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14. High vowel processing in deaf Italian children with unilateral cochlear implants: A neurophysiologic and behavioral study

Author

Garrapa L., Bottari D., Calabarese A., Pavani F., De Benedetto M., Vitale S., Monastero P., Greco M., GRIMALDI, Milko Antonino, Garrapa, L., Bottari, D., Grimaldi, Milko Antonino, Calabarese, A., Pavani, F., De Benedetto, M., Vitale, S., Monastero, P., and Greco, M.

Subjects
otorhinolaryngologic diseases
Abstract

Cochlear implants partially restore auditory sensation in individuals affected by severe to profound hearing loss. We investigated vowel detection, identification, and discrimination in a group of congenitally-deafened, unilaterally-implanted, Italian children and in a group of age-matched controls, by combining behavioral and neurophysiologic measures. Comparable vowel identification and discrimination performance emerged for cochlear-implant and normal- hearing ch ildren at the behavioral level. At the neurophysiologic level, on the other hand, cochlear-implant children appeared to lag behind their age-matched normal- hearing peers for vowel detection and identification, but not for vowel discrimination. Length of cochlear implant use sign ificantly affected vowel processing at the neurophysiologic level, although not systematically.

Published
2013

20. Audio-Tactile Integration in Congenitally and Late Deaf Cochlear Implant Users

Author

Nava, E, Bottari, D, Villwock, A, Fengler, I, Büchner, A, Lenarz, T, Röder, B, NAVA, ELENA HAE KYUNG, Röder, B., Nava, E, Bottari, D, Villwock, A, Fengler, I, Büchner, A, Lenarz, T, Röder, B, NAVA, ELENA HAE KYUNG, and Röder, B.

Abstract

Several studies conducted in mammals and humans have shown that multisensory processing may be impaired following congenital sensory loss and in particular if no experience is achieved within specific early developmental time windows known as sensitive periods. In this study we investigated whether basic multisensory abilities are impaired in hearing-restored individuals with deafness acquired at different stages of development. To this aim, we tested congenitally and late deaf cochlear implant (CI) recipients, age-matched with two groups of hearing controls, on an audio-tactile redundancy paradigm, in which reaction times to unimodal and crossmodal redundant signals were measured. Our results showed that both congenitally and late deaf CI recipients were able to integrate audio-tactile stimuli, suggesting that congenital and acquired deafness does not prevent the development and recovery of basic multisensory processing. However, we found that congenitally deaf CI recipients had a lower multisensory gain compared to their matched controls, which may be explained by their faster responses to tactile stimuli. We discuss this finding in the context of reorganisation of the sensory systems following sensory loss and the possibility that these changes cannot be "rewired" through auditory reafferentation. © 2014 Nava et al.

Published
2014

21. Enhanced reactivity to visual stimuli in deaf individuals

Author

Bottari, D, Nava, E, Ley, P, Pavani, F, NAVA, ELENA HAE KYUNG, Pavani, F., Bottari, D, Nava, E, Ley, P, Pavani, F, NAVA, ELENA HAE KYUNG, and Pavani, F.

Abstract

Purpose: Several studies have reported faster response time to visual stimuli in profoundly deaf individuals. This result is often linked to the processing of peripheral targets, and it is assumed to occur in relation to attention orienting. We evaluated whether enhanced reactivity to visual events in profoundly deaf individuals can be explained by faster orienting of visual attention alone. Methods: We examined 11 deaf individuals and 11 hearing controls, in a simple detection task and in a shape discrimination task. While simple detection can be performed under distributed attention, shape discrimination requires orienting of spatial attention to the target. The same visual targets served for both tasks, presented at central or peripheral locations and corrected for cortical magnification. Results: The simple detection task revealed faster RTs in deaf than hearing controls, regardless of target location. Moreover, while hearing controls paid a cost in responding to peripheral than central targets, deaf participants performed equally well regardless of target eccentricity. In the shape discrimination task deaf never outperformed hearing controls. Conclusions: These findings reveal that enhanced reactivity to visual stimuli in the deaf cannot be explained only by faster orienting of visual attention and can emerge for centr l as well as peripheral targets. Moreover, the persisting advantage for peripheral locations in the deaf, observed here under distributed attention, suggests that this spatially-selective effect could result from reorganised sensory processing rather than different attentional gradients. © 2010 - IOS Press and the authors. All rights reserved.

Published
2010

22. Hearing again with two ears: Recovery of spatial hearing after bilateral cochlear implantation

Author

Nava, E, Bottari, D, Portioli, G, Bonfioli, F, Beltrame, M, Formigoni, P, Pavani, F, NAVA, ELENA HAE KYUNG, Beltrame, MA, Pavani, F., Nava, E, Bottari, D, Portioli, G, Bonfioli, F, Beltrame, M, Formigoni, P, Pavani, F, NAVA, ELENA HAE KYUNG, Beltrame, MA, and Pavani, F.

Abstract

Bilateral cochlear implants (CI) offer a unique opportunity for the study of spatial hearing plasticity in humans. Here we studied the recovery of spatial hearing in two sequential bilateral CI recipients, adopting a longitudinal approach. Each recipient was tested in a sound-source identification task shortly after bilateral activation and at 1, 6, and 12 months follow-up. The results show fast recovery (1 month from CI activation) in the recipient who had substantial experience with auditory cues in adulthood. By contrast, the bilateral CI recipient who developed profound deafness in childhood, regained spatial hearing abilities only 12 months after CI activation. These findings provide the first direct evidence that recovery of auditory spatial abilities in bilateral CI recipients can occur shortly after activation of the two devices. In addition, they suggest that previous auditory experience can constrain the time course of this recovery. © 2008 Elsevier Ltd. All rights reserved.

Published
2009

23. Spatial hearing with a single cochlear implant in late-implanted adults

Author

Nava, E, Bottari, D, Bonfioli, F, Beltrame, M, Pavani, F, NAVA, ELENA HAE KYUNG, Beltrame, MA, Pavani, F., Nava, E, Bottari, D, Bonfioli, F, Beltrame, M, Pavani, F, NAVA, ELENA HAE KYUNG, Beltrame, MA, and Pavani, F.

