Auditory temporal resolution and backward masking in musicians with absolute pitch

Among the many questions regarding the ability to effortlessly name musical notes without a reference, also known as absolute pitch, the neural processes by which this phenomenon operates are still a matter of debate. Although a perceptual subprocess is currently accepted by the literature, the participation of some aspects of auditory processing still needs to be determined. We conducted two experiments to investigate the relationship between absolute pitch and two aspects of auditory temporal processing, namely temporal resolution and backward masking. In the first experiment, musicians were organized into two groups according to the presence of absolute pitch, as determined by a pitch identification test, and compared regarding their performance in the Gaps-in-Noise test, a gap detection task for assessing temporal resolution. Despite the lack of statistically significant difference between the groups, the Gaps-in-Noise test measures were significant predictors of the measures for pitch naming precision, even after controlling for possible confounding variables. In the second experiment, another two groups of musicians with and without absolute pitch were submitted to the backward masking test, with no difference between the groups and no correlation between backward masking and absolute pitch measures. The results from both experiments suggest that only part of temporal processing is involved in absolute pitch, indicating that not all aspects of auditory perception are related to the perceptual subprocess. Possible explanations for these findings include the notable overlap of brain areas involved in both temporal resolution and absolute pitch, which is not present in the case of backward masking, and the relevance of temporal resolution to analyze the temporal fine structure of sound in pitch perception

Stroke in children and adolescents : analysis of electrophysiological and behavioral assessment findings of auditory processing

Purpose: This study aimed to analyze the auditory processing behavior of children and adolescents diagnosed with stroke and compare it with that of typically developing individuals. Methods: This was an analytical cross-sectional study involving 48 participants aged between 7 and 17 years with adequate schooling for age and grade, allocated equally to two groups: Stroke (SG) and Control Groups (CG). For the SG, cases identified between 2003 and 2018 were considered. In the CG, school-aged participants with typical development were randomized. After screening for differential audiological assessment and confirmation of auditory pathway integrity at the brainstem level, binaural analyses of the auditory processing behavior were conducted using the Dichotic Digit Test (DDT), Frequency Pattern Test (FPT), and electrophysiological assessment (P300). The Shapiro-Wilk test for normality was conducted, followed by the T and Mann-Whitney tests, with a 95 % confidence level and significance offset at p < 0.05, using the SPSS software (IBM®, v. 22.) Results: The CG performed better in terms of auditory processing. These differences were significant (p < 0.0001) for the binaural integration of DDT, FPT humming and Labeling, and P300 latency. The P300 results were similar; however, with a greater amplitude in the SG. Conclusion: This study showed that children and adolescents with stroke performed worse in electrophysiological and behavioral tests of auditory processing assessed using the auditory evoked potentials. These data reinforce the hypothesis that stroke-related lesions compromise the neural mechanisms underlying auditory processing

Avaliação das funções cognitivas em idosos com e sem alterações no processamento auditivo central

RESUMO Objetivo Avaliar e comparar as funções cognitivas entre idosos com e sem alteração do processamento auditivo central. Método Vinte e oito idosos saudáveis (14 do grupo controle e 14 do grupo Transtorno do Processamento Auditivo Central - TPAC) participaram do estudo. Todos os idosos foram submetidos à bateria mínima de avaliação do processamento auditivo central (PAC), ao potencial auditivo cognitivo P300 e a bateria cognitiva breve (BCB). Na comparação entre sujeitos, foi aplicado o teste de Mann-Whitney e na comparação intra-sujeitos, utilizamos o teste de postos sinalizados de Wilcoxon. Para verificar se houve associação entre o desempenho do PAC e das variáveis cognitivas, foi utilizada a correlação de Spearman. Resultados Não houve diferenças estatisticamente significantes entre os grupos ‘Controle’ e TPAC para a maioria das habilidades cognitivas avaliadas por meio da BCB, bem como para as variáveis do potencial cognitivo P300. Contudo, houve diferença estatisticamente significante entre o desempenho do grupo ‘Controle’ e TPAC para a prova do desenho do relógio. Além disso, foi possível observar correlação entre o desempenho do teste do relógio e no TPF. Conclusão Idosos com TPAC não apresentaram alteração na maior parte dos testes cognitivos, com exceção da prova do desenho do relógio, cuja tarefa envolve múltiplas funções cognitivas, incluindo processamento visuoespacial, função executiva, memória semântica e planejamento

