Cochlear activity in silent cue-target intervals shows a theta-rhythmic pattern and is correlated to attentional alpha and theta modulations

Kohler, M; Demarchi, Gianpaolo; Weisz, Nathan

doi:10.1186/s12915-021-00992-8

Cited by 15 publications

(41 citation statements)

References 60 publications

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“…This, however, may also be the result of low signal-to-noise ratios (SNRs), as commercial CIs are so far not optimized to do these kinds of continuous electrophysiological recordings. Indeed, a grand average of the condition differences points to maximal effects in a frequency range overlapping with the one reported by Köhler et al (2021), resulting in enhanced theta power while attending to the auditory modality (Figure 2B). This result corroborates our previous finding using a similar paradigm, where ongoing OAEs in the theta band (~6 Hz) were enhanced while attending an upcoming auditory stimulus (Köhler et al, 2021).…”

Section: Discussionsupporting

confidence: 52%

“…Indeed, a grand average of the condition differences points to maximal effects in a frequency range overlapping with the one reported by Köhler et al (2021), resulting in enhanced theta power while attending to the auditory modality (Figure 2B). This result corroborates our previous finding using a similar paradigm, where ongoing OAEs in the theta band (~6 Hz) were enhanced while attending an upcoming auditory stimulus (Köhler et al, 2021). We found no selective attention effect in the alpha nor in the beta band in concordance with aforementioned studies of otoacoustic activity.…”

Section: Discussionsupporting

confidence: 52%

“…The resulting power spectra (see Figure 2A) by themselves showed no clear peaks, however the grand average condition contrast spectrum indicates differences that are mainly centered in distinct frequency ranges. Based on previous OAE and M/EEG work (Mazaheri et al, 2014;Köhler et al, 2021), we statistically compared the two conditions in the theta (averaged between 5-8 Hz) and alpha frequency band (averaged between 9-13 Hz; Figure 2B). A cluster-based permutation test in the theta frequency band showed that prestimulus power is higher when attending the auditory domain (p = 10.00e -05 , d = 0.49).…”

Section: Human Auditory Nerve Activity Is Modulated By Selective Attentionmentioning

confidence: 99%

“…Spiral ganglion cells making up the auditory-nerve fibers are mainly innervated by connections of the lateral olivocochlear complex (LOC), respectively ( Warr and Guinan, 1979 ; Elgueda and Delano, 2020 ). Attentional modulations of OAEs can thus be seen as a proxy for subcortical attentional modulations via MOC synapses and have been connected with low-frequency (<10 Hz) oscillatory mechanisms at the cochlear level during alternating selective attention ( Dragicevic et al, 2019 ), with increases in the theta band (∼6 Hz) when attending to upcoming auditory input during a silent cue-target interval ( Köhler et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

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Direct Cochlear Recordings in Humans Show a Theta Rhythmic Modulation of Auditory Nerve Activity by Selective Attention

et al. 2022

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The architecture of the efferent auditory system enables prioritization of strongly overlapping spatiotemporal cochlear activation patterns elicited by relevant and irrelevant inputs. So far, attempts at finding such attentional modulations of cochlear activity delivered indirect insights in humans or required direct recordings in animals. The extent to which spiral ganglion cells forming the human auditory nerve are sensitive to selective attention remains largely unknown.We investigated this question by testing the effects of attending to either the auditory or visual modality in human cochlear implant (CI) users (3 female, 13 male). Auditory nerve activity was directly recorded with standard CIs during a silent (anticipatory) cue-target interval. When attending the upcoming auditory input, ongoing auditory nerve activity within the theta range (5-8 Hz) was enhanced. Crucially, using the broadband signal (4-25 Hz), a classifier was even able to decode the attended modality from single-trial data. Follow-up analysis showed that the effect was not driven by a narrow frequency in particular. Using direct cochlear recordings from deaf individuals, our findings suggest that cochlear spiral ganglion cells are sensitive to top-down attentional modulations. Given the putatively broad hair-cell degeneration of these individuals, the effects are likely mediated by alternative efferent pathways as compared to previous studies using otoacoustic emissions. Successful classification of single-trial data could additionally have a significant impact on future closed-loop CI developments that incorporate real-time optimization of CI parameters based on the current mental state of the user.

