Potentiel acoustique évoqué chez le poulain de la naissance jusqu'à l'âge de 6 mois

Lecoq, Laureline

05 1900

Le potentiel acoustique évoqué (PAE) est influencé par l’âge dans de nombreuses espèces. Chez l’homme, l’augmentation de la fréquence de stimulation améliore la détection des anomalies du tronc cérébral. Son utilisation chez le poulain demeure anecdotique. Les buts de cette étude étaient: 1) de déterminer les valeurs de référence du PAE pour 3 différents protocoles de stimulation (11.33 Hz/70 dBNHL; 11.33 Hz/90 dBNHL; 90 Hz/70 dBNHL); 2) d’évaluer les effets de l’âge et de la fréquence de répétition de la stimulation acoustique sur les tracés du PAE chez le poulain de moins de 6 mois; 3) de comparer les données obtenues chez les poulains normaux à celles recueillies chez des poulains présentant des troubles neurologiques. Trente-neuf poulains normaux et 16 poulains avec des déficits neurologiques ont été inclus dans l’étude. Aucun effet de l’âge n’a été mis en évidence (p> 0,005). Aucune différence significative n’a été mise en évidence lorsque les latences absolues et relatives des poulains neurologiques ont été comparées à celles des poulains normaux (p>0,005). L’augmentation de la fréquence de stimulation acoustique n’a pas amélioré la détection d’anomalies sur les tracés de PAE chez les poulains neurologiques. Bien que toutes leurs valeurs de latences absolues et relatives soient demeurées à l’intérieur des valeurs de référence, 78,6% des poulains avec un déficit neurologique présentaient une asymétrie entre les tracés des deux oreilles. Cela démontre une différence de conduction de l’influx nerveux entre le côté droit et le côté gauche du tronc cérébral chez ces sujets. En conclusion, nous présentons ici les valeurs de référence du PAE chez le poulain de moins de 6 mois pour 3 protocoles de stimulation différents. D’autres études seraient nécessaire afin de déterminer si l’utilisation d’une fréquence de stimulation acoustique plus élevée est utile dans la détection d’anomalies du PAE chez les poulains souffrant de troubles neurologiques. La majorité des poulains avec des déficits neurologiques ont présenté des anomalies du PAE ce qui valide son utilisation pour le diagnostic de troubles neurologiques chez le poulain de moins de 6 mois. / Age and rate of acoustic stimulation are reported to affect peak latencies in brainstem auditory evoked responses (BAER) in different species. In foals, its use remains quite anecdotic but, as in humans and dogs, could be useful in the early diagnosis of central nervous system (CNS) disorders. The goals of this study were to 1) establish the reference values for BAER in foals using 3 different stimulation protocols (11.33 Hz/70 dBNHL; 11.33 Hz/90 dBNHL; 90 Hz/70 dBNHL), 2) evaluate the effects of age and rate of stimulation on BAER traces in foals up to 6 months old, and 3) compare these data with BAER obtained from foals with CNS disorders. Thirty-nine neurologically normal foals and 16 foals with neurological deficits were included in this study. No effects of age were observed in normal foals (p> 0.005). No significant differences were observed for latencies and interpeak latencies (IPL) when neurological foals were compared to normal foals (p> 0.05). Increasing the stimulation rate did not improve detection of CNS disorders. All neurologically abnormal foals had latencies and IPL within reference values. However, 78.6% of them had an asymmetry in their traces, reflecting a difference in conduction time between the left and right size of the brainstem. In conclusion, we provide reference values of BAER for foals up to 6 months using 3 different protocols. Further investigations are needed to conclude on the use of an increased rate of acoustic stimulation in foals. Most importantly, most foals with neurological deficits had also an abnormal BAER. This proves BAER is useful is the early diagnosis of neurological disorders in foals

PAE

Potentiel acoustique évoqué

Tronc cérébral

Poulain

Néonatologie

Cheval

Surdité

Brainstem auditory evoked response

BAER

Evoked potentials

Foals

Neonatology

Deafness

Hypoxic/ischemic encephalopathy (HIE)