Abstract

We assessed sound localisation abilities of late-implanted adults fitted with a single cochlear implant (CI) and examined whether these abilities are affected by the duration of implant use. Ten prelingually and four postlingually deafened adults who received a unilateral CI were tested in a sound-source identification task. Above chance performance was observed in those prelingual CI recipients who had worn their implant for longer time (9 years on average), revealing some monaural sound localisation abilities in this population but only after extensive CI use. On the contrary, the four postlingual recipients performed equal or better with respect to the best prelingual participants despite shorter experience with the monaural implant (11 months on average). Our findings reveal that some sound localisation ability can emerge in prelingually deafened adults fitted with a single implant, at least in a controlled laboratory setting. This ability, however, appears to emerge only after several years of CI use. Furthermore, the results of four postlingually deafened adults suggest that early experience with auditory cues may result in more rapid acquisition of spatial hearing with a single CI. © 2009 Elsevier B.V. All rights reserved.

Published
2009

25. Visual temporal order judgment in profoundly deaf individuals

Author

Nava, E, Bottari, D, Zampini, M, Pavani, F, NAVA, ELENA HAE KYUNG, Pavani, F., Nava, E, Bottari, D, Zampini, M, Pavani, F, NAVA, ELENA HAE KYUNG, and Pavani, F.

Abstract

We investigated temporal processing in profoundly deaf individuals by testing their ability to make temporal order judgments (TOJs) for pairs of visual stimuli presented at central or peripheral visual eccentricities. Ten profoundly deaf participants judged which of the two visual stimuli appearing on opposite sides of central fixation was delivered first. Stimuli were presented either symmetrically, at central or peripheral locations, or asymmetrically (i.e. one central and the other peripheral) at varying stimulus onset asynchronies (SOAs) using the method of constant stimuli. Two groups of hearing controls were also tested in this task: 10 hearing controls auditory-deprived during testing and 12 hearing controls who were not subjected to any deprivation procedure. Temporal order thresholds (i.e. just noticeable differences) and points of subjective simultaneity for the two visual stimuli did not differ between groups. However, faster discrimination responses were systematically observed in the deaf than in either group of hearing controls, especially when the first of the two stimuli appeared at peripheral locations. Contrary to some previous findings, our results show that a life-long auditory deprivation does not alter temporal processing abilities in the millisecond range. In fact, we show that deaf participants obtain similar temporal thresholds to hearing controls, while also responding much faster. This enhanced reactivity is documented here for the first time in the context of a temporal processing task, and we suggest it may constitute a critical aspect of the functional changes occurring as a consequence of profound deafness. © 2008 Springer-Verlag.

Published
2008

26. Audiovisual integration in patients with visual deficit

Author

Frassinetti, F, Bolognini, N, Bottari, D, Bonora, A, Làdavas, E, Làdavas, E., BOLOGNINI, NADIA, Frassinetti, F, Bolognini, N, Bottari, D, Bonora, A, Làdavas, E, Làdavas, E., and BOLOGNINI, NADIA

Abstract

In the present study, we investigated the possibility that bimodal audiovisual stimulation of the affected hemifield can improve perception of the visual events in the blind hemifield of hemianopic patients, as it was previously demonstrated in neglect patients. Moreover, it has been shown that ‘‘heteromodal’’ and ‘‘sensory-specific’’ cortices are involved in crossmodal integration. Thus, the second aim of the present study was to examine whether audiovisual integration influences visual detection in patients with different cortical lesions responsible of different kinds of visual disorders. More specifically, we investigated cross-modal, audiovisual integration in patients with visual impairment due to a visual field deficit (e.g., hemianopia) or visuospatial attentional deficit (e.g., neglect) and patients with both hemianopia and neglect. Patients were asked to detect visual stimuli presented alone or in combination with auditory stimuli that could be spatially aligned or not with the visual ones. The results showed an enhancement of visual detection in cross-modal condition (spatially aligned condition) comparing to unimodal visual condition only in patients with hemianopia or neglect; by contrast, the multisensory integration did not occur when patients presented both deficits. These data suggest that patients with visual disorders can enormously benefit the multisensory integration. Moreover, they showed a different influence of cortical lesion on multisensory integration. Thus, the present results show the important adaptive meaning of multisensory integration and are very promising with respect to the possibility of recovery from visual and spatial impairments

Published
2005

28. Spatial hearing with a single cochlear implant in late-implanted adults

Author

Francesca Bonfioli, Millo Achille Beltrame, Davide Bottari, Francesco Pavani, Elena Nava, Nava, E, Bottari, D, Bonfioli, F, Beltrame, M, and Pavani, F

Subjects
Adult, Male, medicine.medical_specialty, Time Factors, Adolescent, Hearing loss, medicine.medical_treatment, Population, Deafness, Monaural, Audiology, Young Adult, Auditory plasticity, Cochlear implant, otorhinolaryngologic diseases, Humans, Speech, Medicine, Sound Localization, education, cochlear implants, plasticity, localisation, education.field_of_study, business.industry, Single implant, Middle Aged, Sensory Systems, Cochlear Implants, Rapid acquisition, Acoustic Stimulation, Female, Implant, medicine.symptom, business
Abstract

We assessed sound localisation abilities of late-implanted adults fitted with a single cochlear implant (CI) and examined whether these abilities are affected by the duration of implant use. Ten prelingually and four postlingually deafened adults who received a unilateral CI were tested in a sound-source identification task. Above chance performance was observed in those prelingual CI recipients who had worn their implant for longer time (9 years on average), revealing some monaural sound localisation abilities in this population but only after extensive CI use. On the contrary, the four postlingual recipients performed equal or better with respect to the best prelingual participants despite shorter experience with the monaural implant (11 months on average). Our findings reveal that some sound localisation ability can emerge in prelingually deafened adults fitted with a single implant, at least in a controlled laboratory setting. This ability, however, appears to emerge only after several years of CI use. Furthermore, the results of four postlingually deafened adults suggest that early experience with auditory cues may result in more rapid acquisition of spatial hearing with a single CI. © 2009 Elsevier B.V. All rights reserved.

