Disciplina Discipline MOF5751
Bioengenharia em Próteses Eletrônicas Cirurgicamente Implantáveis na Orelha

Bioengineering of Active Middle ear Implantable Prosthesis

Área de Concentração: 5143

Concentration area: 5143

Criação: 13/07/2023

Creation: 13/07/2023

Ativação: 13/07/2023

Activation: 13/07/2023

Nr. de Créditos: 4

Credits: 4

Carga Horária:

Workload:

Teórica

(por semana)

Theory

(weekly)

Prática

(por semana)

Practice

(weekly)

Estudos

(por semana)

Study

(weekly)

Duração Duration Total Total
2 9 4 4 semanas 4 weeks 60 horas 60 hours

Docentes Responsáveis:

Professors:

Ricardo Ferreira Bento

Robinson Koji Tsuji

Rubens Vuono de Brito Neto

Objetivos:

OBJETIVOS: Introdução teórica à bioengenharia de eletrodos intra-cocleares e correlação com os níveis de estimulação neural. Estudo dos materiais piezoelétricos e eletromagnéticos na amplificação mecânica do som dentro da orelha média Mecanismos para evitar a degeneração neural e denervação com uso de fatores de crescimento neurais e de estimulação elétrica crônica do nervo coclear Destruição da micro-estrutura do espaço perilinfático no modíolo coclear com o formato dos eletrodos intra-cocleares. Estudar as estratégias de processamento da fala e desenvolver modelos complementares de reabilitação por implante das próteses. Ampliar a função dos eletrodos intracocleares: administração de drogas ao ouvido interno e supressão de zumbido. Estimulação elétrico-acústica e percepção cortical.

Objectives:

GOALS: Introduction to bioengineering of intracochlear electrodes and correlation with neural stimulation levels. Study of piezoelectric and electromagnetic materials in the mechanical amplification of sound inside the middle ear Mechanisms to prevent neural degeneration and denervation using neural growth factors and chronic electrical stimulation of the cochlear nerve Destruction of the microstructure of the perilymphatic space in the cochlear modiolus with the shape of intracochlear electrodes. To study speech processing strategies and develop complementary models of rehabilitation by implanting prostheses. Extending the function of intracochlear electrodes: administering drugs to the inner ear and suppressing tinnitus. Electric-acoustic stimulation and cortical perception.

Justificativa:

JUSTIFICATIVA: Embora a possibilidade de estimulação elétrica do nervo auditivo seja conhecida desde 1960 somente a partir da década de 80 aparelhos eletrônicos implantáveis foram utilizados com sucesso na restauração parcial da surdez. Com o desenvolvimento atual da bioengenharia, o surgimento de novos materiais bio-compatíveis e os avanços na informática com potentes microprocessadores, uma área completamente nova se abre para pesquisas sobre novas formas de processar a fala eletricamente e eletroacusticamente.

Rationale:

JUSTIFICATION: Although the possibility of electrical stimulation of the auditory nerve has been known since the 1960's, only since the 1980's have implantable electronic devices been successfully used in the partial restoration of deafness. With the current development of bioengineering, the emergence of new biocompatible materials and advances in computing with powerful microprocessors, a completely new area opens up for research on new ways of processing speech electrically and electroacoustically.

Conteúdo:

CONTEÚDO (EMENTA): 1- Materiais biocompatíveis em orelha 2- Bioengenharia e fisiologia na estimulação acústica 3- Mecanismos e materiais de amplificação acústica . 4- Mecanismos de amplificação elétricos. 5- Mecanismos de amplificação mistos ( eletro-acústicos) 6- Microprocessadores e processamento elétrico da fala 7- Desenho industrial de microfones 8- Desenho industrial de eletrodos intra-cocleares e de tronco cerebral 9- Regeneração de células nervosas e fatores neurotróficos.

Content:

CONTENT (SUMMARY): 1- Biocompatible materials in the ear 2- Bioengineering and physiology in acoustic stimulation 3- Acoustic amplification mechanisms and materials . 4- Electrical amplification mechanisms. 5- Mixed amplification mechanisms (electro-acoustic) 6- Microprocessors and electrical speech processing 7- Industrial design of microphones 8- Industrial design of intracochlear and brainstem electrodes 9- Regeneration of nerve cells and neurotrophic factors.

Forma de Avaliação:

CRITÉRIOS DE AVALIAÇÃO: Freqüência, participação e qualidade das discussões e seminários, capacidade de análise crítica dos trabalhos e métodos discutidos.

