Influence of Age on Auditory Gating

Smith, Ginny Marissa

08 June 2006

This study utilized paired tones at 1000 Hz with a 500 ms interpair interval and a 10 s interstimulus interval to assess sensory gating. Forty-two participants, ranging from 3-72 years of age were used to observe maturational changes in amplitude, latency, and suppression ratios of the P50 waveform. Previous research has shown that in normal adults the amplitude in response to the second of the paired tones is significantly suppressed compared to the amplitude in response to the first tone. The current study showed amplitude decreased with age to middle adulthood, where it increased slightly to later adulthood. Latencies decreased with age. Suppression ratios decreased from childhood to adolescence, with an increase from early adulthood to later adulthood. Sensory gating would appear to be a later developing aspect of human sensory physiology. Also similar to many other brain functions, sensory gating decreases in later adulthood.

auditory gating

P50

auditory evoked potentials

age

maturation changes

Communication Sciences and Disorders

Potenciais auditivos de longa latência: N1, P2, N2, P300, evocados por estímulo de fala em usuários de implante coclear / Long latency auditory potentials: N1, P2, N2 and P300, evoked through speech stimulus, in cochlear implant users

Banhara, Marcos Roberto

13 March 2007

Introdução: O implante coclear proporciona aos indivíduos com perda auditiva severa e severa a profunda, que não se beneficiam do uso de aparelho de amplificação sonora individual, maior habilidade quanto à comunicação. Os potenciais evocados auditivos de longa latência (N1, P2, N2 e P300) podem ser um indicador diferencial na avaliação dos usuários de implante coclear. Esses potenciais fornecem parâmetros objetivos de geradores neurais, relacionados às habilidades de atenção, discriminação e memorização de estímulos tonais ou de fala. No estudo, os potenciais N1, P2, N2 e P300, gerados por estímulos de fala em usuários de implante coclear, foram caracterizados e posteriormente correlacionados às variáveis: percepção de fala, tempo de surdez e tempo de uso do implante. Metodologia: A pesquisa foi desenvolvida na Clínica de Fonoaudiologia da Faculdade de Odontologia de Bauru e no Centro de Pesquisas Audiológicas do Hospital de reabilitação de Anomalias, ambos unidades da Universidade de São Paulo. Os potenciais foram captados por eletrodos posicionados nas regiões Cz/Fz/M1/M2 da calvária e conectados ao Biologic\'s Evoked Potential System (EP) por cabos, seguindo os padrões do sistema internacional 10-20. Participaram da pesquisa 25 usuários de implante coclear, portadores de surdez pré-lingual, na faixa etária de 6,6 a 12,3 anos. Para realização do procedimento os indivíduos foram orientados a levantar a mão assim que ouvissem o estímulo raro (/a/ e /da/), apresentado na proporção de 20/80 em relação ao estímulo freqüente (/i/ e /ba/). Os estímulos de fala /ba-da/ e /i-a/ foram apresentados em oddball paradigma, a uma intensidade de 60 dB NPS por uma caixa acústica. Resultados: Foram observadas correlações estatisticamente significantes entre a latência do potencial N1 e o tempo de surdez e de uso do implante; entre amplitude do potencial P2 e o tempo de surdez e tempo de uso do implante; entre a latência do potencial P300 e o reconhecimento de palavras. A latência média do N1 aumentou 6 ms por ano em relação ao tempo de surdez, mantido o tempo de uso do implante constante e diminuiu 3 ms de acordo com o aumento de 1 ano no tempo de uso. A amplitude média do P2 diminuiu 1 ?V, com o aumento do tempo de surdez em 1 ano, mantendo-se o tempo de uso fixo e aumentou, 0,5 ?V com o prolongamento de 1 ano no tempo de uso do IC, mantido