Published
2009

29. Visual temporal order judgment in profoundly deaf individuals

Author

Elena Nava, Francesco Pavani, Massimiliano Zampini, Davide Bottari, Nava, E, Bottari, D, Zampini, M, and Pavani, F

Subjects
Adult, Male, medicine.medical_specialty, Time Factors, Visual perception, Adolescent, Deafness, Neuropsychological Tests, Stimulus (physiology), Audiology, Perceptual Disorders, Visual processing, Disability Evaluation, Judgment, Reaction Time, otorhinolaryngologic diseases, medicine, Psychophysics, Humans, Attention, Auditory deprivation, Neuronal Plasticity, General Neuroscience, temporal order judgment, deafness, plasticity, Adaptation, Physiological, Visual field, Sensory Thresholds, Time Perception, Fixation (visual), Visual Perception, Female, Sensory Deprivation, Just noticeable, Psychology, Photic Stimulation
Abstract

We investigated temporal processing in profoundly deaf individuals by testing their ability to make temporal order judgments (TOJs) for pairs of visual stimuli presented at central or peripheral visual eccentricities. Ten profoundly deaf participants judged which of the two visual stimuli appearing on opposite sides of central fixation was delivered first. Stimuli were presented either symmetrically, at central or peripheral locations, or asymmetrically (i.e. one central and the other peripheral) at varying stimulus onset asynchronies (SOAs) using the method of constant stimuli. Two groups of hearing controls were also tested in this task: 10 hearing controls auditory-deprived during testing and 12 hearing controls who were not subjected to any deprivation procedure. Temporal order thresholds (i.e. just noticeable differences) and points of subjective simultaneity for the two visual stimuli did not differ between groups. However, faster discrimination responses were systematically observed in the deaf than in either group of hearing controls, especially when the first of the two stimuli appeared at peripheral locations. Contrary to some previous findings, our results show that a life-long auditory deprivation does not alter temporal processing abilities in the millisecond range. In fact, we show that deaf participants obtain similar temporal thresholds to hearing controls, while also responding much faster. This enhanced reactivity is documented here for the first time in the context of a temporal processing task, and we suggest it may constitute a critical aspect of the functional changes occurring as a consequence of profound deafness. © 2008 Springer-Verlag.

Published
2008

30. Audiovisual Integration in Patients with Visual Deficit

Author

Elisabetta Làdavas, Annalisa Bonora, Francesca Frassinetti, Nadia Bolognini, Davide Bottari, Frassinetti, F, Bolognini, N, Bottari, D, Bonora, A, and Làdavas, E

Subjects
Male, Auditory perception, medicine.medical_specialty, Signal Detection, Psychological, Visual perception, genetic structures, Cognitive Neuroscience, media_common.quotation_subject, Visual impairment, Spatial Behavior, Audiology, M-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICA, multisensory, neglect, hemianopia, Neglect, Perceptual Disorders, Reaction Time, medicine, Humans, Contrast (vision), Attention, Hemianopsia, Aged, Retrospective Studies, media_common, Cerebral Cortex, Analysis of Variance, Multisensory integration, medicine.disease, eye diseases, Acoustic Stimulation, Auditory Perception, Visual Perception, Female, medicine.symptom, Psychology, Neuroscience, Photic Stimulation
Abstract

In the present study, we investigated the possibility that bimodal audiovisual stimulation of the affected hemifield can improve perception of the visual events in the blind hemifield of hemianopic patients, as it was previously demonstrated in neglect patients. Moreover, it has been shown that “hetero-modal” and “sensory-specific” cortices are involved in cross-modal integration. Thus, the second aim of the present study was to examine whether audiovisual integration influences visual detection in patients with different cortical lesions responsible of different kinds of visual disorders. More specifically, we investigated cross-modal, audiovisual integration in patients with visual impairment due to a visual field deficit (e.g., hemianopia) or visuospatial attentional deficit (e.g., neglect) and patients with both hemianopia and neglect. Patients were asked to detect visual stimuli presented alone or in combination with auditory stimuli that could be spatially aligned or not with the visual ones. The results showed an enhancement of visual detection in cross-modal condition (spatially aligned condition) comparing to unimodal visual condition only in patients with hemianopia or neglect; by contrast, the multi-sensory integration did not occur when patients presented both deficits. These data suggest that patients with visual disorders can enormously benefit the multisensory integration. Moreover, they showed a different influence of cortical lesion on multi-sensory integration. Thus, the present results show the important adaptive meaning of multisensory integration and are very promising with respect to the possibility of recovery from visual and spatial impairments.

Published
2005

31. Audio-tactile integration in congenitally and late deaf cochlear implant users

Author

Elena Nava, Brigitte Röder, Davide Bottari, Andreas Büchner, Thomas Lenarz, Agnes Villwock, Ineke Fengler, Nava, E, Bottari, D, Villwock, A, Fengler, I, Büchner, A, Lenarz, T, and Röder, B

Subjects
Male, medicine.medical_treatment, lcsh:Medicine, audio-tactile integration, cochlear implants, congenital and late deafness, plasticity, brain, sensitive periods, Audiology, Deafness, 0302 clinical medicine, Hearing, Time windows, Cochlear implant, Human Performance, Psychology, 10. No inequality, lcsh:Science, Multidisciplinary, Crossmodal, 05 social sciences, Sensory loss, Experimental Psychology, Middle Aged, Sensory Systems, Auditory System, Female, Sensory Perception, Research Article, Adult, medicine.medical_specialty, Sensory system, Context (language use), 050105 experimental psychology, Tactile stimuli, 03 medical and health sciences, Young Adult, Neuropsychology, Sensitive periods, medicine, otorhinolaryngologic diseases, Reaction Time, Humans, 0501 psychology and cognitive sciences, Behavior, lcsh:R, Biology and Life Sciences, Cochlear Implants, Persons With Hearing Impairments, Touch, lcsh:Q, Sensory Deprivation, 030217 neurology & neurosurgery, Neuroscience
Abstract

Several studies conducted in mammals and humans have shown that multisensory processing may be impaired following congenital sensory loss and in particular if no experience is achieved within specific early developmental time windows known as sensitive periods. In this study we investigated whether basic multisensory abilities are impaired in hearing-restored individuals with deafness acquired at different stages of development. To this aim, we tested congenitally and late deaf cochlear implant (CI) recipients, age-matched with two groups of hearing controls, on an audio-tactile redundancy paradigm, in which reaction times to unimodal and crossmodal redundant signals were measured. Our results showed that both congenitally and late deaf CI recipients were able to integrate audio-tactile stimuli, suggesting that congenital and acquired deafness does not prevent the development and recovery of basic multisensory processing. However, we found that congenitally deaf CI recipients had a lower multisensory gain compared to their matched controls, which may be explained by their faster responses to tactile stimuli. We discuss this finding in the context of reorganisation of the sensory systems following sensory loss and the possibility that these changes cannot be "rewired" through auditory reafferentation. © 2014 Nava et al.

