Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva

Detalhes bibliográficos
Autor(a) principal: Carmo, Michele Picanço do
Data de Publicação: 2009
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Biblioteca Digital de Teses e Dissertações da PUC_SP
Texto Completo: https://tede2.pucsp.br/handle/handle/12247
Resumo: Introduction: Tympanometry is effective in early identification of external and middle ear diseases and its use is very established for children and adults. However for newborns and infants, some controversies remain. Many studies recommend 1000Hz tympanometry probe for infants under six months old because it shows higher sensibility and accuracy to identify correctly middle ear diseases in this population. Goal: The goal of the present study was to analyze results of tympanometry with 226Hz and 1000Hz probe tone in infants under six months old. Method: 142 infants (245 ears), 70 girls and 72 boys, age range between 12 and 180 days old with risk indicators associated with hearing loss. In the hearing screening were accomplished the following exams: Transient Otoacoustic Emissions, and Automatic Auditory Brainstem Response in 35dBNA. Tympanometric curves were classified in A, Flat, C, Double Peak, Asymmetric, Inverted, and also as normal and abnormal. Tympanometry peak pressure was analyzed. Results: otoacoustic emissions were present in 211 ears (group 1) and absent in 34 ears (group 2). Results with 226Hz probe tone revealed: in the group 1- 130 (61,61%) tympanograms type A, 67 (31,75%) double peak, 12 (5,69%) flat tympanograms and 2 type C (0,95%), in the group 2- it was found 19 curves type A (55,88%), 6 curves type double peak (26,47%), 4 flat tympanograms (11,76%) and 2 type C (5,88%). The 1000Hz probe tone revealed: in the group 1- 83 curves type A (76,85%), 7 curves were asymmetric (6,48%), 4 curves with double peak (3,70%), 10 flat tympanograms (9,26%), 3 type C (2,78%) and 1 inverted curve (0,93%), in the group 2- 2 curves type A (14,29%), 2 asymmetric tympanograms, 6 flat tympanograms (42,86%), 2 type C (14,29%) and 2 inverted tympanograms (14,29%). For the curves classification in normal or abnormal, with 226Hz probe tone, for group 1, 130 ears (90,28%) were normal and 14 (9,72%) were abnormal. In the group 2, 19 ears (76%) continued normal and only 6 (24%) were abnormal. With 1000Hz probe, in group 1, 162 ears (83,94%) were normal and 31 (16,06%) abnormal. In group 2, only 7 ears (25,93%) were normal and 20 abnormal (74,07%). Tympanometry peak pressure obtained with 1000Hz presented higher values and greater variability than 226Hz. It did not demonstrate significant difference in results between right and left ears, neither with 226Hz nor with 1000Hz. Although alterations in pressure can affect transient otoacoustic emissions results, some ears with negative pressures (smaller than -100daPa) were present in otoacoustic emissions. Conclusion: The 1000Hz probe tone presented larger sensibility to identify correctly abnormal tympanometrics curves, in the group with present otoacoustic emissions, as well as with no emissions; Unlike 1000Hz, in infants with no otoacoustic emissions, prevailed abnormal tympanometry. From this research, it is possible to conclude that 1000Hz probe tone is more adequate to evaluate newborns and infants under six months
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spelling Lewis, Doris Ruthyhttp://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4218712Z2Carmo, Michele Picanço do2016-04-27T18:12:42Z2009-09-232009-07-31Carmo, Michele Picanço do. Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva. 2009. 98 f. Dissertação (Mestrado em Fonoaudiologia) - Pontifícia Universidade Católica de São Paulo, São Paulo, 2009.https://tede2.pucsp.br/handle/handle/12247Introduction: Tympanometry is effective in early identification of external and middle ear diseases and its use is very established for children and adults. However for newborns and infants, some controversies remain. Many studies recommend 1000Hz tympanometry probe for infants under six months old because it shows higher sensibility and accuracy to identify correctly middle ear diseases in this population. Goal: The goal of the present study was to analyze results of tympanometry with 226Hz and 1000Hz probe tone in infants