Effects of cTBS on the Frequency-Following Response and Other Auditory Evoked Potentials

López‐Caballero, Fran; Martin-Trias, Pablo; Ribas-Prats, Teresa; Gorina-Careta, Natàlia; Bartrés‐Faz, David; Escera, Carles

doi:10.3389/fnhum.2020.00250

Cited by 10 publications

(5 citation statements)

References 120 publications

(164 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Thus, the orientation and location of intracranial current densities induced by tDCS were not optimized for neuromodulation of lower auditory brain areas (i.e., brainstem). However, we note that even with more optimal foci for auditory neuromodulation (e.g., superior temporal lobe), the effects of magnetic (TMS) and current (tDCS) stimulation on FFRs remains equivocal ( López-Caballero et al, 2020 ; Mai and Howell, 2021 ). For example, continuous theta burst TMS over right auditory cortex fails to yield measurable changes in FFRs suggesting deeper, more peripheral sources (i.e., brainstem) which are insensitive to cortical stimulation ( López-Caballero et al, 2020 ).…”

Section: Discussionmentioning

confidence: 90%

“…However, we note that even with more optimal foci for auditory neuromodulation (e.g., superior temporal lobe), the effects of magnetic (TMS) and current (tDCS) stimulation on FFRs remains equivocal ( López-Caballero et al, 2020 ; Mai and Howell, 2021 ). For example, continuous theta burst TMS over right auditory cortex fails to yield measurable changes in FFRs suggesting deeper, more peripheral sources (i.e., brainstem) which are insensitive to cortical stimulation ( López-Caballero et al, 2020 ). In contrast, Mai and Howell (2021) showed that tDCS neurostimulation over right auditory cortex can cause subtle decreases in speech-FFR amplitudes (i.e., F0 coding), though apparently without concomitant changes in pitch discrimination behavior ( Mai and Howell, 2021 ).…”

Section: Discussionmentioning

confidence: 90%

“… Heimrath et al (2016) found anodal tDCS over temporal lobe increased the P1 (∼50 ms) response to consonant-vowel speech tokens similar to those used here. However, other studies have failed to observe significant ERP changes with similar tDCS stimulation protocols ( Kunzelmann et al, 2018 ; López-Caballero et al, 2020 ). Our study differs from prior work in that our stimulation targets were located over frontal (rather than auditory temporal) cortical sites.…”

Section: Discussionmentioning

confidence: 96%

See 2 more Smart Citations

Transcranial Direct Current Stimulation Combined With Listening to Preferred Music Alters Cortical Speech Processing in Older Adults

et al. 2022

View full text Add to dashboard Cite

Emerging evidence suggests transcranial direct current stimulation (tDCS) can improve cognitive performance in older adults. Similarly, music listening may improve arousal and stimulate subsequent performance on memory-related tasks. We examined the synergistic effects of tDCS paired with music listening on auditory neurobehavioral measures to investigate causal evidence of short-term plasticity in speech processing among older adults. In a randomized sham-controlled crossover study, we measured how combined anodal tDCS over dorsolateral prefrontal cortex (DLPFC) paired with listening to autobiographically salient music alters neural speech processing in older adults compared to either music listening (sham stimulation) or tDCS alone. EEG assays included both frequency-following responses (FFRs) and auditory event-related potentials (ERPs) to trace neuromodulation-related changes at brainstem and cortical levels. Relative to music without tDCS (sham), we found tDCS alone (without music) modulates the early cortical neural encoding of speech in the time frame of ∼100–150 ms. Whereas tDCS by itself appeared to largely produce suppressive effects (i.e., reducing ERP amplitude), concurrent music with tDCS restored responses to those of the music+sham levels. However, the interpretation of this effect is somewhat ambiguous as this neural modulation could be attributable to a true effect of tDCS or presence/absence music. Still, the combined benefit of tDCS+music (above tDCS alone) was correlated with listeners’ education level suggesting the benefit of neurostimulation paired with music might depend on listener demographics. tDCS changes in speech-FFRs were not observed with DLPFC stimulation. Improvements in working memory pre to post session were also associated with better speech-in-noise listening skills. Our findings provide new causal evidence that combined tDCS+music relative to tDCS-alone (i) modulates the early (100–150 ms) cortical encoding of speech and (ii) improves working memory, a cognitive skill which may indirectly bolster noise-degraded speech perception in older listeners.

show abstract

Section: Discussionmentioning

confidence: 90%

Section: Discussionmentioning

confidence: 90%

Section: Discussionmentioning

confidence: 96%

See 1 more Smart Citation

Transcranial Direct Current Stimulation Combined With Listening to Preferred Music Alters Cortical Speech Processing in Older Adults

et al. 2022

View full text Add to dashboard Cite

show abstract

“…Our current results warrant further research that directly compares the lateralization of right versus left MT+ stimulation effects on MOT. Second, although we used fMRI guided neuronavigation to target cTBS, we cannot rule out the possibility that cTBS effects propagated to surrounding cortical areas and/or altered activity (Casula et al, 2016;L opez-Caballero et al, 2020;Rocchi et al, 2018) in other nodes of the neural network involved in MOT. Third, because we did not include a low-level motion control task, we do not know the extent to which motion processing deficits per se were involved in reduced MOT task performance following active MT+ cTBS.…”