Published
2014

32. Prominent reflexive eye-movement orienting associated with deafness

Author

Matteo Valsecchi, Davide Bottari, Francesco Pavani, Bottari D., Valsecchi M., and Pavani F.

Subjects
education.field_of_study, genetic structures, Cognitive Neuroscience, Population, Eye movement, Eye movements, Covert, Reflexivity, Saccade, Neuroplasticity, Facilitation, otorhinolaryngologic diseases, Visual attention, Deafne, Psychology, education, Cortical plasticity, Cognitive psychology
Abstract

Profound deafness affects orienting of visual attention. Until now, research focused exclusively on covert attentional orienting, neglecting whether overt oculomotor behavior may also change in deaf people. Here we used the pro- and anti-saccade task to examine the relative contribution of reflexive and voluntary eye-movement control in profoundly deaf and hearing individuals. We observed a behavioral facilitation in reflexive compared to voluntary eye movements, indexed by faster saccade latencies and smaller error rates in pro- than anti-saccade trials, which was substantially larger in deaf than hearing participants. This provides the first evidence of plastic changes related to deafness in overt oculomotor behavior, and constitutes an ecologically relevant parallel to the modulations attributed to deafness in covert attention orienting. Our findings also have implications for designers of real and virtual environments for deaf people and reveal that experiments on deaf visual abilities must not ignore the prominent reflexive eye-movement orienting in this sensory-deprived population. © 2012 Copyright 2012 Psychology Press, an imprint of the Taylor & Francis Group, an Informa business.

Published
2012

33. Enhanced reactivity to visual stimuli in deaf individuals

Author

Pia Ley, Davide Bottari, Francesco Pavani, Elena Nava, Bottari, D, Nava, E, Ley, P, and Pavani, F

Subjects
Adult, Male, medicine.medical_specialty, Visual perception, Signal Detection, Psychological, Sensory processing, Plasticity, medicine.medical_treatment, Visual Physiology, Audiology, Deafness, Task (project management), Young Adult, Discrimination, Psychological, Developmental Neuroscience, Cortical magnification, otorhinolaryngologic diseases, medicine, Reaction Time, Visual attention, Humans, Attention, Deafne, Reactivity (psychology), Analysis of Variance, Multisensory, Neurology, Pattern Recognition, Visual, Female, Neurology (clinical), Visual Fields, Psychology, Photic Stimulation, Cognitive psychology
Abstract

Purpose: Several studies have reported faster response time to visual stimuli in profoundly deaf individuals. This result is often linked to the processing of peripheral targets, and it is assumed to occur in relation to attention orienting. We evaluated whether enhanced reactivity to visual events in profoundly deaf individuals can be explained by faster orienting of visual attention alone. Methods: We examined 11 deaf individuals and 11 hearing controls, in a simple detection task and in a shape discrimination task. While simple detection can be performed under distributed attention, shape discrimination requires orienting of spatial attention to the target. The same visual targets served for both tasks, presented at central or peripheral locations and corrected for cortical magnification. Results: The simple detection task revealed faster RTs in deaf than hearing controls, regardless of target location. Moreover, while hearing controls paid a cost in responding to peripheral than central targets, deaf participants performed equally well regardless of target eccentricity. In the shape discrimination task deaf never outperformed hearing controls. Conclusions: These findings reveal that enhanced reactivity to visual stimuli in the deaf cannot be explained only by faster orienting of visual attention and can emerge for centr l as well as peripheral targets. Moreover, the persisting advantage for peripheral locations in the deaf, observed here under distributed attention, suggests that this spatially-selective effect could result from reorganised sensory processing rather than different attentional gradients. © 2010 - IOS Press and the authors. All rights reserved.

Published
2010

34. Hearing again with two ears: Recovery of spatial hearing after bilateral cochlear implantation

Author

Patrizia Formigoni, Francesca Bonfioli, Millo Achille Beltrame, Elena Nava, Giovanna Portioli, Francesco Pavani, Davide Bottari, Nava, E, Bottari, D, Portioli, G, Bonfioli, F, Beltrame, M, Formigoni, P, and Pavani, F

Subjects
Sound localization, Adult, Male, medicine.medical_specialty, Hearing loss, Cognitive Neuroscience, medicine.medical_treatment, Experimental and Cognitive Psychology, Fast recovery, Monaural, Audiology, Deafness, Behavioral Neuroscience, Hearing, Cochlear implant, otorhinolaryngologic diseases, medicine, Humans, Sound Localization, Cochlear implantation, cochlear implants, spatial hearing, binaural hearing, plasticity, Communication, business.industry, Hearing Tests, Auditory Threshold, Recovery of Function, Middle Aged, Cochlear Implantation, Electric Stimulation, Cochlear Implants, Time course, Speech Perception, medicine.symptom, Psychology, business, Binaural recording, Follow-Up Studies
Abstract

Bilateral cochlear implants (CI) offer a unique opportunity for the study of spatial hearing plasticity in humans. Here we studied the recovery of spatial hearing in two sequential bilateral CI recipients, adopting a longitudinal approach. Each recipient was tested in a sound-source identification task shortly after bilateral activation and at 1, 6, and 12 months follow-up. The results show fast recovery (1 month from CI activation) in the recipient who had substantial experience with auditory cues in adulthood. By contrast, the bilateral CI recipient who developed profound deafness in childhood, regained spatial hearing abilities only 12 months after CI activation. These findings provide the first direct evidence that recovery of auditory spatial abilities in bilateral CI recipients can occur shortly after activation of the two devices. In addition, they suggest that previous auditory experience can constrain the time course of this recovery. © 2008 Elsevier Ltd. All rights reserved.