Type of Assessment:

EVALUATION CRITERIA: Frequency, participation and quality of discussions and seminars, ability to critically analyze the works and methods discussed.

Bibliografia:

BIBLIOGRAFIA: Hoshino ACH, Goffi-Gomez MVS, Sierra PAS, Agrawal S, Rodriguez C, Carvalho ACM, Tsuji RK. Can the use of the CROS system provide head shadow effect contribution to unilateral Cochlear Implant Users? Codas. 2022 Apr 1;34(5):e20210071. doi: 10.1590/2317-1782/20212021071. PMID: 35385028; PMCID: PMC9886180. Magalhães ATM, Carvalho A, Tsuji RK, Bento RF, Goffi-Gomez MVS. Balancing the Loudness in Speech Processors and Contralateral Hearing Aids in Users of Unilateral Cochlear Implants. Int Arch Otorhinolaryngol. 2021 Apr;25(2):e235-e241. doi: 10.1055/s-0040-1712482. Epub 2020 Jun 23. PMID: 33968226; PMCID: PMC8096504. Fernandes NF, de Queiroz Teles Gomes M, Tsuji RK, Bento RF, Goffi-Gomez MVS. Auditory and language skills in children with auditory brainstem implants. Int J Pediatr Otorhinolaryngol. 2020 May;132:110010. doi: 10.1016/j.ijporl.2020.110010. Epub 2020 Mar 16. PMID: 3223465 Bento RF, Tsuji RK, Fonseca AC, Alves RD. Use of an Osteoplastic Flap for the Prevention of Mastoidectomy Retroauricular Defects. Int Arch Otorhinolaryngol. 2017 Apr;21(2):151-155. doi: 10.1055/s-0036-1584266. Epub 2016 May 30. PMID: 28382122; PMCID: PMC5375703. Silva LAF, Couto MIV, Magliaro FCL, Tsuji RK, Bento RF, de Carvalho ACM,Matas CG. Correction: Cortical maturation in children with cochlear implants: Correlation between electrophysiological and behavioral measurement. PLoS One. 2017 Jun 27;12(6):e0178341. doi: 10.1371/journal.pone.0178341. Erratum for: PLoS One. 2017 Feb 2;12 (2):e0171177. PMID: 28654645; PMCID: PMC5486965. DiGiovanna J, Nguyen TA, Guinand N, Pérez-Fornos A, Micera S. Neural Network Model of Vestibular Nuclei Reaction to Onset of Vestibular Prosthetic Stimulation. Front Bioeng Biotechnol. 2016 Apr 20;4:34. doi: 10.3389/fbioe.2016.00034. eCollection 2016. PubMed PMID: 27148528; PubMed Central PMCID: PMC4837148. Hanekom T, Hanekom JJ. Three-dimensional models of cochlear implants: A review of their development and how they could support management and maintenance of cochlear implant performance. Network. 2016 May 2:1-40. [Epub ahead of print] PubMed PMID: 27136100. Kalkman RK, Briaire JJ, Frijns JH. Stimulation strategies and electrode design in computational models of the electrically stimulated cochlea: An overview of existing literature. Network. 2016 May 2:1-28. [Epub ahead of print] PubMed PMID: 27135951. Ma N, Morris S, Kitterick PT. Benefits to Speech Perception in Noise From the Binaural Integration of Electric and Acoustic Signals in Simulated Unilateral Deafness. Ear Hear. 2016 May-Jun;37(3):248-59. doi: 10.1097/AUD.0000000000000252. PubMed PMID: 27116049; PubMed Central PMCID: PMC4847646. Astolfi L, Simoni E, Giarbini N, Giordano P, Pannella M, Hatzopoulos S, Martini A. Cochlear implant and inflammation reaction: Safety study of a new steroid-eluting electrode. Hear Res. 2016 Apr 21;336:44-52. doi: 10.1016/j.heares.2016.04.005. [Epub ahead of print] PubMed PMID: 27109196. El-Anwar MW, ElAassar AS, Foad YA. Non-mastoidectomy Cochlear Implant Approaches: A Literature Review. Int Arch Otorhinolaryngol. 