under six months old. Method: 142 infants (245 ears), 70 girls and 72 boys, age range between 12 and 180 days old with risk indicators associated with hearing loss. In the hearing screening were accomplished the following exams: Transient Otoacoustic Emissions, and Automatic Auditory Brainstem Response in 35dBNA. Tympanometric curves were classified in A, Flat, C, Double Peak, Asymmetric, Inverted, and also as normal and abnormal. Tympanometry peak pressure was analyzed. Results: otoacoustic emissions were present in 211 ears (group 1) and absent in 34 ears (group 2). Results with 226Hz probe tone revealed: in the group 1- 130 (61,61%) tympanograms type A, 67 (31,75%) double peak, 12 (5,69%) flat tympanograms and 2 type C (0,95%), in the group 2- it was found 19 curves type A (55,88%), 6 curves type double peak (26,47%), 4 flat tympanograms (11,76%) and 2 type C (5,88%). The 1000Hz probe tone revealed: in the group 1- 83 curves type A (76,85%), 7 curves were asymmetric (6,48%), 4 curves with double peak (3,70%), 10 flat tympanograms (9,26%), 3 type C (2,78%) and 1 inverted curve (0,93%), in the group 2- 2 curves type A (14,29%), 2 asymmetric tympanograms, 6 flat tympanograms (42,86%), 2 type C (14,29%) and 2 inverted tympanograms (14,29%). For the curves classification in normal or abnormal, with 226Hz probe tone, for group 1, 130 ears (90,28%) were normal and 14 (9,72%) were abnormal. In the group 2, 19 ears (76%) continued normal and only 6 (24%) were abnormal. With 1000Hz probe, in group 1, 162 ears (83,94%) were normal and 31 (16,06%) abnormal. In group 2, only 7 ears (25,93%) were normal and 20 abnormal (74,07%). Tympanometry peak pressure obtained with 1000Hz presented higher values and greater variability than 226Hz. It did not demonstrate significant difference in results between right and left ears, neither with 226Hz nor with 1000Hz. Although alterations in pressure can affect transient otoacoustic emissions results, some ears with negative pressures (smaller than -100daPa) were present in otoacoustic emissions. Conclusion: The 1000Hz probe tone presented larger sensibility to identify correctly abnormal tympanometrics curves, in the group with present otoacoustic emissions, as well as with no emissions; Unlike 1000Hz, in infants with no otoacoustic emissions, prevailed abnormal tympanometry. From this research, it is possible to conclude that 1000Hz probe tone is more adequate to evaluate newborns and infants under six monthsIntrodução: A timpanometria é eficaz na identificação precoce de alterações da orelha externa e média e seu uso está bem estabelecido para crianças e adultos. Porém para neonatos e lactentes ainda há controvérsias. A literatura recomenda para lactentes abaixo de seis meses que a timpanometria seja realizada com tom teste de 1000Hz, que tem ter maior sensibilidade para identificar corretamente as disfunções de orelha média nessa população. Objetivo: Analisar os resultados da timpanometria com tom teste de 226Hz e 1000Hz em lactentes até seis meses de idade. Metodologia: Participaram do estudo 142 lactentes (245 orelhas), 70 do sexo feminino e 72 do sexo masculino, com idade entre 12 e 180 dias e indicadores de risco para deficiência auditiva. Na triagem auditiva foram realizadas as Emissões Otoacústicas por Estímulo Transiente (EOAT) e Potencial Evocado Auditivo de Tronco Encefálico Automático (PEATE-A) a 35dBNA. As curvas timpanométricas foram classificadas em tipos A, Plana, C, DP (Duplo Pico), ASS (Assimétrica) e I (Invertida), e também como normais e alteradas. Foi analisada também a pressão no pico timpanométrico (PPT). Resultados: As EOAT estavam presentes em 211 orelhas (grupo 1) e ausentes em 34 orelhas (grupo 2). Com tom teste de 226Hz foram encontradas as seguintes curvas: no grupo 1 - 130 curvas tipo A (61,61%), 67 tipo DP (31,75%), 12 curvas Planas (5,69%) e 2 curvas tipo C (0,95%); no grupo 2 foram encontradas 19 curvas tipo A (55,88%), 6 tipo DP (26,47%), 4 Planas (11,76%) e 2 tipo C (5,88%). Já com tom teste de 1000Hz foram encontradas: no grupo 1 - 83 curvas tipo A (76,85%), 7 tipo ASS (6,48), 4 tipo DP (3,70%), 10 Planas (9,26%), 3 tipo C (2,78%) e 1 tipo I (0,93%); no grupo 2 - 2 curvas tipo A (14,29%), 2 tipo ASS (14,29), 6 Planas (42,86%), 2 tipo C (14,29%) e 2 tipo I (14,29%). Quanto à classificação