Organisation et envahissement perceptuels dans la schizophrénie : Analyse psychophysiologique et neurophysiologique / Perceptual organization and inundation in schizophrenia : psychophysiological and neurophysiological analyses

Micoulaud-Franchi, Jean-Arthur

12 December 2013

L’objectif de cette thèse a été de développer des outils d’exploration des modifications perceptuelles lors de l’écoute de sons complexes dans la schizophrénie et de confronter les résultats de ces outils à des données neurophysiologiques. Le premier résultat de notre thèse est d’avoir confirmé dans la modalité auditive des modifications de l’organisation perceptuelle lors de l’écoute de sons complexes. En effet, nous avons montré, chez les patients souffrant de schizophrénie comparativement aux témoins, d’une part une difficulté de catégorisation des sons environnementaux de type son d’impact, et d’autre part, une modification de la perception de la familiarité et de la bizarrerie pour des sons environnementaux et abstraits, indiquant une modification d’organisation des données de l’audition dans une forme univoque et consensuelle.Le deuxième résultat de notre thèse est d’avoir confirmé, par une méthode d’induction perceptuelle consistant à présenter des stimuli plus ou moins envahissants, la présence d’un sentiment d’envahissement perceptuel plus important chez les patients souffrants de schizophrénie comparativement aux témoins. Cet envahissement perceptuel était corrélé significativement avec une mesure neurophysiologique du filtrage sensoriel par potentiels évoqués dans le paradigme des doubles clics audio (diminution d’amplitude de la composante P50 au deuxième stimulus comparativement au premier stimulus). Nous avons également traduit et validé en langue française un auto-questionnaire appelé Sensory Gating Inventory (SGI) permettant de compléter l’évaluation psychophysiologique des modifications perceptuelles reliées aux anomalies du filtrage sensoriel. / The aim of this PhD was to develop tools for analyzing perceptual modifications induced by complex sounds in schizophrenia and to relate these changes to neurophysiological data. The first result of our work enabled to confirm that complex sounds modify the auditory perceptual organization. Indeed, we first showed a deficit of categorization of environmental sounds (impact sounds) in patients with schizophrenia compared with controls, and secondly a difference in the perception of familiarity and strangeness for environmental and abstract sounds, indicating a modification of data organization of hearing in a unique and consensual form.The second result of our work revealed, by a perceptual induction method, the presence of a larger perceptual sense of inundation in patients suffering from schizophrenia compared with controls when submitted to more or less invasive stimuli. This perceptual inundation was significantly correlated with a neurophysiological measurement of sensory gating with evoked responses in the paradigm of double audio clicks (decrease in amplitude of the P50 component after the second stimulus as compared to the first stimulus). We have also translated a self-administered questionnaire called “Sensory Gating Inventory” (SGI) to French and validated it in order to complete the psychophysiological assessment of perceptual changes related to abnormal sensory gating.

Schizophrénie

Perception

Audition

Son complexe

Phénoménologie

Organisation perceptuelle

Filtrage sensoriel

Neurophysiologie

Psychophysiologie

Potentiel évoqué

Suppression P50

Potentiel induit

Schizophrenia

Perception

Hearing

Complex sound

Phenomenology

Organization perceptual

Sensory gating

Neurophysiology

Psychophysiology

Evoked response

P50 suppression

Induced response

612

Efeito do silenciamento gênico do Tnfa na preservação auditiva em ratos Wistar expostos ao ruído e análise da expressão gênica dessa via metabólica / Effect of Tnfa gene silencing on auditory preservation in Wistar rats exposed to noise and analysis of gene expression of this metabolic pathway