Published
2009

35. Brain Encoding of Naturalistic, Continuous, and Unpredictable Tactile Events.

Author

Castellani N, Federici A, Fantoni M, Ricciardi E, Garbarini F, and Bottari D

Subjects
Humans, Male, Female, Young Adult, Adult, Brain physiology, Fingers physiology, Touch physiology, Evoked Potentials, Somatosensory physiology, Brain Mapping, Functional Laterality physiology, Electroencephalography methods, Touch Perception physiology, Physical Stimulation
Abstract

Studies employing EEG to measure somatosensory responses have been typically optimized to compute event-related potentials in response to discrete events. However, tactile interactions involve continuous processing of nonstationary inputs that change in location, duration, and intensity. To fill this gap, this study aims to demonstrate the possibility of measuring the neural tracking of continuous and unpredictable tactile information. Twenty-seven young adults (females, 15) were continuously and passively stimulated with a random series of gentle brushes on single fingers of each hand, which were covered from view. Thus, tactile stimulations were unique for each participant and stimulated fingers. An encoding model measured the degree of synchronization between brain activity and continuous tactile input, generating a temporal response function (TRF). Brain topographies associated with the encoding of each finger stimulation showed a contralateral response at central sensors starting at 50 ms and peaking at ∼140 ms of lag, followed by a bilateral response at ∼240 ms. A series of analyses highlighted that reliable tactile TRF emerged after just 3 min of stimulation. Strikingly, topographical patterns of the TRF allowed discriminating digit lateralization across hands and digit representation within each hand. Our results demonstrated for the first time the possibility of using EEG to measure the neural tracking of a naturalistic, continuous, and unpredictable stimulation in the somatosensory domain. Crucially, this approach allows the study of brain activity following individualized, idiosyncratic tactile events to the fingers., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 Castellani et al.)

Published
2024
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36. Continuous tracking of effort and confidence while listening to speech-in-noise in young and older adults.

Author

Valzolgher C, Federici A, Giovanelli E, Gessa E, Bottari D, and Pavani F

Subjects
Humans, Male, Aged, Female, Adult, Young Adult, Middle Aged, Metacognition physiology, Aging physiology, Auditory Perception physiology, Self Concept, Aged, 80 and over, Age Factors, Noise, Speech Perception physiology
Abstract

Reporting discomfort when noise affects listening experience suggests that listeners may be aware, at least to some extent, of adverse environmental conditions and their impact on listening experience. This involves monitoring internal states (effort and confidence). Here we quantified continuous self-report indices that track one's own internal states and investigated age-related differences in this ability. We instructed two groups of young and older adults to continuously report their confidence and effort while listening to stories in fluctuating noise. Using cross-correlation analyses between the time series of fluctuating noise and those of perceived effort or confidence, we showed that (1) participants modified their assessment of effort and confidence based on variations in the noise, with a 4 s lag; (2) there were no differences between the groups. These findings imply extending this method to other areas, expanding the definition of metacognition, and highlighting the value of this ability for older adults., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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37. Early assessment of communicative competence in children with hearing loss using the Child-Caregiver Communication Assessment through Rebesco's Evaluation (CC-CARE) method.

Author

Rebesco R, Colombani A, Handjaras G, Bottari D, and Orzan E

Subjects
Humans, Male, Female, Child, Preschool, Child, Video Recording, Infant, Hearing Loss, Communication, Caregivers psychology
Abstract

Purpose: This work presents a new frame-by-frame video analysis method called Child-Caregiver Communication Assessment through Rebesco's Evaluation (CC-CARE), developed in the context of pediatric hearing loss as a rehabilitation tool for assessing children's early communication skills. CC-CARE stems from the commonly used Tait video analysis and extends it by including a new set of parameters aimed at disentangling between hearing-dependent and hearing-independent aspects of communication., Method: In this paper, we collected video samples of child-caregiver interactions in a group of 65 normal-hearing children and a group of 165 hearing-impaired children. For each group, we present the CC-CARE method and describe the parameters, their score distributions, correlations and we estimate the adherence of the CC-CARE scores with children's developmental trajectory. Moreover, we compare the results of CC-CARE scores between the two groups having had different development of the auditory system. Finally, a fully-data driven approach was employed to assess the consistency of the communicative efficacy index (CEI), a score aiming to capture a global result of the CC-CARE procedure., Results: Correlations among parameter scores were found in each within-group analysis, revealing CC-CARE's internal consistency in measuring associated but nonoverlapping communication dimensions. For both groups, CC-CARE scores were associated with participants' age. Differences between scores emerged for a between-group analysis, indicating CC-CARE sensitivity to extract communication differences as a function of the hearing status. For both groups, the data analysis revealed that the CEI captures large variance portions across all parameter scores of the CC-CARE method., Conclusions: Results provide the first evidence that the CC-CARE video analysis method could be a reliable tool capable of highlighting the cascading effects of hearing impairment on children's preverbal communicative efficacy. The CC-CARE method aims to support early rehabilitation of hearing loss by describing a child's communicative efficacy., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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38. Dissecting abstract, modality-specific and experience-dependent coding of affect in the human brain.

Author

Lettieri G, Handjaras G, Cappello EM, Setti F, Bottari D, Bruno V, Diano M, Leo A, Tinti C, Garbarini F, Pietrini P, Ricciardi E, and Cecchetti L

Subjects
Humans, Photic Stimulation, Prefrontal Cortex, Brain Mapping methods, Magnetic Resonance Imaging, Brain, Emotions
Abstract

Emotion and perception are tightly intertwined, as affective experiences often arise from the appraisal of sensory information. Nonetheless, whether the brain encodes emotional instances using a sensory-specific code or in a more abstract manner is unclear. Here, we answer this question by measuring the association between emotion ratings collected during a unisensory or multisensory presentation of a full-length movie and brain activity recorded in typically developed, congenitally blind and congenitally deaf participants. Emotional instances are encoded in a vast network encompassing sensory, prefrontal, and temporal cortices. Within this network, the ventromedial prefrontal cortex stores a categorical representation of emotion independent of modality and previous sensory experience, and the posterior superior temporal cortex maps the valence dimension using an abstract code. Sensory experience more than modality affects how the brain organizes emotional information outside supramodal regions, suggesting the existence of a scaffold for the representation of emotional states where sensory inputs during development shape its functioning.