2016 Apr;20(2):180-4. doi: 10.1055/s-0035-1558871. Epub 2015 Jul 23. Review. PubMed PMID: 27096025; PubMed Central PMCID: PMC4835324. Marimuthu V, Swanson BA, Mannell R. Cochlear Implant Rate Pitch and Melody Perception as a Function of Place and Number of Electrodes. Trends Hear. 2016 Apr 19;20. pii: 2331216516643085. doi: 10.1177/2331216516643085. PubMed PMID: 27094028. Macherey O, Cazals Y. Effects of Pulse Shape and Polarity on Sensitivity to Cochlear Implant Stimulation: A Chronic Study in Guinea Pigs. Adv Exp Med Biol. 2016;894:133-42. doi: 10.1007/978-3-319-25474-6_15. PubMed PMID: 27080654. Hu H, Kollmeier B, Dietz M. Suitability of the Binaural Interaction Component for Interaural Electrode Pairing of Bilateral Cochlear Implants. Adv Exp Med Biol. 2016;894:57-64. doi: 10.1007/978-3-319-25474-6_7. PubMed PMID: 27080646. Fallon JB, Irving S, Pannu SS, Tooker AC, Wise AK, Shepherd RK, Irvine DR. Second spatial derivative analysis of cortical surface potentials recorded in cat primary auditory cortex using thin film surface arrays: Comparisons with multi-unit data. J Neurosci Methods. 2016 Apr 6;267:14-20. doi: 10.1016/j.jneumeth.2016.04.004. [Epub ahead of print] PubMed PMID: 27060384. Beck RM, Grasel SS, Ramos HF, Almeida ER, Tsuji RK, Bento RF, Brito RV, Are auditory steady-state responses a good tool prior to pediatric cochlear implantation?, Int J Pediatr Otorhinolaryngol. 2015, 79(8):1257-62 Ramos BF, Tsuji RK, Bento RF, Goffi-Gomez MV, Ramos HF, Samuel PA, Brito R, Hearing preservation using topical dexamethasone alone and associated with hyaluronic acid in cochlear implantation, Acta Oto-Laryngol. 2015, 135(5):473-7 Ramos HF, Grasel SS, Beck RM, Takahashi-Ramos MT, Ramos BF, de Almeida ER, Bento RF, de Brito Neto R., Evaluation of residual hearing in cochlear implants candidates using auditory steady-state response. Acta Oto-Laryngol. 2015, 135(3):246-53 Bittencourt, AG; Burke, PR; Jardim, IS; Brito, R; Tsuji, RK; Fonseca, ACO, Implantable and semi-implantable hearing aids: a review of history, indications, and surgery, Int. Arch. Otorhinolaryngol. 2014, 18(3):303-310 Bento, RF ; Monteiro, TA; Bittencourt, AG; Goffi-Gomez, MVS; Brito Neto, RV, Retrolabyrinthine approach for cochlear nerve preservation in neurofibromatosis type 2 and simultaneous cochlear implantation. International Archives Of Otorhinolaryngology, 2013, 17(3):351-355 Bento, RF; Goffi-Gomez, MVS; Tsuji, RK; Fonseca, ACO ; Ikari, LS; Brito Neto, RV, Speech perception performance of double array multichannel cochlear implant users with standard and duplicated maps in each of the arrays, Otology & Neurotology, 2013, 34(2):245-250 Bittencourt, AG; Tsuji, RK; Tempestini, JPR; Jacomo, AL; Bento, RF; Brito Neto, RV, Cochlear implantation through the middle cranial fossa: a novel approach to access the basal turn of the cochlea, Brazilian Journal Of Otorhinolaryngology, 2013, 79(2):158-162 Brito Neto, RV; Bittencourt, AG; Goffi-Gomez, MVS; Magalhães, AT; Samuel, P; Tsuji, RK; Bento, RF, Cochlear implants and bacterial meningitis: a speech recognition study in paired samples, International Archives Of Otorhinolaryngology, 2013, 17(1):57-61 Brito Neto, RV; Bittencourt, AG; Tsuji, RK; Magnan, J; Bento, RF, Cochlear implantation through the middle fossa: an anatomic study for a novel technique, Acta Oto-Laryngologica, 2013, 133(9):905-909 Magalhães, ATM; Goffi-Gomez, MVS; Hoshino, AC; Tsuji, RK; Bento, RF; Brito Neto, RV, Converted and upgraded maps programmed in the newer speech processor for the first generation of multichannel cochlear implant, Otology & Neurotology, 2013, 34(7):1193-1200 Magalhães, ATM; Samuel, PA; Goffi-Gomez, MVS; Tsuji, RK; Brito Neto, RV; Bento, RF, Audiological outcomes of cochlear implantation in waardenburg syndrome, International Archives Of Otorhinolaryngology, 2013, 17(3):285-290 Bento, RF; Kiesewetter, A; Ikari, LS; Brito Neto, RV, Bone-anchored hearing aid (baha): indications, functional results, and comparison with reconstructive surgery of the ear, International Archives of Otorhinolaryngology, 2012, 