o tempo de surdez constante. A latência média do potencial P300 aumentou 2 ms, de acordo com a piora do escore de reconhecimento de palavras,e diminuiu 2 ms proporcionalmente à melhora do mesmo escore. Conclusões: As variáveis: tempo de surdez e de uso do implante, influenciaram os valores de latência e amplitude dos potenciais N1 e P2 , sugerindo plasticidade cortical. A latência do potencial P300 refletiu os processos cognitivos relacionados às habilidades de atenção e discriminação auditiva e apresentou relação de significância com os escores de percepção de fala nos usuários de implante coclear / Introduction: Cochlear implants supply subjects presented with severe and profound hearing loss, who do not benefit from the hearing aid, with a greater communication ability. The long latency auditory evoked potentials (N1, P2, N2 and P300) are a differential indicator in the assessment of cochlear implant users. These potentials provide objective parameters of neural generators related to the skills of attention, discrimination and memorization of tonal or speech stimuli. In this study, potentials N1, P2, N2 and P300, generated through speech stimuli in cochlear implant users, were characterized and correlated with the variables speech perception, time of deafness and time of cochlear implant use. Methodology: the research was carried out at the Speech Pathology clinic of the Dental School and at the Audiological Research Center with the Craniofacial Anomalies Rehabilitation Hospital, both with University of São Paulo at Bauru, SP. The potentials were recorded by electrodes placed in regions Cz/Fz/M1/M2 of the skull and connected to the Biologic\'s Evoked Potential System (EP) through cables, according to the standards of international system 10-20. Twenty-five cochlear implant users, presented with pre-lingual deafness, in the age range 6.6 - 12.3 yrs, participated in the study. The subjects were requested to raise their hand as soon as they heard the rare stimulus (/a/ and /da/), presented in the proportion 20/80 in relation to the frequent stimulus (/i/ and /ba/). The speech stimuli /ba-da/ and /i-a/ were presented in oddball paradigm, at an intensity of 60 dB NPS, through a speaker. Results: statistically significant correlations were observed between the latency of potential N1 and the time of deafness and time of cochlear implant use; between amplitude of potential P2 and the time of deafness and time of cochlear implant; between the latency of potential P300 and word recognition. The mean latency of N1 increased 6 ms per year in relation to the time of deafness, with the time of implant use constant and diminished 3 ms according to the increase of 1 year in the time of use. The mean amplitude of P2 diminished 1 ?V, as the time of deafness increased in a year, by keeping fixed the time of use, and increased 0.5 ?V, with the increase of a year in the time of CI use, by keeping constant the time of deafness. The mean latency of potential P300 increased 2 ms as the word recognition score worsened and diminished 2 ms proportionally to the improvement of the same score. Conclusions: The variables time of deafness and cochlear implant use influenced the latency and amplitude of potentials N1 and P2, suggesting a cortical plasticity. The latency of potential P300 reflected the cognitive processes related to skills of auditory attention and discrimination, and presented a significance relation with the word perception score, in the subjects evaluated

Cochlear implant

Implante coclear

Long latency auditory evoked potentials

Percepção de fala

Percepção sensorial

Sensory perception

Speech perception

Deskriptive Verlaufsanalyse akustisch evozierter Potentiale bei Kindern unter Allgemeinanästhesie