Published
2024
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39. Sound suppresses earliest visual cortical processing after sight recovery in congenitally blind humans.

Author

Sourav S, Kekunnaya R, Bottari D, Shareef I, Pitchaimuthu K, and Röder B

Subjects
Humans, Visual Perception, Sound, Thalamus, Blindness, Visual Cortex
Abstract

Neuroscientific research has consistently shown more extensive non-visual activity in the visual cortex of congenitally blind humans compared to sighted controls; a phenomenon known as crossmodal plasticity. Whether or not crossmodal activation of the visual cortex retracts if sight can be restored is still unknown. The present study, involving a rare group of sight-recovery individuals who were born pattern vision blind, employed visual event-related potentials to investigate persisting crossmodal modulation of the initial visual cortical processing stages. Here we report that the earliest, stimulus-driven retinotopic visual cortical activity (<100 ms) was suppressed in a spatially specific manner in sight-recovery individuals when concomitant sounds accompanied visual stimulation. In contrast, sounds did not modulate the earliest visual cortical response in two groups of typically sighted controls, nor in a third control group of sight-recovery individuals who had suffered a transient phase of later (rather than congenital) visual impairment. These results provide strong evidence for persisting crossmodal activity in the visual cortex after sight recovery following a period of congenital visual deprivation. Based on the time course of this modulation, we speculate on a role of exuberant crossmodal thalamic input which may arise during a sensitive phase of brain development., (© 2024. The Author(s).)

Published
2024
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40. Distinguishing Fine Structure and Summary Representation of Sound Textures from Neural Activity.

Author

Berto M, Ricciardi E, Pietrini P, Weisz N, and Bottari D

Subjects
Humans, Acoustic Stimulation, Sound, Evoked Potentials, Auditory physiology, Acoustics, Auditory Perception physiology, Auditory Cortex physiology
Abstract

The auditory system relies on both local and summary representations; acoustic local features exceeding system constraints are compacted into a set of summary statistics. Such compression is pivotal for sound-object recognition. Here, we assessed whether computations subtending local and statistical representations of sounds could be distinguished at the neural level. A computational auditory model was employed to extract auditory statistics from natural sound textures (i.e., fire, rain) and to generate synthetic exemplars where local and statistical properties were controlled. Twenty-four human participants were passively exposed to auditory streams while the electroencephalography (EEG) was recorded. Each stream could consist of short, medium, or long sounds to vary the amount of acoustic information. Short and long sounds were expected to engage local or summary statistics representations, respectively. Data revealed a clear dissociation. Compared with summary-based ones, auditory-evoked responses based on local information were selectively greater in magnitude in short sounds. Opposite patterns emerged for longer sounds. Neural oscillations revealed that local features and summary statistics rely on neural activity occurring at different temporal scales, faster (beta) or slower (theta-alpha). These dissociations emerged automatically without explicit engagement in a discrimination task. Overall, this study demonstrates that the auditory system developed distinct coding mechanisms to discriminate changes in the acoustic environment based on fine structure and summary representations., Competing Interests: The authors declare no competing financial interests., (Copyright © 2023 Berto et al.)

Published
2023
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41. Altered neural oscillations underlying visuospatial processing in cerebral visual impairment.

Author

Federici A, Bennett CR, Bauer CM, Manley CE, Ricciardi E, Bottari D, and Merabet LB

Abstract

Visuospatial processing deficits are commonly observed in individuals with cerebral visual impairment, even in cases where visual acuity and visual field functions are intact. Cerebral visual impairment is a brain-based visual disorder associated with the maldevelopment of central visual pathways and structures. However, the neurophysiological basis underlying higher-order perceptual impairments in this condition has not been clearly identified, which in turn poses limits on developing rehabilitative interventions. Using combined eye tracking and EEG recordings, we assessed the profile and performance of visual search on a naturalistic virtual reality-based task. Participants with cerebral visual impairment and controls with neurotypical development were instructed to search, locate and fixate on a specific target placed among surrounding distractors at two levels of task difficulty. We analysed evoked (phase-locked) and induced (non-phase-locked) components of broadband (4-55 Hz) neural oscillations to uncover the neurophysiological basis of visuospatial processing. We found that visual search performance in cerebral visual impairment was impaired compared to controls (as indexed by outcomes of success rate, reaction time and gaze error). Analysis of neural oscillations revealed markedly reduced early-onset evoked theta [4-6 Hz] activity (within 0.5 s) regardless of task difficulty. Moreover, while induced alpha activity increased with task difficulty in controls, this modulation was absent in the cerebral visual impairment group identifying a potential neural correlate related to deficits with visual search and distractor suppression. Finally, cerebral visual impairment participants also showed a sustained induced gamma response [30-45 Hz]. We conclude that impaired visual search performance in cerebral visual impairment is associated with substantial alterations across a wide range of neural oscillation frequencies. This includes both evoked and induced components suggesting the involvement of feedforward and feedback processing as well as local and distributed levels of neural processing., Competing Interests: The authors report no competing interests., (Published by Oxford University Press on behalf of the Guarantors of Brain 2023.)

Published
2023
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42. The development of oscillatory and aperiodic resting state activity is linked to a sensitive period in humans.

Author

Ossandón JP, Stange L, Gudi-Mindermann H, Rimmele JM, Sourav S, Bottari D, Kekunnaya R, and Röder B

Subjects
Adult, Humans, Blindness congenital, Electroencephalography, Vision Disorders, Visual Cortex, Cataract, Eye Abnormalities
Abstract