das timpanometrias em normais e alteradas, verificou-se que, com tom teste de 226Hz, no grupo 1, 130 orelhas (90,28%) estavam normais e 14 (9,72%) alteradas. No grupo 2, 19 (76%) orelhas continuaram normais e apenas 6 (24%) alteradas. Já com tom de 1000Hz, no grupo 1, 162 orelhas (83,94%) estavam normais e 31 (16,06%) alteradas. No grupo 2, apenas 7 (25,93%) orelhas estavam normais e 20 (74,07%) alteradas. A PPT obtida com tom de 1000Hz, apresentou maiores valores e maior variabilidade quando comparadas às medidas realizadas em 226Hz. Não houve diferença estatisticamente significante entre os resultados das orelhas direita e esquerda nem com 226Hz, nem com 1000Hz. Embora as alterações na pressão possam alterar o resultado das EOAT, algumas orelhas com pressão negativa (menor que -100daPa) apresentaram respostas presentes nas EOAT. Conclusão: Na análise dos resultados da timpanometria de acordo com os resultados das EOAT, o tom de 1000Hz apresentou maior sensibilidade para identificar corretamente curvas timpanométricas alteradas, enquanto que com 226Hz, tanto no grupo com EOAT presentes quando no grupo com EOAT ausentes, houve predomínio de curvas normais. No tom de 1000Hz, ao contrário, nas crianças com EOAT ausentes, prevaleceram curvas alteradas. Com esses resultados é possível concluir que o tom teste de 1000Hz é o mais adequado para avaliar neonatos e lactentes até 6 meses de idadeCoordenação de Aperfeiçoamento de Pessoal de Nível Superiorapplication/pdfhttp://tede2.pucsp.br/tede/retrieve/25193/Michele%20Picanco%20do%20Carmo.pdf.jpgporPontifícia Universidade Católica de São PauloPrograma de Estudos Pós-Graduados em FonoaudiologiaPUC-SPBRFonoaudiologiaTimpanometriaAudicaoEmissoes autoacusticas espontaneasTestes de impedancia acusticaHearingTympanometryOtoacoustic emissionsCNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIAImitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditivainfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações da PUC_SPinstname:Pontifícia Universidade Católica de São Paulo (PUC-SP)instacron:PUC_SPTEXTMichele Picanco do Carmo.pdf.txtMichele Picanco do Carmo.pdf.txtExtracted texttext/plain141122https://repositorio.pucsp.br/xmlui/bitstream/handle/12247/3/Michele%20Picanco%20do%20Carmo.pdf.txt0862e5aae5ffae76e9da5361f2ee7d34MD53ORIGINALMichele Picanco do Carmo.pdfapplication/pdf2131421https://repositorio.pucsp.br/xmlui/bitstream/handle/12247/1/Michele%20Picanco%20do%20Carmo.pdfe69d1104314f72e325ca465d293a8f91MD51THUMBNAILMichele Picanco do Carmo.pdf.jpgMichele Picanco do Carmo.pdf.jpgGenerated Thumbnailimage/jpeg1943https://repositorio.pucsp.br/xmlui/bitstream/handle/12247/2/Michele%20Picanco%20do%20Carmo.pdf.jpgcc73c4c239a4c332d642ba1e7c7a9fb2MD52handle/122472022-04-27 18:47:51.338oai:repositorio.pucsp.br:handle/12247Biblioteca Digital de Teses e Dissertaçõeshttps://sapientia.pucsp.br/https://sapientia.pucsp.br/oai/requestbngkatende@pucsp.br||rapassi@pucsp.bropendoar:2022-04-27T21:47:51Biblioteca Digital de Teses e Dissertações da PUC_SP - Pontifícia Universidade Católica de São Paulo (PUC-SP)false
dc.title.por.fl_str_mv Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
title Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
spellingShingle Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
Carmo, Michele Picanço do
Timpanometria
Audicao
Emissoes autoacusticas espontaneas
Testes de impedancia acustica
Hearing
Tympanometry
Otoacoustic emissions
CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA
title_short Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
title_full Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
title_fullStr Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
title_full_unstemmed Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
title_sort Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva
author Carmo, Michele Picanço do
author_facet Carmo, Michele Picanço do
author_role author
dc.contributor.advisor1.fl_str_mv Lewis, Doris Ruthy
dc.contributor.authorLattes.fl_str_mv http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4218712Z2
dc.contributor.author.fl_str_mv Carmo, Michele Picanço do
contributor_str_mv Lewis, Doris Ruthy
dc.subject.por.fl_str_mv Timpanometria
Audicao
Emissoes autoacusticas espontaneas
Testes de impedancia acustica
topic Timpanometria