16(3):400-405. Bento, RF; Monteiro, TA; Tsuji, RK; Gomez, MQT; Pinna, MH; Goffi-Gomez, MVS; Brito Neto, RV, Retrolabyrinthine approach for surgical placement of auditory brainstem implants in children, Acta Oto-laryngologica, 2012, 132(5): 462–466 Bittencourt, AG; Ikari, LS; Torre, AAGD; Bento, RF; Tsuji, RK; Brito Neto, RV, Post-Lingual Deafness: Benefits Of Cochlear Implants VS. Conventional Hearing Aids, Brazilian Journal of Otorhinolaryngology, 2012, 78(2):124-127 Bittencourt, AG; Torre, AAGD; Bento, RF; Tsuji, RK; Brito Neto, RV, Prelingual deafness: benefits from cochlear implants versus conventional hearing aids, International Archives of Otorhinolaryngology, 2012, 16(3):387-390. Brito Neto, RV; Monteiro, TA; Leal, AF; Tsuji, RK; Pinna, MH; Bento, RF, Surgical complications in 550 consecutive cochlear implantation, Brazilian Journal of Otorhinolaryngology, 2012, 78(3):80-85. Goffi-Gomez, MVS; Magalhães, ATM; Brito Neto, RV; Tsuji, RK;Gomes, MQT; Bento, RF, Auditory brainstem implant outcomes and map parameters: report of experiences in adults and children, International Journal of Pediatric Otorhinolaryngology, 2012, 76(2) , 257-264 Hyppolito, MA; Bento, RF, Directions of the bilateral cochlear implant in brazil, Brazilian Journal of Otorhinolaryngology, 2012, 78(1):2-3 Souza IP, de Brito R, Bento RF, Gomez MV, Tsuji RK, Hausen-Pinna M, Speech perception in adolescents with pre-lingual hearing impairment with cochlear implants, Brazilian Journal of Otorhinolaryngology, 2011, 77(2):153-157 Kraus Em, Shohet JA, Catalano PJ. Envoy Esteem Tottally Implantable Hearing System: phase 2 trial. Otolaryngology Head Neck Surg. 2011:145:100-9 Todt I, Rademacher G, Wagner F, Schedlbauer E, Wagner J Basta D Ernst A Magnetic resonance imaging safety of yhe floating mass tranducer. Otol Neurotol 2010:31:1435-40. Lefebvre PP, Martin C, Dubreuil C, Decat M, Yasbeck A Kasic J, et al. A pilot study of the safety and performance of the Otologics fully implantable hearing aids device: Transducing sounds via the round window membrane to the inner ear. Audiology & Neurotology 2009, 14:172-89. Barbara M, Manni V, Monini S.earing loss. Totally implantable middle ear device for rehabilitation of sensorineural hearing loss: preliminary experience with the Esteem, Envoy.Acta Otolaryngol. 2009 Apr;129(4):429-32. Linstrom CJ, Silverman CA, Yu GP. Efficacy of the Bone-anchored hearing aid for single-sided deafness. The Laryngoscope 2009, 119: 713-20. Mc Dermott AL, Williams J, Kuo M, Reid A, Proops D. The Birmingham Pediatric Bone-anchored Hearing Aid Program: A 15- year Experience. Otol and Neurotol 2009, 30:178-83. Español CC, Perez CM, Macias AR. Mecanismo de funcionamiento de los implantes de oído médio. Acta Otorrinolaringol Esp 2008, Supl 1, 7-9. Bento RF, Tsuji RK, Brito RV, Jurado PJ. Uso do BAHA na Reabilitação Auditiva de Pacientes com Atresia de Meato Acústico Externo. Arquivos Internacionais de Otorrinolaringologia 2008; 12(1). Colletti V., Soli S., Carner M., Colletti L., Treatment of mixed hearing losses via implantation of a vibratory transducer on the round window. Int. J. Aud. 2006 45:600-608. Chen DA, Backous DD, Arriaga MA, Garvin R, Kobylek D, Littman T, Walgren S, Lura, D. Phase I clinical trial results of the envoy system: A totally implantable middle ear device for sensorineural hearing loss. Otolaryngology - Head and Neck Surgery 2004;131(6):904-916. Luetje C.M., Brackman D., Balkany T.J., Maw J., Baker R.S., Kelsall D., Backous D., Miyamoto R., Parisier S., Arts A., Phase III clinical trial results with the Vibrant Soundbridge implantable middle ear hearing device: a prospective controlled multicenter study. Otolaryngol. Head Neck Surg. 2002, 126(2):97-107.