Section: Resultsmentioning

confidence: 99%

Continuous theta burst TMS of area MT+ impairs attentive motion tracking

Chakraborty

Tran

Silva

et al. 2021

Eur J of Neuroscience

View full text Add to dashboard Cite

Attentive motion tracking deficits measured using multiple object tracking (MOT) tasks have been identified in a number of neurodevelopmental disorders such as amblyopia and autism. These deficits are often attributed to the abnormal development of high-level attentional networks. However, neuroimaging evidence from amblyopia suggests that reduced MOT performance can be explained by impaired function in motion-sensitive area MT+ alone. To test the hypothesis that a subtle disruption of MT+ function could cause MOT impairment, we assessed whether continuous theta burst stimulation (cTBS) of MT+ influenced MOT task accuracy in individuals with normal vision. The MOT stimulus consisted of four target and four distractor dots and was presented at AE10 eccentricity (right/left hemifield). fMRI-guided cTBS was applied to left MT+. Participants (n = 13, age: 27 AE 3) attended separate active and sham cTBS sessions where the MOT task was completed before, 5-min post-and 30-min post-cTBS. Active cTBS significantly impaired MOT task accuracy relative to baseline for the right (stimulated) hemifield 5-min (10 AE 2% reduction) and 30-min (14 AE 3% reduction) post-stimulation. No impairment occurred within the left (control) hemifield after active cTBS or for either hemifield after sham cTBS. These results highlight the importance of lower level motion processing for MOT, suggesting that a minor disruption of MT+ function alone is sufficient to cause a deficit in MOT performance.

show abstract

“…FFRs are scalp-recorded potentials reflecting a mixture of phase locked activity from several nuclei along the auditory pathway (Smith et al 1975;Sohmer et al 1977;Skoe and Kraus 2010;. Though cortex can contribute to FFRs under limited circumstances (Coffey, Herholz, et al 2016), speech-FFRs are dominantly generated by midbrain sources (i.e., inferior colliculus, IC) when recorded via EEG using high (> 150 Hz) fundamental frequency stimuli (Kiren et al 1994;López-Caballero et al 2020;Bidelman and Momtaz 2021;Gorina-Careta et al 2021;Price and Bidelman 2021). While the IC is likely too early along the processing hierarchy to show bottom-up, categorical organization de novo, top-down influences from cortex via the descending corticofugal system (Gao and Suga 1998) could modulate brainstem speech representations to produce categorical encoding effects as was recently observed in human FFRs (Price and Bidelman 2021;Lai et al 2022;Carter and Bidelman 2023;Lai et al 2023).…”

mentioning

confidence: 99%

Duplex perception reveals brainstem auditory representations are modulated by listeners’ ongoing percept for speech

Rizzi

Bidelman

2023

Preprint

View full text Add to dashboard Cite

So-called duplex speech stimuli with perceptually ambiguous spectral cues to one ear and isolated low- vs. high-frequency third formant "chirp" to the opposite ear yield a coherent percept supporting their phonetic categorization. Critically, such dichotic sounds are only perceived categorically upon binaural integration. Here, we used frequency-following responses (FFRs), scalp-recorded potentials reflecting phase-locked subcortical activity, to investigate brainstem responses to fused speech percepts and to determine whether FFRs reflect binaurally integrated category-level representations. We recorded FFRs to diotic and dichotic stop-consonants (/da/, /ga/) that either did or did not require binaural fusion to properly label along with perceptually ambiguous sounds without clear phonetic identity. Behaviorally, listeners showed clear categorization of dichotic speech tokens confirming they were heard with a fused, phonetic percept. Neurally, we found FFRs were stronger for categorically perceived speech relative to category-ambiguous tokens but also differentiated phonetic categories for both diotically and dichotically presented speech sounds. Correlations between neural and behavioral data further showed FFR latency predicted the degree to which listeners labeled tokens as "da" vs. "ga". The presence of binaurally integrated, category-level information in FFRs suggests human brainstem processing reflects a surprisingly abstract level of the speech code typically circumscribed to much later cortical processing.

show abstract

Effects of cTBS on the Frequency-Following Response and Other Auditory Evoked Potentials

Cited by 10 publications

References 120 publications

Transcranial Direct Current Stimulation Combined With Listening to Preferred Music Alters Cortical Speech Processing in Older Adults

Transcranial Direct Current Stimulation Combined With Listening to Preferred Music Alters Cortical Speech Processing in Older Adults

Continuous theta burst TMS of area MT+ impairs attentive motion tracking

Duplex perception reveals brainstem auditory representations are modulated by listeners’ ongoing percept for speech

Contact Info

Product

Resources

About