Audicao
Emissoes autoacusticas espontaneas
Testes de impedancia acustica
Hearing
Tympanometry
Otoacoustic emissions
CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA
dc.subject.eng.fl_str_mv Hearing
Tympanometry
Otoacoustic emissions
dc.subject.cnpq.fl_str_mv CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA
description Introduction: Tympanometry is effective in early identification of external and middle ear diseases and its use is very established for children and adults. However for newborns and infants, some controversies remain. Many studies recommend 1000Hz tympanometry probe for infants under six months old because it shows higher sensibility and accuracy to identify correctly middle ear diseases in this population. Goal: The goal of the present study was to analyze results of tympanometry with 226Hz and 1000Hz probe tone in infants under six months old. Method: 142 infants (245 ears), 70 girls and 72 boys, age range between 12 and 180 days old with risk indicators associated with hearing loss. In the hearing screening were accomplished the following exams: Transient Otoacoustic Emissions, and Automatic Auditory Brainstem Response in 35dBNA. Tympanometric curves were classified in A, Flat, C, Double Peak, Asymmetric, Inverted, and also as normal and abnormal. Tympanometry peak pressure was analyzed. Results: otoacoustic emissions were present in 211 ears (group 1) and absent in 34 ears (group 2). Results with 226Hz probe tone revealed: in the group 1- 130 (61,61%) tympanograms type A, 67 (31,75%) double peak, 12 (5,69%) flat tympanograms and 2 type C (0,95%), in the group 2- it was found 19 curves type A (55,88%), 6 curves type double peak (26,47%), 4 flat tympanograms (11,76%) and 2 type C (5,88%). The 1000Hz probe tone revealed: in the group 1- 83 curves type A (76,85%), 7 curves were asymmetric (6,48%), 4 curves with double peak (3,70%), 10 flat tympanograms (9,26%), 3 type C (2,78%) and 1 inverted curve (0,93%), in the group 2- 2 curves type A (14,29%), 2 asymmetric tympanograms, 6 flat tympanograms (42,86%), 2 type C (14,29%) and 2 inverted tympanograms (14,29%). For the curves classification in normal or abnormal, with 226Hz probe tone, for group 1, 130 ears (90,28%) were normal and 14 (9,72%) were abnormal. In the group 2, 19 ears (76%) continued normal and only 6 (24%) were abnormal. With 1000Hz probe, in group 1, 162 ears (83,94%) were normal and 31 (16,06%) abnormal. In group 2, only 7 ears (25,93%) were normal and 20 abnormal (74,07%). Tympanometry peak pressure obtained with 1000Hz presented higher values and greater variability than 226Hz. It did not demonstrate significant difference in results between right and left ears, neither with 226Hz nor with 1000Hz. Although alterations in pressure can affect transient otoacoustic emissions results, some ears with negative pressures (smaller than -100daPa) were present in otoacoustic emissions. Conclusion: The 1000Hz probe tone presented larger sensibility to identify correctly abnormal tympanometrics curves, in the group with present otoacoustic emissions, as well as with no emissions; Unlike 1000Hz, in infants with no otoacoustic emissions, prevailed abnormal tympanometry. From this research, it is possible to conclude that 1000Hz probe tone is more adequate to evaluate newborns and infants under six months
publishDate 2009
dc.date.available.fl_str_mv 2009-09-23
dc.date.issued.fl_str_mv 2009-07-31
dc.date.accessioned.fl_str_mv 2016-04-27T18:12:42Z
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dc.identifier.citation.fl_str_mv Carmo, Michele Picanço do. Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva. 2009. 98 f. Dissertação (Mestrado em Fonoaudiologia) - Pontifícia Universidade Católica de São Paulo, São Paulo, 2009.
dc.identifier.uri.fl_str_mv https://tede2.pucsp.br/handle/handle/12247
identifier_str_mv Carmo, Michele Picanço do. Imitanciometria com sonda de baixa e alta frequência em lactentes com indicadores de risco para a deficiência auditiva. 2009. 98 f. Dissertação (Mestrado em Fonoaudiologia) - Pontifícia Universidade Católica de São Paulo, São Paulo, 2009.
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dc.publisher.country.fl_str_mv BR
dc.publisher.department.fl_str_mv Fonoaudiologia
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