Congenital blindness leads to profound changes in electroencephalographic (EEG) resting state activity. A well-known consequence of congenital blindness in humans is the reduction of alpha activity which seems to go together with increased gamma activity during rest. These results have been interpreted as indicating a higher excitatory/inhibitory (E/I) ratio in visual cortex compared to normally sighted controls. Yet it is unknown whether the spectral profile of EEG during rest would recover if sight were restored. To test this question, the present study evaluated periodic and aperiodic components of the EEG resting state power spectrum. Previous research has linked the aperiodic components, which exhibit a power-law distribution and are operationalized as a linear fit of the spectrum in log-log space, to cortical E/I ratio. Moreover, by correcting for the aperiodic components from the power spectrum, a more valid estimate of the periodic activity is possible. Here we analyzed resting state EEG activity from two studies involving (1) 27 permanently congenitally blind adults (CB) and 27 age-matched normally sighted controls (MCB); (2) 38 individuals with reversed blindness due to bilateral, dense, congenital cataracts (CC) and 77 age-matched sighted controls (MCC). Based on a data driven approach, aperiodic components of the spectra were extracted for the low frequency (Lf-Slope 1.5 to 19.5 Hz) and high frequency (Hf-Slope 20 to 45 Hz) range. The Lf-Slope of the aperiodic component was significantly steeper (more negative slope), and the Hf-Slope of the aperiodic component was significantly flatter (less negative slope) in CB and CC participants compared to the typically sighted controls. Alpha power was significantly reduced, and gamma power was higher in the CB and the CC groups. These results suggest a sensitive period for the typical development of the spectral profile during rest and thus likely an irreversible change in the E/I ratio in visual cortex due to congenital blindness. We speculate that these changes are a consequence of impaired inhibitory circuits and imbalanced feedforward and feedback processing in early visual areas of individuals with a history of congenital blindness., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Inc.)

Published
2023
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43. Crossmodal plasticity following short-term monocular deprivation.

Author

Federici A, Bernardi G, Senna I, Fantoni M, Ernst MO, Ricciardi E, and Bottari D

Subjects
Adult, Humans, Visual Perception, Sensory Deprivation physiology, Neuronal Plasticity physiology, Vision, Monocular physiology, Visual Cortex physiology
Abstract

A brief period of monocular deprivation (MD) induces short-term plasticity of the adult visual system. Whether MD elicits neural changes beyond visual processing is yet unclear. Here, we assessed the specific impact of MD on neural correlates of multisensory processes. Neural oscillations associated with visual and audio-visual processing were measured for both the deprived and the non-deprived eye. Results revealed that MD changed neural activities associated with visual and multisensory processes in an eye-specific manner. Selectively for the deprived eye, alpha synchronization was reduced within the first 150 ms of visual processing. Conversely, gamma activity was enhanced in response to audio-visual events only for the non-deprived eye within 100-300 ms after stimulus onset. The analysis of gamma responses to unisensory auditory events revealed that MD elicited a crossmodal upweight for the non-deprived eye. Distributed source modeling suggested that the right parietal cortex played a major role in neural effects induced by MD. Finally, visual and audio-visual processing alterations emerged for the induced component of the neural oscillations, indicating a prominent role of feedback connectivity. Results reveal the causal impact of MD on both unisensory (visual and auditory) and multisensory (audio-visual) processes and, their frequency-specific profiles. These findings support a model in which MD increases excitability to visual events for the deprived eye and audio-visual and auditory input for the non-deprived eye., Competing Interests: Declaration of Competing Interest The authors declare no competing financial interests., (Copyright © 2023. Published by Elsevier Inc.)

Published
2023
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44. A modality-independent proto-organization of human multisensory areas.

Author

Setti F, Handjaras G, Bottari D, Leo A, Diano M, Bruno V, Tinti C, Cecchetti L, Garbarini F, Pietrini P, and Ricciardi E

Subjects
Humans, Acoustic Stimulation, Temporal Lobe, Brain, Visual Perception, Auditory Perception
Abstract

The processing of multisensory information is based upon the capacity of brain regions, such as the superior temporal cortex, to combine information across modalities. However, it is still unclear whether the representation of coherent auditory and visual events requires any prior audiovisual experience to develop and function. Here we measured brain synchronization during the presentation of an audiovisual, audio-only or video-only version of the same narrative in distinct groups of sensory-deprived (congenitally blind and deaf) and typically developed individuals. Intersubject correlation analysis revealed that the superior temporal cortex was synchronized across auditory and visual conditions, even in sensory-deprived individuals who lack any audiovisual experience. This synchronization was primarily mediated by low-level perceptual features, and relied on a similar modality-independent topographical organization of slow temporal dynamics. The human superior temporal cortex is naturally endowed with a functional scaffolding to yield a common representation across multisensory events., (© 2023. The Author(s).)

Published
2023
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45. Event-related potential correlates of visuo-tactile motion processing in congenitally deaf humans.

Author

Villwock A, Bottari D, and Röder B

Subjects
Electroencephalography, Hearing physiology, Humans, Touch, Deafness, Evoked Potentials
Abstract

The impact of congenital deafness on the development of vision has been investigated to a considerable degree. However, whether multisensory processing is affected by auditory deprivation has often remained largely overlooked. To fill this gap, we investigated the consequences of a profound auditory deprivation from birth on visuo-tactile processing. While the electroencephalogram (EEG) was recorded, dynamic visuo-tactile stimuli with a congruent or an incongruent motion direction were presented to a group of congenitally deaf native signers (N = 21) and matched hearing controls (N = 21). Standard stimuli were moving continuously for 200 ms either upwards or downwards, whereas the motion of deviant stimuli was interrupted in one of the two modalities. Participants were asked to detect deviant stimuli, moving in a predefined direction while ignoring deviants moving in the non-target direction. Behaviorally, deaf individuals committed more false alarms than hearing controls in the incongruent condition, that is, they responded more often when deviants moved in the non-target motion direction. ERPs (140-164 ms) of the deaf group were more anteriorly distributed for the visuo-tactile stimulation in comparison to hearing controls. Moreover, visuo-tactile motion congruency effects emerged with a later latency in the deaf group (350-450 ms) than in the hearing control group (200-280 ms). These findings suggest altered selection strategies and neural correlates for visuo-tactile motion processing as a result of congenital deafness., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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46. Developmental experiences alter the temporal processing characteristics of the visual cortex: Evidence from deaf and hearing native signers.