Rodrigues, Janaina Candida

23 May 2018

INTRODUÇÃO: A exposição a níveis elevados de pressão sonora é a segunda causa mais comum de perda auditiva sensorioneural adquirida. Está relacionada à morte celular por apoptose, necrose e/ou necrose programada (necroptose) devido ao dano mecânico e/ou metabólico, ocasionando a degeneração de estruturas cocleares como células ciliadas, sobretudo externas, células de suporte e de fibras aferentes do nervo coclear. Estudos têm demostrado um aumento na citocina inflamatória TNFa após a exposição ao ruído, bem como a melhoria auditiva relacionada ao uso de etanercepte, que é um bloqueador destacitocina. Neste contexto, este estudo teve por objetivo avaliar o efeito do silenciamento gênico do Tnfa na audição de ratos Wistar, expostos ao ruído branco, e identificar o perfil de expressão gênica na via metabólica desse gene. METODOLOGIA: Foram incluídos ratos Wistar do sexo masculino, jovens com limiar auditivo no Peate clique de 50 dBSPL. Os animais foram submetidos à introdução do siRNA Tnfa em uma orelha, e siRNA scramble na orelha contralateral por via trans-timpânica com posterior exposição à 120 dBSPL de ruído branco por 3h. Foi realizado Peate clique e remoção das cócleas para obtenção do cDNA e avaliação da expressão gênica da via metabólica do Tnfa por meio de qRT-PCR. Um grupo de animais, não submetidos ao silenciamento, foi exposto ao ruído para análise dessa via metabólica. Para o cálculo da expressão gênica relativa (Rq) utilizamos o método do deltaCT comparativo e o teste t-Student pareado para avaliar os parâmetros no Peate clique. RESULTADOS: A taxa de silenciamento observada foi de 74,1%. A média do limiar eletrofisiológico nas orelhas silenciadas foi estaticamente melhor que a orelha scramble (p < 0,001) com valores médios de 49,5 +- 10.5. A amplitude média da onda I em 80 dBSPL e das ondas II e IV em 90 dBSPL foi estatisticamente maior na orelha siRNA Tnfa, sem alteração na latência nas intensidades audíveis,para ambos os lados. A exposição ao ruído promoveu aumento da expressão do gene Tnfa e de seu receptor Tnfrsf1A, 24h após à exposição, associado ao aumento da expressão de genes relacionados à apoptose e diminuição de genes relacionados à sobrevida celular. CONCLUSÃO: O ruído promoveu aumento de expressão do gene Tnfa e de genes envolvidos na apoptose, associado à perda auditiva em modelo experimental. A administração trans-timpânica do siRNA Tnfa promoveu preservação do limiar eletrofisiológico e da amplitude da onda I, II e IV no Peate clique, após exposição ao ruído intenso, sugerindo que a inibição deste pode ser uma estratégia de preservação auditiva promissora. O silenciamento do Tnfa inibiu a disfunção coclear após estímulo acústico, sugerindo que esta proteína é um dos principais agentes envolvidos na perda auditiva induzida pelo ruído, devendo ser considerada como alvo terapêutico na estratégia de preservação auditiva / INTRODUCTION: Exposure to high levels of sound pressure is the second most common cause of acquired sensorineural hearing loss. It is related to cell death through apoptosis, necrosis and/or programmed necrosis (necroptosis) due to mechanical and/or metabolic damage, causing the degeneration of cochlear structures, such as cilliary cells, mainly external, as well as support cells and afferent fibers of the cochlear nerve. Studies have demonstrated an increase in the inflammatory cytokine TNFalfa after exposure to noise, as well as auditory improvement related to the use of etanercept, a cytokine blocker. In this context, this study aimed to evaluate the effect of Tnfa gene silencing on the hearing of Wistar rats exposed to white noise and to identify the expression profile in the metabolic pathway of this gene. METHODOLOGY: Young male Wistar rats with 50 dBSPL threshold in auditory brainstem responses click (ABR) were included in this study and submitted to the introduction of the TnfasiRNA in one ear and the scramble siRNA in the contralateral ear by trans-tympanic route, with subsequent exposure to 120 dB SPL of white noise for 3h. ABR was measured and the cochleae were dissected and used for the extraction of total RNA to obtain cDNA and conduct evaluations of the Tnfa metabolic pathway gene expression by qRT-PCR. A group of animals, not submitted to silencing, was exposed to noise to analyze this metabolic pathway. The relative gene expression (Rq) was calculated by the comparative deltaCT method and the paired Student t-test were applied to evaluate the parameters of the ABR click. RESULTS: The silencing rate was 74.1%. The mean electrophysiological threshold in the silenced ears was statistically higher than the scrambled ear (p < 0.001) with mean values of 49.5 +- 10.5. The mean amplitudes of wave I at 80 dBSPL and waves II and IV at 90dBSPL were statistically higher in the TnfasiRNA ear, with no change in latency at audible intensities for both sides. Noise exposure promoted increased expression of the Tnfa gene and its receptor, Tnfrsf1A, 24h after exposure, associated with increased expression of genes related to apoptosis and decreased expression of genes related to cell survival. CONCLUSIONS: Noise exposure promoted increased in Tnfa gene expression as well as in genes involved in apoptosis, associated with hearing loss in an experimental model. The trans-tympanic administration of TnfasiRNA promotes the preservation of the electrophysiological threshold and the amplitude of wave I, II and IV in the ABR click, after exposure to intense noise, suggesting that this inhibition may be a promising auditory preservation strategy. The Tnfa knockdown inhibited cochlear dysfunction after acoustic injury, suggesting that this protein plays an important role in noise induced hearing loss and should be considered a therapeutic target in auditory preservation strategies