Hänsig, Martin

19 April 2011

Die Validierung und Etablierung einer zuverlässigen Methode zur Erfassung der Narkosetiefe bleibt bis heute, speziell in der Kinderanästhesie, problematisch. Ziel der vorliegenden Arbeit war die Erstellung einer deskriptiven Verlaufsanalyse akustisch evozierter Potentiale mittlerer Latenz (MLAEP‘s) im Kindesalter. Unter Allgemeinanästhesie wurde mit Hilfe des AEPex-Monitors die Validität, Reagibilität und Korrelation der MLAEP‘s im Vergleich zu den beiden wichtigen hämodynamischen Parametern Herzfrequenz und mittlerer arterieller Blutdruck untersucht. Ein besonderer Schwerpunkt hierbei lag auf der Untersuchung der Praktikabilität des eingesetzten AEP-Monitorings. Dazu wurden 56 Kinder, davon 29 unter total intravenöser Anästhesie und 27 unter balancierter Anästhesie in die Studie eingeschlossen. Die Steuerung der Narkosetiefe erfolgte nach rein klinischen Kriterien. Nachträglich wurden die zu analysierenden Patienten in 3 verschiedene Altersgruppen (2-<4, 4-<10 und 10-<17 Lebensjahr) unterteilt und auf Auffälligkeiten hin untersucht. Die Anwendung des AEPex-Monitors war unkompliziert und ohne größeren personellen oder zeitlichen Aufwand in den Anästhesiearbeitsplatz zu integrieren. Während unter inhalativer Anästhesie zum Teil eine Zunahme der Amplituden Na/Pa und Pa/Nb bei der visuellen Inspektion des Signals beobachtet wurde, waren die Ergebnisse unter total intravenöser Anästhesie denen Erwachsener vergleichbar. Sowohl die Veränderungen des Blutdruckes als auch des AEPex waren ein- bis eineinhalb Minuten nach Applikation eines Propofolbolus als zuverlässiges Korrelat für eine Veränderung im Sedierungslevel darstellbar. Zusätzlich konnte in dieser Studie gezeigt werden, dass akustisch evozierte Potentiale mittlerer Latenz mit dem mittleren arteriellen Blutdruck, aber nicht mit der Herzfrequenz, unter intraoperativ hämodynamisch stabilen Bedingungen korrelieren (HI: rs(xy•z) = 0,583; p = 0,003). Jüngere Kinder (2-<4 LJ.) zeigten entweder tendenziell oder signifikant höhere Werte. Nach der Integration altersspezifischer Besonderheiten in der Weiterentwicklung prozessierter AEP-Parameter und der Überwindung gerätespezifischer Unzulänglichkeiten scheint auch im Kindesalter eine Hypnosetiefenbestimmung möglich.

Anästhesie

Neuromonitoring

general anesthesia

neuromonitoring

ddc:617

Anästhesie

Akustisch evoziertes Potenzial

Elektroencephalogramm

Potenciais auditivos de longa latência: N1, P2, N2, P300, evocados por estímulo de fala em usuários de implante coclear / Long latency auditory potentials: N1, P2, N2 and P300, evoked through speech stimulus, in cochlear implant users