Bibliography:

Bibliography: Hoshino ACH, Goffi-Gomez MVS, Sierra PAS, Agrawal S, Rodriguez C, Carvalho ACM, Tsuji RK. Can the use of the CROS system provide head shadow effect contribution to unilateral Cochlear Implant Users? Codas. 2022 Apr 1;34(5):e20210071. doi: 10.1590/2317-1782/20212021071. PMID: 35385028; PMCID: PMC9886180. Magalhães ATM, Carvalho A, Tsuji RK, Bento RF, Goffi-Gomez MVS. Balancing the Loudness in Speech Processors and Contralateral Hearing Aids in Users of Unilateral Cochlear Implants. Int Arch Otorhinolaryngol. 2021 Apr;25(2):e235-e241. doi: 10.1055/s-0040-1712482. Epub 2020 Jun 23. PMID: 33968226; PMCID: PMC8096504. Fernandes NF, de Queiroz Teles Gomes M, Tsuji RK, Bento RF, Goffi-Gomez MVS. Auditory and language skills in children with auditory brainstem implants. Int J Pediatr Otorhinolaryngol. 2020 May;132:110010. doi: 10.1016/j.ijporl.2020.110010. Epub 2020 Mar 16. PMID: 3223465 Bento RF, Tsuji RK, Fonseca AC, Alves RD. Use of an Osteoplastic Flap for the Prevention of Mastoidectomy Retroauricular Defects. Int Arch Otorhinolaryngol. 2017 Apr;21(2):151-155. doi: 10.1055/s-0036-1584266. Epub 2016 May 30. PMID: 28382122; PMCID: PMC5375703. Silva LAF, Couto MIV, Magliaro FCL, Tsuji RK, Bento RF, de Carvalho ACM,Matas CG. Correction: Cortical maturation in children with cochlear implants: Correlation between electrophysiological and behavioral measurement. PLoS One. 2017 Jun 27;12(6):e0178341. doi: 10.1371/journal.pone.0178341. Erratum for: PLoS One. 2017 Feb 2;12 (2):e0171177. PMID: 28654645; PMCID: PMC5486965. El-Anwar MW, ElAassar AS, Foad YA. Non-mastoidectomy Cochlear Implant Approaches: A Literature Review. Int Arch Otorhinolaryngol. 2016 Apr;20(2):180-4. doi: 10.1055/s-0035-1558871. Epub 2015 Jul 23. Review. PubMed PMID: 27096025; PubMed Central PMCID: PMC4835324. Marimuthu V, Swanson BA, Mannell R. Cochlear Implant Rate Pitch and Melody Perception as a Function of Place and Number of Electrodes. Trends Hear. 2016 Apr 19;20. pii: 2331216516643085. doi: 10.1177/2331216516643085. PubMed PMID: 27094028. Macherey O, Cazals Y. Effects of Pulse Shape and Polarity on Sensitivity to Cochlear Implant Stimulation: A Chronic Study in Guinea Pigs. Adv Exp Med Biol. 2016;894:133-42. doi: 10.1007/978-3-319-25474-6_15. PubMed PMID: 27080654. Hu H, Kollmeier B, Dietz M. Suitability of the Binaural Interaction Component for Interaural Electrode Pairing of Bilateral Cochlear Implants. Adv Exp Med Biol. 2016;894:57-64. doi: 10.1007/978-3-319-25474-6_7. PubMed PMID: 27080646. Fallon JB, Irving S, Pannu SS, Tooker AC, Wise AK, Shepherd RK, Irvine DR. Second spatial derivative analysis of cortical surface potentials recorded in cat primary auditory cortex using thin film surface arrays: Comparisons with multi-unit data. J Neurosci Methods. 2016 Apr 6;267:14-20. doi: 10.1016/j.jneumeth.2016.04.004. [Epub ahead of print] PubMed PMID: 27060384. DiGiovanna J, Nguyen TA, Guinand N, Pérez-Fornos A, Micera S. Neural Network Model of Vestibular Nuclei Reaction to Onset of Vestibular Prosthetic Stimulation. Front Bioeng Biotechnol. 2016 Apr 20;4:34. doi: 10.3389/fbioe.2016.00034. eCollection 2016. PubMed PMID: 27148528; PubMed Central PMCID: PMC4837148. Hanekom T, Hanekom JJ. Three-dimensional models of cochlear implants: A review of their development and how they could support management and maintenance of cochlear implant performance. Network. 