A inclusão escolar para pacientes com deficiência intelectual ou atraso cognitivo: School inclusion for patients with intellectual disability or cognitive delay

A educação inclusiva é fundamental para que crianças e adolescentes vivenciem ideias e experiências de ensino aprendizagem significativa, desenvolvam a autonomia e conquistem direitos de cidadania. No entanto, existem obstáculos que precisam ser compreendidos e superados e estratégias que podem ser adotadas para promover a inclusão de crianças com deficiência intelectual ou atraso cognitivo. Diante disso, este estudo tem como objetivo compreender o processo de inclusão escolar de alunos com deficiência intelectual ou atraso cognitivo. Para isso, trata-se de uma revisão sistemática de literatura, desenvolvida a partir da seleção de estudos nas bases de dados Scielo, Pubmed e BVS/Medline a partir do uso de descritores DeCS/MeSH e aplicação de critérios de inclusão e exclusão. Após a análise e interpretação dos dados, concluiu-se que, no processo de inclusão de alunos com deficiência intelectual ou atraso cognitivo no ambiente escolar, a educação inclusiva interfere positivamente na qualidade de vida desses. Para isso, destacam-se uma série de estratégias relevantes, tais como: envolvimento de escola como um todo, dos professores e da família; compreender a deficiência; valorizar os interesses e habilidades dos alunos com deficiência; estimular a autodeterminação desses e a convivência entre pessoas deficientes e não deficientes; promover a socialização por meio de jogos; utilizar atividades adaptadas; e cuidar da formação inicial e continuada dos professores, contemplando ideias sobre educação inclusiva

Acoustic signals processing of different complexities in children with auditory or language perception impairment

Introdução: Entender como estímulos acústicos complexos são codificados ao longo da via auditiva e como este processamento está relacionado em níveis mais inferiores e superiores da via, pode nos levar ao melhor entendimento de processos que subjazem a comunicação humana normal e alterada. Baseado na literatura que descreve anormalidades no processamento auditivo temporal em crianças com Distúrbio Especifico de Linguagem (DEL), nós hipotetizamos que dificuldades no processamento de fala estão diretamente relacionadas ao déficit na codificação neural destes sons, nos diferentes níveis da via auditiva, tanto em crianças com DEL quanto em crianças com Transtorno de Processamento Auditivo (Central) TPA(C). Objetivos: Verificar a representação e o processamento de sinais acústicos de diferentes complexidades no sistema auditivo por meio de testes comportamentais, eletroacústicos e eletrofisiológicos em indivíduos com TPA(C), DEL e desenvolvimento típico (DT). Métodos: As avaliações comportamentais, eletroacústicas e eletrofisiológicas (avaliação comportamental do processamento auditivo central, medidas de supressão das emissões otoacústicas por estimulo transiente, potencial evocado auditivo de tronco encefálico (PEATE) utilizando estímulo clique e estímulo de fala, o MMN evocado por estímulo de fala e o P300 com estímulo tone burst) foram realizadas em 75 crianças, com idade entre 6 a 12 anos, sendo 25 crianças pertencentes ao grupo DT, 25 crianças ao grupo TPA(C) e 25 crianças ao grupo DEL. A análise dos resultados foi realizada através da comparação entre os três grupos. Além disso, foi verificada a sensibilidade e especificidade do PEATE com fala para crianças brasileiras. Resultados: As análises das respostas apresentadas pelo grupo DT em comparação as respostas apresentadas pelos grupos TPA(C) e DEL revelaram nesses dois grupos a ocorrência de codificação neural anormal para diferentes características acústicas (temporais e/ou espectrais) presentes nos diferentes estímulos acústicos utilizados no presente estudo. Além disso, observou-se piores padrões de resposta no grupo DEL em comparação ao grupo TPA(C), em pelo menos uma variável em todas as avaliações, sugerindo possíveis diferenciações entre esses dois diagnósticos. Conclusão: Estes dados mostraram que a representação ineficiente de componentes cruciais de sons, principalmente sons de fala, poderia contribuir para as dificuldades encontradas nas crianças com TPA(C) e DEL. Além disso, esses achados indicam que processos neurais mediados pelas diferentes estações na via auditiva são diferentes entre alteração de processamento auditivo e linguagemIntroduction: Understanding how complex acoustic stimuli are encoded along the auditory pathway and how this processing is related to lower and higher levels from the pathway can help us to better understand the processes underlying normal and altered human communication. Based on the literature describing abnormalities in temporal auditory processing in children with specific language impairment (SLI), we hypothesized that difficulties in speech processing are directly related in the neural encoding deficits of these sounds at different levels in the auditory pathway, both in children with SLI as well as children with (central) auditory processing disorder (C)APD. Objectives: Verify the representation and processing of acoustic signals of different complexities in the auditory system using behavioral, electroacoustic and electrophysiologic tests in patients with (C)APD, SLI compared to a Typical Development (TD). Methods: The behavioral assessments, electroacoustic and electrophysiologic (behavioral assessment of central auditory processing, measures on the suppression of transient otoacoustic emissions stimulus, Click Evoked-ABR and Speech-Evoked ABR, MMN to speech stimuli and P300 to tone burst stimuli) were tested in 75 children (6 to 12 years old). The children were arranged in three groups: 25 children in the TD group, 25 children in the (C)APD group and 25 children in the SLI group. The results analysis was performed by comparing the three groups. In addition, the sensitivity and specificity of the Speech-Evoked ABR was verified Brazilian children. Results: Analysis of the responses provided for TD group compared to APD(C) and SLI groups revealed abnormal neural encoding for different acoustic features (temporal and/or spectral) in the different acoustic stimuli used in this study. In addition, the SLI group exhibited poor responses in comparison to (C)APD, at least for one variable in all evaluations, suggesting possible differences between these two diagnoses. In addition, worse response patterns were observed in the SLI group compared to (C)APD group by at least one variable in all of the evaluations, suggesting possible differences between these two diagnoses. Conclusion: These data showed that the inefficient representation of the crucial sound components, especially speech sounds, could contribute to difficulties found in childrens with (C)APD and SLI. Furthermore, these findings indicate that neural processes mediated by different stations in the auditory pathways are different between auditory processing and language disorder