Author

Stroh AL, Grin K, Rösler F, Bottari D, Ossandón J, Rossion B, and Röder B

Subjects
Evoked Potentials, Visual, Hearing physiology, Humans, Sign Language, Deafness congenital, Time Perception, Visual Cortex
Abstract

To date, the extent to which early experience shapes the functional characteristics of neural circuits is still a matter of debate. In the present study, we tested whether congenital deafness and/or the acquisition of a sign language alter the temporal processing characteristics of the visual system. Moreover, we investigated whether, assuming cross-modal plasticity in deaf individuals, the temporal processing characteristics of possibly reorganised auditory areas resemble those of the visual cortex. Steady-state visual evoked potentials (SSVEPs) were recorded in congenitally deaf native signers, hearing native signers, and hearing nonsigners. The luminance of the visual stimuli was periodically modulated at 12, 21, and 40 Hz. For hearing nonsigners, the optimal driving rate was 12 Hz. By contrast, for the group of hearing signers, the optimal driving rate was 12 and 21 Hz, whereas for the group of deaf signers, the optimal driving rate was 21 Hz. We did not observe evidence for cross-modal recruitment of auditory cortex in the group of deaf signers. These results suggest a higher preferred neural processing rate as a consequence of the acquisition of a sign language., (© 2022 The Authors. European Journal of Neuroscience published by Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2022
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47. Neuroplasticity following cochlear implants.

Author

Pavani F and Bottari D

Subjects
Animals, Humans, Neuronal Plasticity, Auditory Cortex, Cochlear Implantation, Cochlear Implants, Speech Perception physiology
Abstract

The auditory cortex of people with sensorineural hearing loss can be re-afferented using a cochlear implant (CI): a neural prosthesis that bypasses the damaged cells in the cochlea to directly stimulate the auditory nerve. Although CIs are the most successful neural prosthesis to date, some CI users still do not achieve satisfactory outcomes using these devices. To explain variability in outcomes, clinicians and researchers have increasingly focused their attention on neuroscientific investigations that examined how the auditory cortices respond to the electric signals that originate from the CI. This chapter provides an overview of the literature that examined how the auditory cortex changes its functional properties in response to inputs from the CI, in animal models and in humans. We focus first on the basic responses to sounds delivered through electrical hearing and, next, we examine the integrity of two fundamental aspects of the auditory system: tonotopy and processing of binaural cues. When addressing the effects of CIs in humans, we also consider speech-evoked responses. We conclude by discussing to what extent this neuroscientific literature can contribute to clinical practices and help to overcome variability in outcomes., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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48. Interactions between auditory statistics processing and visual experience emerge only in late development.

Author

Berto M, Ricciardi E, Pietrini P, and Bottari D

Abstract

The auditory system relies on local and global representations to discriminate sounds. This study investigated whether vision influences the development and functioning of these fundamental sound computations. We employed a computational approach to control statistical properties embedded in sounds and tested samples of sighted controls (SC) and congenitally (CB) and late-onset (LB) blind individuals in two experiments. In experiment 1, performance relied on local features analysis; in experiment 2, performance benefited from computing global representations. In both experiments, SC and CB performance remarkably overlapped. Conversely, LB performed systematically worse than the other groups when relying on local features, with no alterations on global representations. Results suggest that auditory computations tested here develop independently from vision. The efficiency of local auditory processing can be hampered in case sight becomes unavailable later in life, supporting the existence of an audiovisual interplay for the processing of auditory details, which emerges only in late development., Competing Interests: The authors declare no competing interests., (© 2021 The Author(s).)

Published
2021
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49. Visual search performance in cerebral visual impairment is associated with altered alpha band oscillations.

Author

Bennett CR, Bauer CM, Bex PJ, Bottari D, and Merabet LB

Subjects
Cognition, Electroencephalography, Humans, Reaction Time, Vision Disorders, Visual Perception
Abstract

Individuals with cerebral visual impairment (CVI) often present with deficits related to visuospatial processing. However, the neurophysiological basis underlying these higher order perceptual dysfunctions have not been clearly identified. We assessed visual search performance using a novel virtual reality based task paired with eye tracking to simulate the exploration of a naturalistic scene (a virtual toy box). This was combined with electroencephalography (EEG) recordings and an analysis pipeline focusing on time frequency decomposition of alpha oscillatory activity. We found that individuals with CVI showed an overall impairment in visual search performance (as indexed by decreased success rate, as well as increased reaction time, visual search area, and gaze error) compared to controls with neurotypical development. Analysis of captured EEG activity following stimulus onset revealed that in the CVI group, there was a distinct lack of strong and well defined posterior alpha desynchronization; an important signal involved in the coordination of neural activity related to visual processing. Finally, an exploratory analysis revealed that in CVI, the magnitude of alpha desynchronization was associated with impaired visual search performance as well as decreased volume of specific thalamic nuclei implicated in visual processing. These results suggest that impairments in visuospatial processing related to visual search in CVI are associated with alterations in alpha band oscillations as well as early neurological injury at the level of visual thalamic nuclei., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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50. Oscillatory signatures of Repetition Suppression and Novelty Detection reveal altered induced visual responses in early deafness.

Author

Bednaya E, Pavani F, Ricciardi E, Pietrini P, and Bottari D

Subjects
Animals, Brain, Electroencephalography, Humans, Photic Stimulation, Visual Perception, Auditory Cortex, Deafness
Abstract

The ability to differentiate between repeated and novel events represents a fundamental property of the visual system. Neural responses are typically reduced upon stimulus repetition, a phenomenon called Repetition Suppression (RS). On the contrary, following a novel visual stimulus, the neural response is generally enhanced, a phenomenon referred to as Novelty Detection (ND). Here, we aimed to investigate the impact of early deafness on the oscillatory signatures of RS and ND brain responses. To this aim, electrophysiological data were acquired in early deaf and hearing control individuals during processing of repeated and novel visual events unattended by participants. By studying evoked and induced oscillatory brain activities, as well as inter-trial phase coherence, we linked response modulations to feedback and/or feedforward processes. Results revealed selective experience-dependent changes on both RS and ND mechanisms. Compared to hearing controls, early deaf individuals displayed: (i) greater attenuation of the response following stimulus repetition, selectively in the induced theta-band (4-7 Hz); (ii) reduced desynchronization following the onset of novel visual stimuli, in the induced alpha and beta bands (8-12 and 13-25 Hz); (iii) comparable modulation of evoked responses and inter-trial phase coherence. The selectivity of the effects in the induced responses parallels findings observed in the auditory cortex of deaf animal models following intracochlear electric stimulation. The present results support the idea that early deafness alters induced oscillatory activity and the functional tuning of basic visual processing., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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