2016 May 2:1-40. [Epub ahead of print] PubMed PMID: 27136100. Kalkman RK, Briaire JJ, Frijns JH. Stimulation strategies and electrode design in computational models of the electrically stimulated cochlea: An overview of existing literature. Network. 2016 May 2:1-28. [Epub ahead of print] PubMed PMID: 27135951. Ma N, Morris S, Kitterick PT. Benefits to Speech Perception in Noise From the Binaural Integration of Electric and Acoustic Signals in Simulated Unilateral Deafness. Ear Hear. 2016 May-Jun;37(3):248-59. doi: 10.1097/AUD.0000000000000252. PubMed PMID: 27116049; PubMed Central PMCID: PMC4847646. Astolfi L, Simoni E, Giarbini N, Giordano P, Pannella M, Hatzopoulos S, Martini A. Cochlear implant and inflammation reaction: Safety study of a new steroid-eluting electrode. Hear Res. 2016 Apr 21;336:44-52. doi: 10.1016/j.heares.2016.04.005. [Epub ahead of print] PubMed PMID: 27109196. Beck RM, Grasel SS, Ramos HF, Almeida ER, Tsuji RK, Bento RF, Brito RV, Are auditory steady-state responses a good tool prior to pediatric cochlear implantation?, Int J Pediatr Otorhinolaryngol. 2015, 79(8):1257-62 Ramos BF, Tsuji RK, Bento RF, Goffi-Gomez MV, Ramos HF, Samuel PA, Brito R, Hearing preservation using topical dexamethasone alone and associated with hyaluronic acid in cochlear implantation, Acta Oto-Laryngol. 2015, 135(5):473-7 Ramos HF, Grasel SS, Beck RM, Takahashi-Ramos MT, Ramos BF, de Almeida ER, Bento RF, de Brito Neto R., Evaluation of residual hearing in cochlear implants candidates using auditory steady-state response. Acta Oto-Laryngol. 2015, 135(3):246-53 Bittencourt, AG; Burke, PR; Jardim, IS; Brito, R; Tsuji, RK; Fonseca, ACO, Implantable and semi-implantable hearing aids: a review of history, indications, and surgery, Int. Arch. Otorhinolaryngol. 2014, 18(3):303-310 Magalhães, ATM; Goffi-Gomez, MVS; Hoshino, AC; Tsuji, RK; Bento, RF; Brito Neto, RV, Converted and upgraded maps programmed in the newer speech processor for the first generation of multichannel cochlear implant, Otology & Neurotology, 2013, 34(7):1193-1200 Magalhães, ATM; Samuel, PA; Goffi-Gomez, MVS; Tsuji, RK; Brito Neto, RV; Bento, RF, Audiological outcomes of cochlear implantation in waardenburg syndrome, International Archives Of Otorhinolaryngology, 2013, 17(3):285-290 Bento, RF ; Monteiro, TA; Bittencourt, AG; Goffi-Gomez, MVS; Brito Neto, RV, Retrolabyrinthine approach for cochlear nerve preservation in neurofibromatosis type 2 and simultaneous cochlear implantation. International Archives Of Otorhinolaryngology, 2013, 17(3):351-355 Bento, RF; Goffi-Gomez, MVS; Tsuji, RK; Fonseca, ACO ; Ikari, LS; Brito Neto, RV, Speech perception performance of double array multichannel cochlear implant users with standard and duplicated maps in each of the arrays, Otology & Neurotology, 2013, 34(2):245-250 Bittencourt, AG; Tsuji, RK; Tempestini, JPR; Jacomo, AL; Bento, RF; Brito Neto, RV, Cochlear implantation through the middle cranial fossa: a novel approach to access the basal turn of the cochlea, Brazilian Journal Of Otorhinolaryngology, 2013, 79(2):158-162 Brito Neto, RV; Bittencourt, AG; Goffi-Gomez, MVS; Magalhães, AT; Samuel, P; Tsuji, RK; Bento, RF, Cochlear implants and bacterial meningitis: a speech recognition study in paired samples, International Archives Of Otorhinolaryngology, 2013, 17(1):57-61 