Efficacy of auditory training in elderly subjects

Auditory training (AT)  has been used for auditory rehabilitation in elderly individuals and is an effective tool for optimizing speech processing in this population. However, it is necessary to distinguish training-related improvements from placebo and test-retest effects. Thus, we investigated the efficacy of short-term auditory training (acoustically controlled auditory training - ACAT) in elderly subjects through behavioral measures and P300. Sixteen elderly individuals with APD received an initial evaluation (evaluation 1 - E1) consisting of behavioral and electrophysiological tests (P300 evoked by tone burst and speech sounds) to evaluate their auditory processing. The individuals were divided into two groups. The Active Control Group [ACG (n=8)] underwent placebo training. The Passive Control Group [PCG (n=8)] did not receive any intervention. After 12 weeks, the subjects were  revaluated (evaluation 2 - E2). Then, all of the subjects underwent ACAT. Following another 12 weeks (8 training sessions), they underwent the final evaluation (evaluation 3 – E3). There was no significant difference between E1 and E2 in the behavioral test [F(9.6)=0,.6 p=0.92, λ de Wilks=0.65)] or P300 [F(8.7)=2.11, p=0.17, λ de Wilks=0.29] (discarding the presence of placebo effects and test-retest). A significant improvement was observed between the pre- and post-ACAT conditions (E2 and E3) for all auditory skills according to the behavioral methods [F(4.27)=0.18, p=0.94, λ de Wilks=0.97]. However, the same result was not observed for P300 in any condition. There was no significant difference between P300 stimuli. The ACAT improved the behavioral performance of the elderly for all auditory skills and was an effective method for hearing rehabilitation

Mismatch negativity in children with specific language impairment and auditory processing disorder

INTRODUCTION: Mismatch negativity, an electrophysiological measure, evaluates the brain's capacity to discriminate sounds, regardless of attentional and behavioral capacity. Thus, this auditory event-related potential is promising in the study of the neurophysiological basis underlying auditory processing.OBJECTIVE: To investigate complex acoustic signals (speech) encoded in the auditory nervous system of children with specific language impairment and compare with children with auditory processing disorders and typical development through the mismatch negativity paradigm.METHODS: It was a prospective study. 75 children (6-12 years) participated in this study: 25 children with specific language impairment, 25 with auditory processing disorders, and 25 with typical development. Mismatch negativity was obtained by subtracting from the waves obtained by the stimuli /ga/ (frequent) and /da/ (rare). Measures of mismatch negativity latency and two amplitude measures were analyzed.RESULTS: It was possible to verify an absence of mismatch negativity in 16% children with specific language impairment and 24% children with auditory processing disorders. In the comparative analysis, auditory processing disorders and specific language impairment showed higher latency values and lower amplitude values compared to typical development.CONCLUSION: These data demonstrate changes in the automatic discrimination of crucial acoustic components of speech sounds in children with specific language impairment and auditory processing disorders. It could indicate problems in physiological processes responsible for ensuring the discrimination of acoustic contrasts in pre-attentional and pre-conscious levels, contributing to poor perception

