Doctoral Thesis
DOI
https://doi.org/10.11606/T.5.2014.tde-05082014-151655
Document
Author
Full name
Aline Gomes Bittencourt
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2014
Supervisor
Committee
Brito Neto, Rubens Vuono de (President)
Castro Junior, Ney Penteado de
Francesco, Renata Cantisani di
Lazarini, Paulo Roberto
Rapoport, Priscila Bogar
Castro Junior, Ney Penteado de
Francesco, Renata Cantisani di
Lazarini, Paulo Roberto
Rapoport, Priscila Bogar
Title in Portuguese
Referências anatômicas ao giro basal da cóclea no assoalho da fossa craniana média para o implante coclear
Keywords in Portuguese
Cadáver
Fossa craniana média/anatomia e histologia
Fossa craniana média/cirurgia
Implante coclear
Implante coclear/métodos
Neuroanatomia
Osso temporal/anatomia e histologia
Osso temporal/cirurgia
Perda auditiva neurossensorial/cirurgia
Perda auditiva neurossensorial/reabilitação
Tomografia computadorizada por raios X
Fossa craniana média/anatomia e histologia
Fossa craniana média/cirurgia
Implante coclear
Implante coclear/métodos
Neuroanatomia
Osso temporal/anatomia e histologia
Osso temporal/cirurgia
Perda auditiva neurossensorial/cirurgia
Perda auditiva neurossensorial/reabilitação
Tomografia computadorizada por raios X
Abstract in Portuguese
Introdução: A técnica clássica para o implante coclear é realizada por meio de mastoidectomia seguida de timpanotomia posterior. O acesso pela fossa craniana média provou ser uma alternativa valiosa, embora seja usada para o implante coclear, ainda sem normatização. Objetivo: Descrever um novo acesso pela fossa craniana média que expõe o giro basal da cóclea para o implante coclear. Métodos: Estudo anatômico de ossos temporais. Foram dissecados 50 ossos temporais. A cocleostomia foi realizada mediante um acesso via fossa craniana média, na porção mais superficial do giro basal da cóclea, usando o plano meatal e seio petroso superior como as principais referências anatômicas. Foi determinada a distância entre os pontos de referência, o ângulo entre o plano meatal e a cocleostomia, e a distância entre esta estrutura e a janela redonda. Foi realizada tomografia computadorizada em 5 dos ossos temporais utilizados neste estudo. Resultados: Em todos os 50 ossos temporais, apenas a porção mais superficial do giro basal da cóclea foi aberta e tanto as escalas timpânica como a vestibular foram visualizadas. As distâncias médias ± DP, menores e maiores, entre a cocleostomia e o plano meatal foram estimadas em 2,48±0,88mm e 3,11±0,86mm, respectivamente. A distância média da cocleostomia até a janela redonda foi de 8,38±1,96mm, e daquela até o seio petroso superior 9,19±1,59mm. As distâncias médias, menores e maiores, entre a cocleostomia e o eixo longo do plano meatal a partir da sua porção mais proximal foram estimadas em 6,63±1,38mm e 8,2±1,43mm, respectivamente. O valor médio do ângulo entre a cocleostomia e o plano meatal foi igual a 22,54±7,400. As tomografias computadorizadas demonstraram a inserção do feixe de eletrodos por meio do giro basal da cóclea até o seu ápice em todas as peças submetidas a este exame. Conclusão: A técnica proposta para identificar o giro basal da cóclea é simples e confiável. Igualmente, permite a visualização da escala timpânica e a inserção do feixe de eletrodos do implante coclear através desta câmara
Title in English
Anatomical references to the cochlear basal turn on the floor of the middle cranial fossa for cochlear implantation
Keywords in English
Cadaver
Cochlear implantation
Cochlear implantation/methods
Cranial fossa middle/anatomy e histology
Cranial fossa middle/surgery
Hearing loss sensorineural/rehabilitation
Hearing loss sensorineural/surgery
Neuroanatomy
Temporal bone/surgery
Temporal bone/anatomy e histology
Tomography X-ray computed
Cochlear implantation
Cochlear implantation/methods
Cranial fossa middle/anatomy e histology
Cranial fossa middle/surgery
Hearing loss sensorineural/rehabilitation
Hearing loss sensorineural/surgery
Neuroanatomy
Temporal bone/surgery
Temporal bone/anatomy e histology
Tomography X-ray computed
Abstract in English
Introduction: The classic technique for cochlear implantation uses mastoidectomy followed by posterior tympanotomy. The middle cranial fossa approach has proved to be a valuable alternative for cochlear implantation, although the standardization of this technique is still needed. Objectives: To describe a novel approach through the middle cranial fossa for exposing the cochlear basal turn for cochlear implantation. Materials And Methods: Anatomical temporal bone study. Fifty temporal bones were dissected. A cochleostomy was performed via a middle fossa approach on the most superficial part of the cochlear basal turn, using the meatal plane and superior petrous sinus as the main landmarks. The distance between the landmarks, the angle between the cochleostomy and the meatal plane, and the distance between this structure and the round window were measured. A computed tomography was performed on 5 of the studied temporal bones. Results: In all 50 temporal bones, only the superficial portion of the cochlear basal turn was uncovered. The cochlear exposure allowed both the scala tympani and vestibule to be exposed. The mean ± SD minor and major distances between the cochleostomy and the meatal plane were estimated to be 2.48±0.88mm and 3.11±0.86mm, respectively. The mean distance from the cochleostomy to the round window was 8.38±1.96mm, and that to the superior petrosal sinus was 9.19±1.59mm. The mean minor and major distances between the cochleostomy and the long axis of the meatal plane from its most proximal portion were estimated to be 6.63±1.38mm and 8.29±1.43mm, respectively. The mean angle between the cochleostomy and the meatal plane was 22.54±7.400. The computed tomography of all 5 temporal bones demonstrated the insertion of the implant array from the cochlear basal turn towards its apex. Conclusion: The proposed technique for identifying the cochlear basal turn is simple and trustworthy. Additionally, it enables visualization of the scala tympani, facilitating the insertion of the cochlear implant array through this chamber
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Publishing Date
2014-08-06
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