Apoptose

Apoptosis,Tumor necrosis factor-alpha

Audiometria de resposta evocada

Auditory evoked potential

Evoked response

Fator de necrose tumoral alfa

Noise induced hearing loss

Perda auditiva induzida por ruído

Potencial evocado auditivo

RNA de interferência

RNA interference

Efeito do silenciamento gênico do Tnfa na preservação auditiva em ratos Wistar expostos ao ruído e análise da expressão gênica dessa via metabólica / Effect of Tnfa gene silencing on auditory preservation in Wistar rats exposed to noise and analysis of gene expression of this metabolic pathway

Janaina Candida Rodrigues

23 May 2018

INTRODUÇÃO: A exposição a níveis elevados de pressão sonora é a segunda causa mais comum de perda auditiva sensorioneural adquirida. Está relacionada à morte celular por apoptose, necrose e/ou necrose programada (necroptose) devido ao dano mecânico e/ou metabólico, ocasionando a degeneração de estruturas cocleares como células ciliadas, sobretudo externas, células de suporte e de fibras aferentes do nervo coclear. Estudos têm demostrado um aumento na citocina inflamatória TNFa após a exposição ao ruído, bem como a melhoria auditiva relacionada ao uso de etanercepte, que é um bloqueador destacitocina. Neste contexto, este estudo teve por objetivo avaliar o efeito do silenciamento gênico do Tnfa na audição de ratos Wistar, expostos ao ruído branco, e identificar o perfil de expressão gênica na via metabólica desse gene. METODOLOGIA: Foram incluídos ratos Wistar do sexo masculino, jovens com limiar auditivo no Peate clique de 50 dBSPL. Os animais foram submetidos à introdução do siRNA Tnfa em uma orelha, e siRNA scramble na orelha contralateral por via trans-timpânica com posterior exposição à 120 dBSPL de ruído branco por 3h. Foi realizado Peate clique e remoção das cócleas para obtenção do cDNA e avaliação da expressão gênica da via metabólica do Tnfa por meio de qRT-PCR. Um grupo de animais, não submetidos ao silenciamento, foi exposto ao ruído para análise dessa via metabólica. Para o cálculo da expressão gênica relativa (Rq) utilizamos o método do deltaCT comparativo e o teste t-Student pareado para avaliar os parâmetros no Peate clique. RESULTADOS: A taxa de silenciamento observada foi de 74,1%. A média do limiar eletrofisiológico nas orelhas silenciadas foi estaticamente melhor que a orelha scramble (p < 0,001) com valores médios de 49,5 +- 10.5. A amplitude média da onda I em 80 dBSPL e das ondas II e IV em 90 dBSPL foi estatisticamente maior na orelha siRNA Tnfa, sem alteração na latência nas intensidades audíveis,para ambos os lados. A exposição ao ruído promoveu aumento da expressão do gene Tnfa e de seu receptor Tnfrsf1A, 24h após à exposição, associado ao aumento da expressão de genes relacionados à apoptose e diminuição de genes relacionados à sobrevida celular. CONCLUSÃO: O ruído promoveu aumento de expressão do gene Tnfa e de genes envolvidos na apoptose, associado à perda auditiva em modelo experimental. A administração trans-timpânica do siRNA Tnfa promoveu preservação do limiar eletrofisiológico e da amplitude da onda I, II e IV no Peate clique, após exposição ao ruído intenso, sugerindo que a inibição deste pode ser uma estratégia de preservação auditiva promissora. O silenciamento do Tnfa inibiu a disfunção coclear após estímulo acústico, sugerindo que esta proteína é um dos principais agentes envolvidos na perda