Characterization of Volume-Based Changes in Cortical Auditory Evoked Potentials and Prepulse Inhibition

Potter, Thomas; Li, Sheng; Nguyen, Thinh; Nguyen, Trac; Ince, Nuri F.; Zhang, Yingchun

doi:10.1038/s41598-017-11191-3

Cited by 5 publications

(5 citation statements)

References 52 publications

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“…However, the correlational finding between the attenuation of the N1 component and the memory performance of individual subjects suggests that whatever differences in performance we find are at least partly due to perceptual differences during learning: The auditory N1 component is a well‐studied marker of early auditory processing. It is mainly generated in and around primary auditory cortex (Celesia, 1976; Giard et al, 1994); its amplitude is known to reflect stimulus intensity (louder stimuli trigger a stronger N1 amplitude), and it is known to be attenuated for self‐generated stimuli (Bäß et al, 2008; Potter et al, 2017). N1 suppression is frequently interpreted as reflecting an internal predictive mechanism serving the discrimination by the perceptual system of self‐ and externally generated sensory events (Baess et al, 2011; Horváth, 2015; Horváth et al, 2012; Schäfer & Marcus, 1973; Timm et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Neural signatures of memory gain through active exploration in an oculomotor‐auditory learning task

2023

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Active engagement improves learning and memory, and self‐ versus externally generated stimuli are processed differently: perceptual intensity and neural responses are attenuated. Whether the attenuation is linked to memory formation remains unclear. This study investigates whether active oculomotor control over auditory stimuli—controlling for movement and stimulus predictability—benefits associative learning, and studies the underlying neural mechanisms. Using EEG and eye tracking we explored the impact of control during learning on the processing and memory recall of arbitrary oculomotor‐auditory associations. Participants (N = 23) learned associations through active exploration or passive observation, using a gaze‐controlled interface to generate sounds. Our results show faster learning progress in the active condition. ERPs time‐locked to the onset of sound stimuli showed that learning progress was linked to an attenuation of the P3a component. The detection of matching movement‐sound pairs triggered a target‐matching P3b. There was no general modulation of ERPs through active learning. However, we found continuous variation in the strength of the memory benefit across participants: some benefited more strongly from active control during learning than others. This was paralleled in the strength of the N1 attenuation effect for self‐generated stimuli, which was correlated with memory gain in active learning. Our results show that control helps learning and memory and modulates sensory responses. Individual differences during sensory processing predict the strength of the memory benefit. Taken together, these results help to disentangle the effects of agency, unspecific motor‐based neuromodulation, and predictability on ERP components and establish a link between self‐generation effects and active learning memory gain.

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Section: Discussionmentioning

confidence: 99%

Neural signatures of memory gain through active exploration in an oculomotor‐auditory learning task

2023

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“…The AEPs are recorded in many subcortical and cortical structures. The N1 and P2 peaks, two early AEP components, are commonly considered to reflect the sound intensity 67 – 69 . The AEP amplitude, like other sensory responses, is attenuated during low arousal states 70 – 72 .…”

Section: Discussionmentioning

confidence: 99%

Phasic activation of the locus coeruleus attenuates the acoustic startle response by increasing cortical arousal

Yang

Logothetis

Eschenko

2021

Sci Rep

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An alerting sound elicits the Acoustic Startle Response (ASR) that is dependent on the sound volume and organisms’ state, which is regulated by neuromodulatory centers. The locus coeruleus (LC) neurons respond to salient stimuli and noradrenaline release affects sensory processing, including auditory. The LC hyperactivity is detrimental for sensorimotor gating. We report here that priming microstimulation of the LC (100-ms at 20, 50, and 100 Hz) attenuated the ASR in rats. The ASR reduction scaled with frequency and 100 Hz-stimulation mimicked pre-exposure to a non-startling tone (prepulse). A rapid (~ 40 ms) EEG desynchronization following the LC stimulation suggested that the ASR reduction was due to elevated cortical arousal. The effects of LC stimulation on the ASR and EEG were consistent with systematic relationships between the ASR, awake/sleep state, and the cortical arousal level; for that matter, a lower ASR amplitude corresponded to a higher arousal level. Thus, the LC appears to modulate the ASR circuit via its diffuse ascending projections to the forebrain saliency network. The LC modulation directly in the brainstem and/or spinal cord may also play a role. Our findings suggest the LC as a part of the brain circuitry regulating the ASR, while underlying neurophysiological mechanisms require further investigation.

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“…1, the background music-preferred versus unwanted genre-was the same and was generated based on the generated playlists (a process described above). The music was broadcast via external speakers and the sound level varied between 30 and 35 decibels, the level being considered safe according to international regulations, specialized scientific studies [35], and from the perspective of national regulations imposed by the Ministry of Health.…”

Section: Performing the Experimentsmentioning

confidence: 99%

A Knowledge-Based Pilot Study on Assessing the Music Influence

Buraga¹,

Dospinescu²

2021

Computers, Materials &Amp; Continua

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A knowledge-driven approach is proposed for assessing the music influence on university students. The proposed method of modeling and conducting the interactive pilot study can be useful to convey other surveys, interviews, and experiments created in various phases of the user interface (UI) design processes, as part of a general human-computer interaction (HCI) methodology. Benefiting from existing semantic Web and linked data standards, best practices, and tools, a microservice-oriented system is developed as a testbed platform able to generate playlists in a smart way according to users' music preferences. This novel approach could bring also benefits for user interface adaptation by using semantic Web techniques. Statistical analysis based on the ANOVA method and post-experiment survey data led to the conclusion that music listened has a significant impact on students' cognitive abilities in various contexts. All obtained results were semantically enhanced by using different conceptual models in order to create a knowledge graph providing support for automated reasoning. Also, a knowledge-based persona Web smart editor was implemented in order to include music preferences for certain categories of the potential users operating a specific interactive system.

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Characterization of Volume-Based Changes in Cortical Auditory Evoked Potentials and Prepulse Inhibition

Cited by 5 publications

References 52 publications

Neural signatures of memory gain through active exploration in an oculomotor‐auditory learning task

Neural signatures of memory gain through active exploration in an oculomotor‐auditory learning task

Phasic activation of the locus coeruleus attenuates the acoustic startle response by increasing cortical arousal

A Knowledge-Based Pilot Study on Assessing the Music Influence

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