intensity modulations, represented by the amplitude envelope of speech. Synchronization of neural activity with these modulations is vital for speech comprehension. As the acoustic modulation of speech is related to the production of syllables, investigations of neural speech tracking rarely distinguish between lower-level acoustic (envelope modulation) and higher-level linguistic (syllable rate) information. Here we manipulated speech intelligibility using noise-vocoded speech and investigated the spectral dynamics of neural speech processing, across two studies at cortical and subcortical levels of the auditory hierarchy, using magnetoencephalography. Overall, cortical regions mostly track the syllable rate, whereas subcortical regions track the acoustic envelope. Furthermore, with less intelligible speech, tracking of the modulation rate becomes more dominant. Our study highlights the importance of distinguishing between envelope modulation and syllable rate and provides novel possibilities to better understand differences between auditory processing and speech/language processing disorders.

show abstract

Section: Modelling Of Subcortical Activity Reveals a Predominant Tracking Of The Modulation Rate Of Speechmentioning

confidence: 99%

Neural speech tracking shifts from the syllabic to the modulation rate of speech as intelligibility decreases

Schmidt

Chen

Keitel

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

Cochlear theta activity oscillates in phase opposition during interaural attention

Kohler

Weisz

2022

Preprint

Self Cite

View full text Add to dashboard Cite

It is widely established that sensory perception is a rhythmic process as opposed to a continuous one. In the context of auditory perception this effect is only established on a cortical and behavioral level. Yet, the unique architecture of the auditory sensory system allows its primary sensory cortex to modulate the processes of its sensory receptors at the cochlear level. Previously, we could demonstrate the existence of a genuine cochlear theta (~6 Hz) rhythm that is modulated in amplitude by intermodal selective attention. As the study's paradigm was not suited to assess attentional effects on the oscillatory phase of cochlear activity the question whether attention can also affect the temporal organization of the cochlea's ongoing activity remained open. The present study utilizes an interaural attention paradigm to investigate ongoing otoacoustic activity during a stimulus-free cue-target interval and an omission period of the auditory target. We were able to replicate the existence of the cochlear theta rhythm. Importantly, we found significant phase opposition between the two ears and attention conditions of anticipatory as well as cochlear oscillatory activity during target presentation. Yet, the amplitude was unaffected by interaural attention. These results are the first to demonstrate that intermodal and interaural attention deploy different aspects of excitation and inhibition at the first level of auditory processing. While intermodal attention modulates the level of cochlear activity, interaural attention modulates the timing.

show abstract

Direct cochlear recordings in humans show a theta rhythmic modulation of the auditory nerve by selective attention

Cited by 2 publications

References 83 publications

Neural speech tracking shifts from the syllabic to the modulation rate of speech as intelligibility decreases

Neural speech tracking shifts from the syllabic to the modulation rate of speech as intelligibility decreases

Cochlear theta activity oscillates in phase opposition during interaural attention

Contact Info

Product

Resources

About