Consequences of Auditory Deprivation in Animals and Humans

Périer, O; Alegría, Jesús; Buyse, Monique; D'alimonte, Graziella; Gilson, Didier; Serniclaes, Willy

doi:10.3109/00016488409129739

Cited by 11 publications

(4 citation statements)

References 27 publications

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“…This critical period corresponds with a period when the storage of natural auditory stimuli is facilitated by a certain preorganization of the receptive brain areas 24,25 . Indeed, evidence for the existence of a critical period of neural plasticity with respect to audition has been obtained in several species when peripheral deafferentation is experimentally provoked 26–32 …”

Section: Discussionmentioning

confidence: 97%

Advantages of Cochlear Implantation in Prelingual Deaf Children before 2 Years of Age when Compared with Later Implantation

et al. 2004

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Section: Discussionmentioning

confidence: 97%

Advantages of Cochlear Implantation in Prelingual Deaf Children before 2 Years of Age when Compared with Later Implantation

et al. 2004

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“…However, in order for this to happen, a functional brainstem auditory pathway is required that is capable of conducting the stimulations from the implanted cochlea to the auditory areas in the cortex both ipsi-and contralateral to the treated ear. Different authors [Trune, 1982;Perier et al, 1984;Steward and Rubel, 1985;Hashisaki and Rubel, 1989;Pasic and Rubel, 1989;Moore, 1990] have described changes in a number of neurons, the size of the neuronal soma and synapsis density at different prethalamic auditory pathway centres following the destruction of the cochlea in neonates of different animal species, which could adversely affect the auditory rehabilitation of these patients. The cases presented here belong to an ongoing study that is currently recruiting subjects that belong to any of the five hearing loss patterns described earlier in this paper.…”

Section: Discussionmentioning

confidence: 99%

Functional Neuroimaging Studies in Asymmetric Hearing Loss

et al. 2015

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This article presents an analysis of the impact of functional neuroimaging studies (positron emission tomography, PET) in asymmetric hearing loss based on the clinical expertise obtained from a group of 21 patients. In these patients, PET studies are performed at rest and after auditory stimulation in order to measure the increase in brain activity in the ipsi- and contralateral cortex, providing supporting evidence to recommend a specific treatment and the side to implant. In conclusion, PET is a useful tool for selected cases in which information on the metabolic status of the auditory pathway can drive the decision regarding the treatment of the most appropriate ear. However, in view of our small sample, further research is needed to confirm our results in this topic.

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“…Este período crítico de tiempo se corresponde con el momento en que el sistema nervioso central, en sus áreas de representación auditiva, tiene la mayor capacidad para variar su patrón de desarrollo de acuerdo a los estímulos auditivos que provienen del ambiente. Existen datos experimentales, basados en el estudio de los efectos producidos tras la deprivación auditiva de distintas especies animales, que ilustran de una forma muy clara la existencia de estos períodos críticos de tiempo de alta plasticidad neural auditiva [29][30][31][32][33][34][35] .…”

Section: Discussionunclassified

Hearing and speech in children under 2 years of age with a cochlear implant

2008

An Sist Sanit Navar

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RESUMENFundamento. Valorar los resultados auditivos y de lenguaje en niños con una sordera congénita tratados mediante implantación coclear antes de los 2 años de edad y analizar las complicaciones surgidas en el proceso de selección, cirugía, programación y seguimiento de estos niños. Material y métodos.Se estudiaron 130 niños de forma prospectiva mediante la comparación de sus resultados individuales repetidos. Los niños se dividieron en dos grupos de edad: menores de 2 años (n=36) y niños entre 2 y 6 años (n=94). La valoración preoperatoria incluyó:1. Historia, exploración física y ORL.2. Valoración neuropediátrica, familiar y psicológica. Potenciales auditivos troncoencefálicos.4. Tomografía computarizada de alta resolución de peñascos. Consejo terapéutico y consentimiento informado.La audición y el lenguaje se valoraron, antes y anualmente después de la cirugía (hasta 5 años), mediante pruebas logoaudiométricas en contexto cerrado y abierto, y con la prueba de Peabody y las escalas de Reynell.Resultados. La audición y el lenguaje mejoraron significativamente en todos los niños, independientemente de su edad. Los resultados, sin embargo, fueron mejores en los niños implantados antes de 2 años. Las pruebas de lenguaje mostraron que el desarrollo del lenguaje en estos niños es comparable al de niños normo-oyentes. La tasa de complicaciones no aumentó en los niños menores de 2 años.Conclusiones. La implantación coclear antes de los 2 años, ofrece unos resultados auditivos y de lenguaje mejores y más rápidos, en comparación con los alcanzados por niños de mayor edad, sin aumento de las complicaciones.Palabras clave. Deficiencia auditiva. Otología. Cirugía. Oído interno. Resultados de tratamiento. ABSTRACTBackground. To compare the auditory abilities and speech performance of children with a profound prelingual bilateral hearing impairment, treated with a cochlear implant (CI) before or after 2 years of age. To analyze the complications arising during the selection process of the children, or as a result of the implantation, programming and follow-up.Methods. Prospective cohort single-subject repeatedmeasures study of 130 children who received an implant at our center. The children were divided into two age groups: 0-2 (n=36), and 2-6 years of age (n=94). Preoperative evaluation included:1. History, physical exploration, and ENT examination. 2. Neuropaediatric examination, family evaluation, and psychological assessment. 3. Auditory brainstem responses. 4. High resolution computed tomogram of temporal bones. 5. Counseling and informed consent. The children were evaluated prior to, and each year following, the intervention (for up to 5 years), using closed and open-set logoaudiometric tests, and speech perception tests. Speech was evaluated according to the Peabody Picture Vocabulary and Reynell general oral expression scale.Results. Auditory and speech perception tests improved significantly in all children after CI, regardless of the follow-up time. The infant's performance was better in the group of early implan...

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Consequences of Auditory Deprivation in Animals and Humans

Cited by 11 publications

References 27 publications

Advantages of Cochlear Implantation in Prelingual Deaf Children before 2 Years of Age when Compared with Later Implantation

Advantages of Cochlear Implantation in Prelingual Deaf Children before 2 Years of Age when Compared with Later Implantation

Functional Neuroimaging Studies in Asymmetric Hearing Loss

Hearing and speech in children under 2 years of age with a cochlear implant

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