auditiva induzida pelo ruído, devendo ser considerada como alvo terapêutico na estratégia de preservação auditiva / INTRODUCTION: Exposure to high levels of sound pressure is the second most common cause of acquired sensorineural hearing loss. It is related to cell death through apoptosis, necrosis and/or programmed necrosis (necroptosis) due to mechanical and/or metabolic damage, causing the degeneration of cochlear structures, such as cilliary cells, mainly external, as well as support cells and afferent fibers of the cochlear nerve. Studies have demonstrated an increase in the inflammatory cytokine TNFalfa after exposure to noise, as well as auditory improvement related to the use of etanercept, a cytokine blocker. In this context, this study aimed to evaluate the effect of Tnfa gene silencing on the hearing of Wistar rats exposed to white noise and to identify the expression profile in the metabolic pathway of this gene. METHODOLOGY: Young male Wistar rats with 50 dBSPL threshold in auditory brainstem responses click (ABR) were included in this study and submitted to the introduction of the TnfasiRNA in one ear and the scramble siRNA in the contralateral ear by trans-tympanic route, with subsequent exposure to 120 dB SPL of white noise for 3h. ABR was measured and the cochleae were dissected and used for the extraction of total RNA to obtain cDNA and conduct evaluations of the Tnfa metabolic pathway gene expression by qRT-PCR. A group of animals, not submitted to silencing, was exposed to noise to analyze this metabolic pathway. The relative gene expression (Rq) was calculated by the comparative deltaCT method and the paired Student t-test were applied to evaluate the parameters of the ABR click. RESULTS: The silencing rate was 74.1%. The mean electrophysiological threshold in the silenced ears was statistically higher than the scrambled ear (p < 0.001) with mean values of 49.5 +- 10.5. The mean amplitudes of wave I at 80 dBSPL and waves II and IV at 90dBSPL were statistically higher in the TnfasiRNA ear, with no change in latency at audible intensities for both sides. Noise exposure promoted increased expression of the Tnfa gene and its receptor, Tnfrsf1A, 24h after exposure, associated with increased expression of genes related to apoptosis and decreased expression of genes related to cell survival. CONCLUSIONS: Noise exposure promoted increased in Tnfa gene expression as well as in genes involved in apoptosis, associated with hearing loss in an experimental model. The trans-tympanic administration of TnfasiRNA promotes the preservation of the electrophysiological threshold and the amplitude of wave I, II and IV in the ABR click, after exposure to intense noise, suggesting that this inhibition may be a promising auditory preservation strategy. The Tnfa knockdown inhibited cochlear dysfunction after acoustic injury, suggesting that this protein plays an important role in noise induced hearing loss and should be considered a therapeutic target in auditory preservation strategies

Apoptose

Audiometria de resposta evocada

Fator de necrose tumoral alfa

Perda auditiva induzida por ruído

Potencial evocado auditivo

RNA de interferência

Apoptosis,Tumor necrosis factor-alpha

Auditory evoked potential

Evoked response

Noise induced hearing loss

RNA interference

Potentiel acoustique évoqué chez le poulain de la naissance jusqu'à l'âge de 6 mois