Marcos Roberto Banhara

13 March 2007

Introdução: O implante coclear proporciona aos indivíduos com perda auditiva severa e severa a profunda, que não se beneficiam do uso de aparelho de amplificação sonora individual, maior habilidade quanto à comunicação. Os potenciais evocados auditivos de longa latência (N1, P2, N2 e P300) podem ser um indicador diferencial na avaliação dos usuários de implante coclear. Esses potenciais fornecem parâmetros objetivos de geradores neurais, relacionados às habilidades de atenção, discriminação e memorização de estímulos tonais ou de fala. No estudo, os potenciais N1, P2, N2 e P300, gerados por estímulos de fala em usuários de implante coclear, foram caracterizados e posteriormente correlacionados às variáveis: percepção de fala, tempo de surdez e tempo de uso do implante. Metodologia: A pesquisa foi desenvolvida na Clínica de Fonoaudiologia da Faculdade de Odontologia de Bauru e no Centro de Pesquisas Audiológicas do Hospital de reabilitação de Anomalias, ambos unidades da Universidade de São Paulo. Os potenciais foram captados por eletrodos posicionados nas regiões Cz/Fz/M1/M2 da calvária e conectados ao Biologic\'s Evoked Potential System (EP) por cabos, seguindo os padrões do sistema internacional 10-20. Participaram da pesquisa 25 usuários de implante coclear, portadores de surdez pré-lingual, na faixa etária de 6,6 a 12,3 anos. Para realização do procedimento os indivíduos foram orientados a levantar a mão assim que ouvissem o estímulo raro (/a/ e /da/), apresentado na proporção de 20/80 em relação ao estímulo freqüente (/i/ e /ba/). Os estímulos de fala /ba-da/ e /i-a/ foram apresentados em oddball paradigma, a uma intensidade de 60 dB NPS por uma caixa acústica. Resultados: Foram observadas correlações estatisticamente significantes entre a latência do potencial N1 e o tempo de surdez e de uso do implante; entre amplitude do potencial P2 e o tempo de surdez e tempo de uso do implante; entre a latência do potencial P300 e o reconhecimento de palavras. A latência média do N1 aumentou 6 ms por ano em relação ao tempo de surdez, mantido o tempo de uso do implante constante e diminuiu 3 ms de acordo com o aumento de 1 ano no tempo de uso. A amplitude média do P2 diminuiu 1 ?V, com o aumento do tempo de surdez em 1 ano, mantendo-se o tempo de uso fixo e aumentou, 0,5 ?V com o prolongamento de 1 ano no tempo de uso do IC, mantido o tempo de surdez constante. A latência média do potencial P300 aumentou 2 ms, de acordo com a piora do escore de reconhecimento de palavras,e diminuiu 2 ms proporcionalmente à melhora do mesmo escore. Conclusões: As variáveis: tempo de surdez e de uso do implante, influenciaram os valores de latência e amplitude dos potenciais N1 e P2 , sugerindo plasticidade cortical. A latência do potencial P300 refletiu os processos cognitivos relacionados às habilidades de atenção e discriminação auditiva e apresentou relação de significância com os escores de percepção de fala nos usuários de implante coclear / Introduction: Cochlear implants supply subjects presented with severe and profound hearing loss, who do not benefit from the hearing aid, with a greater communication ability. The long latency auditory evoked potentials (N1, P2, N2 and P300) are a differential indicator in the assessment of cochlear implant users. These potentials provide objective parameters of neural generators related to the skills of attention, discrimination and memorization of tonal or speech stimuli. In this study, potentials N1, P2, N2 and P300, generated through speech stimuli in cochlear implant users, were characterized and correlated with the variables speech perception, time of deafness and time of cochlear implant use. Methodology: the research was carried out at the Speech Pathology clinic of the Dental School and at the Audiological Research Center with the Craniofacial Anomalies Rehabilitation Hospital, both with University of São Paulo at Bauru, SP. The potentials were recorded by electrodes placed in regions Cz/Fz/M1/M2 of the skull and connected to the Biologic\'s Evoked Potential System (EP) through cables, according to the standards of international system 10-20. Twenty-five cochlear implant users, presented with pre-lingual deafness, in the age range 6.6 - 12.3 yrs, participated in the study. The subjects were requested to raise their hand as soon as they heard the rare stimulus (/a/ and /da/), presented in the proportion 20/80 in relation to the frequent stimulus (/i/ and /ba/). The speech stimuli /ba-da/ and /i-a/ were presented in oddball paradigm, at an intensity of 60 dB NPS, through a speaker. Results: statistically significant correlations were observed between the latency of potential N1 and the time of deafness and time of cochlear implant use; between amplitude of potential P2 and the time of deafness and time of cochlear implant; between the latency of potential P300 and word recognition. The mean latency of N1 increased 6 ms per year in relation to the time of deafness, with the time of implant use constant and diminished 3 ms according to the increase of 1 year in the time of use. The mean amplitude of P2 diminished 1 ?V, as the time of deafness increased in a year, by keeping fixed the time of use, and increased 0.5 ?V, with the increase of a year in the time of CI use, by keeping constant the time of deafness. The mean latency of potential P300 increased 2 ms as the word recognition score worsened and diminished 2 ms proportionally to the improvement of the same score. Conclusions: The variables time of deafness and cochlear implant use influenced the latency and amplitude of potentials N1 and P2, suggesting a cortical plasticity. The latency of potential P300 reflected the cognitive processes related to skills of auditory attention and discrimination, and presented a significance relation with the word perception score, in the subjects evaluated

Implante coclear

Percepção de fala

Percepção sensorial

Cochlear implant

Long latency auditory evoked potentials

Sensory perception

Speech perception

Deskriptive Verlaufsanalyse akustisch evozierter Potentiale bei Kindern unter Allgemeinanästhesie

Hänsig, Martin

22 March 2011

Die Validierung und Etablierung einer zuverlässigen Methode zur Erfassung der Narkosetiefe bleibt bis heute, speziell in der Kinderanästhesie, problematisch. Ziel der vorliegenden Arbeit war die Erstellung einer deskriptiven Verlaufsanalyse akustisch evozierter Potentiale mittlerer Latenz (MLAEP‘s) im Kindesalter. Unter Allgemeinanästhesie wurde mit Hilfe des AEPex-Monitors die Validität, Reagibilität und Korrelation der MLAEP‘s im Vergleich zu den beiden wichtigen hämodynamischen Parametern Herzfrequenz und mittlerer arterieller Blutdruck untersucht. Ein besonderer Schwerpunkt hierbei lag auf der Untersuchung der Praktikabilität des eingesetzten AEP-Monitorings. Dazu wurden 56 Kinder, davon 29 unter total intravenöser Anästhesie und 27 unter balancierter Anästhesie in die Studie eingeschlossen. Die Steuerung der Narkosetiefe erfolgte nach rein klinischen Kriterien. Nachträglich wurden die zu analysierenden Patienten in 3 verschiedene Altersgruppen (2-<4, 4-<10 und 10-<17 Lebensjahr) unterteilt und auf Auffälligkeiten hin untersucht. Die Anwendung des AEPex-Monitors war unkompliziert und ohne größeren personellen oder zeitlichen Aufwand in den Anästhesiearbeitsplatz zu integrieren. Während unter inhalativer Anästhesie zum Teil eine Zunahme der Amplituden Na/Pa und Pa/Nb bei der visuellen Inspektion des Signals beobachtet wurde, waren die Ergebnisse unter total intravenöser Anästhesie denen Erwachsener vergleichbar. Sowohl die Veränderungen des Blutdruckes als auch des AEPex waren ein- bis eineinhalb Minuten nach Applikation eines Propofolbolus als zuverlässiges Korrelat für eine Veränderung im Sedierungslevel darstellbar. Zusätzlich konnte in dieser Studie gezeigt werden, dass akustisch evozierte Potentiale mittlerer Latenz mit dem mittleren arteriellen Blutdruck, aber nicht mit der Herzfrequenz, unter intraoperativ hämodynamisch stabilen Bedingungen korrelieren (HI: rs(xy•z) = 0,583; p = 0,003). Jüngere Kinder (2-<4 LJ.) zeigten entweder tendenziell oder signifikant höhere Werte. Nach der Integration altersspezifischer Besonderheiten in der Weiterentwicklung prozessierter AEP-Parameter und der Überwindung gerätespezifischer Unzulänglichkeiten scheint auch im Kindesalter eine Hypnosetiefenbestimmung möglich.

info:eu-repo/classification/ddc/617

ddc:617

Fonctionnement auditif central d’enfants ayant une surdité

Koravand, Amineh

08 1900

La présente recherche explore les conséquences d’une perte auditive périphérique sur le traitement de l’information auditive. Des études ont montré que les enfants malentendants ont de la difficulté à effectuer des tâches d’écoute complexes. De plus, des études menées auprès d’adultes malentendants montrent que l’activité corticale associée à l’écoute de stimuli auditifs est différente de celle d’adultes entendants. Cependant, les résultats de ces études ne mettent pas en lumière la nature des difficultés de traitement de l’information auditive des enfants malentendants. Cette recherche examine donc cet aspect en ayant recours à des mesures comportementales et neurophysiologiques. Les données ont été recueillies auprès de 40 enfants âgés de 9 à 12 ans : 12 enfants ayant une surdité neurosensorielle, 12 enfants ayant trouble de traitement auditif et 16 enfants normo-entendants. Les enfants ont reproduit dans l’ordre des séquences de deux, trois et cinq stimuli verbaux ou non verbaux avec un intervalle interstimuli de 425 ms. Les enfants ont également reproduit des séquences de deux stimuli avec un intervalle interstimuli de 20 et 1000 ms. Enfin, les enfants ont été soumis à des mesures neurophysiologiques à partir de potentiels évoqués auditifs de latence longue et de négativité de discordance avec des paires de stimuli verbaux et non verbaux. Les résultats obtenus permettent d’avancer que les participants du groupe d’enfants malentendants ont un trouble spécifique de traitement auditif. En effet, les résultats de la tâche comportementale montrent que les enfants malentendants ont de la difficulté à traiter des séquences de stimuli lorsque ceux-ci sont verbaux et acoustiquement similaires. Quant aux données neurophysiologiques, les résultats ont démontré que l’amplitude de l’onde tardive N2 était réduite chez les enfants malentendants comparativement à celle de l’onde N2 des deux autres groupes d’enfants. Cette onde pourrait être considérée comme étant un marqueur neurophysiologique reflétant l’influence d’une perte auditive sur le traitement auditif central. De plus, l’amplitude de l’onde de négativité de discordance pourrait être aussi un marqueur pour distinguer les enfants malentendants de ceux ayant un trouble de traitement auditif.Mots-clés : organisation séquentielle auditive, potentiels évoqués auditifs de latence longue, négativité de discordance, enfants malentendants d’âge scolaire / The present research explores the effects of peripheral hearing loss on central auditory processing. Previous studies showed that children with hearing loss have significant difficulties in performing complex listening tasks. Moreover, studies of adults with hearing loss revealed that cortical activity related to listening to acoustic stimuli differed from that of adults without hearing loss. However, results of these studies do not clarify the nature of the difficulties in processing auditory information among children with hearing loss. The present research examines this issue using behavioural and neurophysiological measures. Behavioural and neurophysiological data were collected with forty 9- to 12-year-old children: 12 with hearing loss, 12 with central auditory processing disorder (CAPD) and 16 with normal hearing. Children repeated, in order, two, three, and five verbal and nonverbal stimuli with an interstimulus interval of 425 ms. They also repeated sequences of two stimuli with an interstimulus interval of 20 or 1000 ms. Finally, late-latency auditory evoked potentials and mismatch responses were recorded in the participants using pairs of verbal and nonverbal stimuli. Results suggest that children with hearing loss have a specific central auditory processing disorder. Results of the behavioural task showed that children with hearing loss had difficulty processing sequences of stimuli when the stimuli were verbal as well as similar and complex acoustically. As for the neurophysiological data, results indicated that the amplitude of late N2 waveform was smaller in children with hearing loss than in the other two groups of children. The N2 waveform has the potential to be a neurophysiological marker revealing the influence of hearing loss on central auditory processing. Moreover, the amplitude of the mismatch response could be another marker to distinguish the children with hearing loss from those with central auditory processing disorder. Keywords : Auditory sequential organization, late-latency auditory evoked potentials, mismatch responses, school-aged children with hearing loss

Organisation séquentielle auditive

Potentiels évoqués auditifs

Enfants malentendants d’âge scolaire

Auditory sequential organization

Late-latency auditory evoked potentials

School-aged children with hearing loss

Fonctionnement auditif central d’enfants ayant une surdité

Koravand, Amineh

08 1900

La présente recherche explore les conséquences d’une perte auditive périphérique sur le traitement de l’information auditive. Des études ont montré que les enfants malentendants ont de la difficulté à effectuer des tâches d’écoute complexes. De plus, des études menées auprès d’adultes malentendants montrent que l’activité corticale associée à l’écoute de stimuli auditifs est différente de celle d’adultes entendants. Cependant, les résultats de ces études ne mettent pas en lumière la nature des difficultés de traitement de l’information auditive des enfants malentendants. Cette recherche examine donc cet aspect en ayant recours à des mesures comportementales et neurophysiologiques. Les données ont été recueillies auprès de 40 enfants âgés de 9 à 12 ans : 12 enfants ayant une surdité neurosensorielle, 12 enfants ayant trouble de traitement auditif et 16 enfants normo-entendants. Les enfants ont reproduit dans l’ordre des séquences de deux, trois et cinq stimuli verbaux ou non verbaux avec un intervalle interstimuli de 425 ms. Les enfants ont également reproduit des séquences de deux stimuli avec un intervalle interstimuli de 20 et 1000 ms. Enfin, les enfants ont été soumis à des mesures neurophysiologiques à partir de potentiels évoqués auditifs de latence longue et de négativité de discordance avec des paires de stimuli verbaux et non verbaux. Les résultats obtenus permettent d’avancer que les participants du groupe d’enfants malentendants ont un trouble spécifique de traitement auditif. En effet, les résultats de la tâche comportementale montrent que les enfants malentendants ont de la difficulté à traiter des séquences de stimuli lorsque ceux-ci sont verbaux et acoustiquement similaires. Quant aux données neurophysiologiques, les résultats ont démontré que l’amplitude de l’onde tardive N2 était réduite chez les enfants malentendants comparativement à celle de l’onde N2 des deux autres groupes d’enfants. Cette onde pourrait être considérée comme étant un marqueur neurophysiologique reflétant l’influence d’une perte auditive sur le traitement auditif central. De plus, l’amplitude de l’onde de négativité de discordance pourrait être aussi un marqueur pour distinguer les enfants malentendants de ceux ayant un trouble de traitement auditif.Mots-clés : organisation séquentielle auditive, potentiels évoqués auditifs de latence longue, négativité de discordance, enfants malentendants d’âge scolaire / The present research explores the effects of peripheral hearing loss on central auditory processing. Previous studies showed that children with hearing loss have significant difficulties in performing complex listening tasks. Moreover, studies of adults with hearing loss revealed that cortical activity related to listening to acoustic stimuli differed from that of adults without hearing loss. However, results of these studies do not clarify the nature of the difficulties in processing auditory information among children with hearing loss. The present research examines this issue using behavioural and neurophysiological measures. Behavioural and neurophysiological data were collected with forty 9- to 12-year-old children: 12 with hearing loss, 12 with central auditory processing disorder (CAPD) and 16 with normal hearing. Children repeated, in order, two, three, and five verbal and nonverbal stimuli with an interstimulus interval of 425 ms. They also repeated sequences of two stimuli with an interstimulus interval of 20 or 1000 ms. Finally, late-latency auditory evoked potentials and mismatch responses were recorded in the participants using pairs of verbal and nonverbal stimuli. Results suggest that children with hearing loss have a specific central auditory processing disorder. Results of the behavioural task showed that children with hearing loss had difficulty processing sequences of stimuli when the stimuli were verbal as well as similar and complex acoustically. As for the neurophysiological data, results indicated that the amplitude of late N2 waveform was smaller in children with hearing loss than in the other two groups of children. The N2 waveform has the potential to be a neurophysiological marker revealing the influence of hearing loss on central auditory processing. Moreover, the amplitude of the mismatch response could be another marker to distinguish the children with hearing loss from those with central auditory processing disorder. Keywords : Auditory sequential organization, late-latency auditory evoked potentials, mismatch responses, school-aged children with hearing loss

Organisation séquentielle auditive

Potentiels évoqués auditifs

Enfants malentendants d’âge scolaire

Auditory sequential organization

Late-latency auditory evoked potentials

School-aged children with hearing loss