Brito Neto, RV; Bittencourt, AG; Tsuji, RK; Magnan, J; Bento, RF, Cochlear implantation through the middle fossa: an anatomic study for a novel technique, Acta Oto-Laryngologica, 2013, 133(9):905-909 Bento, RF; Kiesewetter, A; Ikari, LS; Brito Neto, RV, Bone-anchored hearing aid (baha): indications, functional results, and comparison with reconstructive surgery of the ear, International Archives of Otorhinolaryngology, 2012, 16(3):400-405. Bento, RF; Monteiro, TA; Tsuji, RK; Gomez, MQT; Pinna, MH; Goffi-Gomez, MVS; Brito Neto, RV, Retrolabyrinthine approach for surgical placement of auditory brainstem implants in children, Acta Oto-laryngologica, 2012, 132(5): 462–466 Bittencourt, AG; Ikari, LS; Torre, AAGD; Bento, RF; Tsuji, RK; Brito Neto, RV, Post-Lingual Deafness: Benefits Of Cochlear Implants VS. Conventional Hearing Aids, Brazilian Journal of Otorhinolaryngology, 2012, 78(2):124-127 Bittencourt, AG; Torre, AAGD; Bento, RF; Tsuji, RK; Brito Neto, RV, Prelingual deafness: benefits from cochlear implants versus conventional hearing aids, International Archives of Otorhinolaryngology, 2012, 16(3):387-390. Brito Neto, RV; Monteiro, TA; Leal, AF; Tsuji, RK; Pinna, MH; Bento, RF, Surgical complications in 550 consecutive cochlear implantation, Brazilian Journal of Otorhinolaryngology, 2012, 78(3):80-85. Goffi-Gomez, MVS; Magalhães, ATM; Brito Neto, RV; Tsuji, RK;Gomes, MQT; Bento, RF, Auditory brainstem implant outcomes and map parameters: report of experiences in adults and children, International Journal of Pediatric Otorhinolaryngology, 2012, 76(2) , 257-264 Hyppolito, MA; Bento, RF, Directions of the bilateral cochlear implant in brazil, Brazilian Journal of Otorhinolaryngology, 2012, 78(1):2-3 Kraus Em, Shohet JA, Catalano PJ. Envoy Esteem Tottally Implantable Hearing System: phase 2 trial. Otolaryngology Head Neck Surg. 2011:145:100-9 Souza IP, de Brito R, Bento RF, Gomez MV, Tsuji RK, Hausen-Pinna M, Speech perception in adolescents with pre-lingual hearing impairment with cochlear implants, Brazilian Journal of Otorhinolaryngology, 2011, 77(2):153-157 Todt I, Rademacher G, Wagner F, Schedlbauer E, Wagner J Basta D Ernst A Magnetic resonance imaging safety of yhe floating mass tranducer. Otol Neurotol 2010:31:1435-40. Barbara M, Manni V, Monini S.earing loss. Totally implantable middle ear device for rehabilitation of sensorineural hearing loss: preliminary experience with the Esteem, Envoy.Acta Otolaryngol. 2009 Apr;129(4):429-32. Lefebvre PP, Martin C, Dubreuil C, Decat M, Yasbeck A Kasic J, et al. A pilot study of the safety and performance of the Otologics fully implantable hearing aids device: Transducing sounds via the round window membrane to the inner ear. Audiology & Neurotology 2009, 14:172-89. Linstrom CJ, Silverman CA, Yu GP. Efficacy of the Bone-anchored hearing aid for single-sided deafness. The Laryngoscope 2009, 119: 713-20. Mc Dermott AL, Williams J, Kuo M, Reid A, Proops D. The Birmingham Pediatric Bone-anchored Hearing Aid Program: A 15- year Experience. Otol and Neurotol 2009, 30:178-83. Español CC, Perez CM, Macias AR. Mecanismo de funcionamiento de los implantes de oído médio. Acta Otorrinolaringol Esp 2008, Supl 1, 7-9. Bento RF, Tsuji RK, Brito RV, Jurado PJ. 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Tipo de oferecimento da disciplina:

Presencial

Class type:

Presencial