Lecoq, Laureline

05 1900

Le potentiel acoustique évoqué (PAE) est influencé par l’âge dans de nombreuses espèces. Chez l’homme, l’augmentation de la fréquence de stimulation améliore la détection des anomalies du tronc cérébral. Son utilisation chez le poulain demeure anecdotique. Les buts de cette étude étaient: 1) de déterminer les valeurs de référence du PAE pour 3 différents protocoles de stimulation (11.33 Hz/70 dBNHL; 11.33 Hz/90 dBNHL; 90 Hz/70 dBNHL); 2) d’évaluer les effets de l’âge et de la fréquence de répétition de la stimulation acoustique sur les tracés du PAE chez le poulain de moins de 6 mois; 3) de comparer les données obtenues chez les poulains normaux à celles recueillies chez des poulains présentant des troubles neurologiques. Trente-neuf poulains normaux et 16 poulains avec des déficits neurologiques ont été inclus dans l’étude. Aucun effet de l’âge n’a été mis en évidence (p> 0,005). Aucune différence significative n’a été mise en évidence lorsque les latences absolues et relatives des poulains neurologiques ont été comparées à celles des poulains normaux (p>0,005). L’augmentation de la fréquence de stimulation acoustique n’a pas amélioré la détection d’anomalies sur les tracés de PAE chez les poulains neurologiques. Bien que toutes leurs valeurs de latences absolues et relatives soient demeurées à l’intérieur des valeurs de référence, 78,6% des poulains avec un déficit neurologique présentaient une asymétrie entre les tracés des deux oreilles. Cela démontre une différence de conduction de l’influx nerveux entre le côté droit et le côté gauche du tronc cérébral chez ces sujets. En conclusion, nous présentons ici les valeurs de référence du PAE chez le poulain de moins de 6 mois pour 3 protocoles de stimulation différents. D’autres études seraient nécessaire afin de déterminer si l’utilisation d’une fréquence de stimulation acoustique plus élevée est utile dans la détection d’anomalies du PAE chez les poulains souffrant de troubles neurologiques. La majorité des poulains avec des déficits neurologiques ont présenté des anomalies du PAE ce qui valide son utilisation pour le diagnostic de troubles neurologiques chez le poulain de moins de 6 mois. / Age and rate of acoustic stimulation are reported to affect peak latencies in brainstem auditory evoked responses (BAER) in different species. In foals, its use remains quite anecdotic but, as in humans and dogs, could be useful in the early diagnosis of central nervous system (CNS) disorders. The goals of this study were to 1) establish the reference values for BAER in foals using 3 different stimulation protocols (11.33 Hz/70 dBNHL; 11.33 Hz/90 dBNHL; 90 Hz/70 dBNHL), 2) evaluate the effects of age and rate of stimulation on BAER traces in foals up to 6 months old, and 3) compare these data with BAER obtained from foals with CNS disorders. Thirty-nine neurologically normal foals and 16 foals with neurological deficits were included in this study. No effects of age were observed in normal foals (p> 0.005). No significant differences were observed for latencies and interpeak latencies (IPL) when neurological foals were compared to normal foals (p> 0.05). Increasing the stimulation rate did not improve detection of CNS disorders. All neurologically abnormal foals had latencies and IPL within reference values. However, 78.6% of them had an asymmetry in their traces, reflecting a difference in conduction time between the left and right size of the brainstem. In conclusion, we provide reference values of BAER for foals up to 6 months using 3 different protocols. Further investigations are needed to conclude on the use of an increased rate of acoustic stimulation in foals. Most importantly, most foals with neurological deficits had also an abnormal BAER. This proves BAER is useful is the early diagnosis of neurological disorders in foals

PAE

Potentiel acoustique évoqué

Tronc cérébral

Poulain

Néonatologie

Cheval

Surdité

Brainstem auditory evoked response

BAER

Evoked potentials

Foals

Neonatology

Deafness

Hypoxic/ischemic encephalopathy (HIE)

CONDIÇÃO AUDITIVA DE FREQUENTADORES DE GRUPOS DE APOIO A EXUSUÁRIOS DE DROGAS / HEARING CONDITION OF GOERS OF SUPPORT GROUPS FOR FORMER DRUG USERS