Cortical inhibition effect in musicians and non-musicians using P300 with and without contralateral stimulation

Introduction: Musicians have more robust and efficient neural responses in the cortical and sub-cortical regions, demonstrating that musical experience benefits the processing of both non-linguistic and linguistic stimuli. Objective: This study aimed to verify P300's latency and amplitude behavioral using contralateral stimulation in musicians and non-musicians. Methods: This was a case-control study. Subjects were divided in two groups: musicians, comprising 30 professional musicians, and non-musicians, comprising 25 subjects without musical experience. Results: The present study showed that the musicians had lower latencies and higher amplitudes than the non-musicians in the P300 without contralateral noise. For the P300 amplitude values, the difference between groups persisted, and the musicians presented significantly higher amplitude values compared with the non-musicians; additionally, the analysis of the noise effect on the P300 response showed that the latency values were significantly increased in the musicians. Conclusion: The central auditory nervous system of musicians presents peculiar characteristics of electrophysiological responses probably due to the plasticity imposed by musical practice

Table_2_Auditory temporal resolution and backward masking in musicians with absolute pitch.xlsx

Among the many questions regarding the ability to effortlessly name musical notes without a reference, also known as absolute pitch, the neural processes by which this phenomenon operates are still a matter of debate. Although a perceptual subprocess is currently accepted by the literature, the participation of some aspects of auditory processing still needs to be determined. We conducted two experiments to investigate the relationship between absolute pitch and two aspects of auditory temporal processing, namely temporal resolution and backward masking. In the first experiment, musicians were organized into two groups according to the presence of absolute pitch, as determined by a pitch identification test, and compared regarding their performance in the Gaps-in-Noise test, a gap detection task for assessing temporal resolution. Despite the lack of statistically significant difference between the groups, the Gaps-in-Noise test measures were significant predictors of the measures for pitch naming precision, even after controlling for possible confounding variables. In the second experiment, another two groups of musicians with and without absolute pitch were submitted to the backward masking test, with no difference between the groups and no correlation between backward masking and absolute pitch measures. The results from both experiments suggest that only part of temporal processing is involved in absolute pitch, indicating that not all aspects of auditory perception are related to the perceptual subprocess. Possible explanations for these findings include the notable overlap of brain areas involved in both temporal resolution and absolute pitch, which is not present in the case of backward masking, and the relevance of temporal resolution to analyze the temporal fine structure of sound in pitch perception.</p

Table_1_Auditory temporal resolution and backward masking in musicians with absolute pitch.xlsx

Among the many questions regarding the ability to effortlessly name musical notes without a reference, also known as absolute pitch, the neural processes by which this phenomenon operates are still a matter of debate. Although a perceptual subprocess is currently accepted by the literature, the participation of some aspects of auditory processing still needs to be determined. We conducted two experiments to investigate the relationship between absolute pitch and two aspects of auditory temporal processing, namely temporal resolution and backward masking. In the first experiment, musicians were organized into two groups according to the presence of absolute pitch, as determined by a pitch identification test, and compared regarding their performance in the Gaps-in-Noise test, a gap detection task for assessing temporal resolution. Despite the lack of statistically significant difference between the groups, the Gaps-in-Noise test measures were significant predictors of the measures for pitch naming precision, even after controlling for possible confounding variables. In the second experiment, another two groups of musicians with and without absolute pitch were submitted to the backward masking test, with no difference between the groups and no correlation between backward masking and absolute pitch measures. The results from both experiments suggest that only part of temporal processing is involved in absolute pitch, indicating that not all aspects of auditory perception are related to the perceptual subprocess. Possible explanations for these findings include the notable overlap of brain areas involved in both temporal resolution and absolute pitch, which is not present in the case of backward masking, and the relevance of temporal resolution to analyze the temporal fine structure of sound in pitch perception.</p