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Section: Discussionsupporting

confidence: 52%

Section: Discussionsupporting

confidence: 52%

Section: Human Auditory Nerve Activity Is Modulated By Selective Attentionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Direct Cochlear Recordings in Humans Show a Theta Rhythmic Modulation of Auditory Nerve Activity by Selective Attention

et al. 2022

Self Cite

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show abstract

“…Spiral ganglion cells making up the auditory-nerve fibers are mainly innervated by connections of the lateral olivocochlear complex (LOC) respectively (Warr and Guinan, 1979;Elgueda and Delano, 2020). Attentional modulations of OAEs can thus be seen as a proxy for subcortical attentional modulations via MOC synapses and have been connected with low-frequency (<10 Hz) oscillatory mechanisms at the cochlear level during alternating selective attention (Dragicevic et al, 2019), with increases in the theta band (~6 Hz) when attending to upcoming auditory input during an silent cue-target interval (Köhler et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

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

Gehmacher

Reisinger

Hartmann

et al. 2021

Preprint

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The architecture of the efferent auditory system enables prioritization of strongly overlapping spatiotemporal cochlear activation patterns elicited by relevant and irrelevant inputs. So far, attempts at finding such attentional modulations of cochlear activity delivered indirect insights in humans or required direct recordings in animals. The extent to which spiral ganglion cells forming the human hearing nerve are sensitive to selective attention remains largely unknown. We investigated this question by testing the effects of attending to either the auditory or visual modality on human hearing nerve activity that was directly recorded with standard commercial MED-EL cochlear implants (CI) during a stimulus-free (anticipatory) cue-target interval. When attending the upcoming auditory input, ongoing hearing nerve activity within the theta range (5-8 Hz) was enhanced. Crucially, using the broadband signal (4-25 Hz), a classifier was even able to decode the attended modality from single-trial data. Follow-up analysis showed that the effect was not driven by a narrow frequency in particular. Using direct cochlear recordings from deaf individuals, our findings suggest that cochlear spiral ganglion cells are sensitive to top-down attentional modulations. Given the putatively broad hair-cell degeneration of these individuals, the effects are likely mediated by alternative efferent pathways as compared to previous studies using otoacoustic emissions. Successful classification of single-trial data could additionally have a significant impact on future closed-loop CI developments that incorporate real-time optimization of CI parameters based on the current mental state of the user.

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Eye movements track prioritized auditory features in selective attention to natural speech

Gehmacher,

Schubert,

Schmidt

et al. 2024

Nat Commun

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Over the last decades, cognitive neuroscience has identified a distributed set of brain regions that are critical for attention. Strong anatomical overlap with brain regions critical for oculomotor processes suggests a joint network for attention and eye movements. However, the role of this shared network in complex, naturalistic environments remains understudied. Here, we investigated eye movements in relation to (un)attended sentences of natural speech. Combining simultaneously recorded eye tracking and magnetoencephalographic data with temporal response functions, we show that gaze tracks attended speech, a phenomenon we termed ocular speech tracking. Ocular speech tracking even differentiates a target from a distractor in a multi-speaker context and is further related to intelligibility. Moreover, we provide evidence for its contribution to neural differences in speech processing, emphasizing the necessity to consider oculomotor activity in future research and in the interpretation of neural differences in auditory cognition.

show abstract

Cochlear activity in silent cue-target intervals shows a theta-rhythmic pattern and is correlated to attentional alpha and theta modulations

Cited by 15 publications

References 60 publications

Direct Cochlear Recordings in Humans Show a Theta Rhythmic Modulation of Auditory Nerve Activity by Selective Attention

Direct Cochlear Recordings in Humans Show a Theta Rhythmic Modulation of Auditory Nerve Activity by Selective Attention

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

Eye movements track prioritized auditory features in selective attention to natural speech

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