Weich, Tainara Milbradt

05 March 2012

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This research aims to verify the hearing condition of goers of support groups for former drug users. It was evaluated 17 individuals, all former drug users, being marijuana, crack and cocaine the most used drugs. The individuals were divided into two groups according to the kind of the most commonly used drug: Group 1 (G1) - 10 former users of marijuana, Group 2 (G2) - Seven former users of crack/cocaine. For the results analysis, they were also subdivided according to the time of drug use: one to five years, six to 10 years and more than 15 years. The subjects were submitted to anamnesis, pure tone audiometry (PTA), acoustic impedance measurements, transient evoked otoacoustic emissions (TEOAE), suppressive effect of TEOAE and brainstem evoked response audiometry (BERA). By comparing the results of PTA of the G1 and G2 with one to five years of drug use, G2 presented pure tone levels greater than 25 dB with a significant statistically difference in the pure tone levels for the frequencies of 250, 500, 6000 and 8000 Hz in the right ear. In the group of six to 10 years of drug use it was not found significant difference in pure tone levels for frequencies of 4000 and 8000 Hz in the left ear, with worse pure tone levels for the G2. For the group with more than 15 years of drug use, it was observed pure tone levels above 25 dB for the frequencies from 3000 to 8000 Hz in the right ear. In evaluations with TEOAE, TEOAE suppression effect and BERA, it was not observed a difference in the results when they were compared according to the time of drug use. G1 presented an average in the relation signal/noise of TEOAE greater than the average in the G2, but without a significant statistically difference. The two groups did not differ in the occurrence of suppressor effect of TEOAE and absolute latency and inter-peak interval of BERA. It is emphasized that only five individuals had adequate results for the age group in the BERA. As the time of drug use increases, more changes were observed in the G1 results in PTA and BERA, but it did not interfere in the results of the evaluations of the G2. The results suggest that the use of drugs can cause peripheral and central hearing loss, and that the use of crack/cocaine is more deleterious to the hearing that the use of marijuana. / O presente trabalho tem como objetivo verificar a condição auditiva de frequentadores de grupos de apoio a ex-usuários de drogas. Foram avaliados 17 indivíduos ex-usuários de drogas, estando entre as mais usadas a maconha, o crack e a cocaína. Os indivíduos foram divididos em dois grupos, conforme o tipo de droga mais consumida: Grupo 1 (G1) 10 ex-usuários de maconha; Grupo 2 (G2) sete ex-usuários de crack/cocaína. Para a análise dos resultados, houve uma subdivisão conforme o tempo de uso de drogas: um a cinco anos, seis a 10 anos e mais do que 15 anos. Os indivíduos foram submetidos à anamnese, audiometria tonal liminar (ATL), medidas de imitância acústica, emissões otoacústicas transientes (EOAT), efeito supressor das EOAT e potenciais evocados auditivos de tronco encefálico (PEATE). Ao comparar os resultados da ATL do G1 e G2 com um a cinco anos de uso de drogas, o G2 apresentou limiares tonais maiores que 25 dBNA com diferença estatisticamente significante nos limiares tonais para as frequências de 250, 500, 6000 e 8000 Hz na orelha direita. No grupo de seis a 10 anos de uso de drogas houve diferença estatisticamente significante nos limiares tonais para as frequências de 4000 e 8000 Hz da orelha esquerda, com limiares piores para o G2. Para o grupo com mais de 15 anos de uso de drogas, observou-se limiares tonais acima de 25 dBNA para as frequências de 3000 a 8000 Hz na orelha direita. Nas avaliações com EOAT, efeito supressor das EOAT e PEATE não se observou diferença nos resultados quando foram comparados conforme o tempo de uso de drogas. O G1 apresentou média da relação sinal/ruído das EOAT superior ao G2, porém sem diferença estatisticamente significante. Os dois grupos não diferiram quanto à ocorrência do efeito supressor das EOAT, bem como quanto às latências absolutas e aos intervalos interpicos do PEATE. Ressalta-se que apenas cinco indivíduos apresentaram resultados adequados para a faixa etária no PEATE. O tempo de uso da droga exerceu influência nos resultados do G1 na ATL e PEATE; observou-se que quanto maior o tempo, maiores as alterações. Porém, o tempo de uso não interferiu nos resultados das avaliações do G2. Os resultados encontrados sugerem que o uso de drogas pode provocar alterações auditivas periféricas e centrais, e que o uso de crack/cocaína é mais deletério para a audição que o uso de maconha.

Audição

Emissões otoacústicas espontâneas

Drogas ilícitas

Cannabis

Cocaína

Cocaína Crack

Hearing

Spontaneous Otoacoustic Emissions

Brainstem Evoked Response Audiometry

Illicit drugs

Cannabis

Cocaine

Crack Cocaine

CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA