Achados timpanométricos em neonatos:medidas e interpretações
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2005 |
| 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/11851 |
Resumo: | Introduction. Early identification and diagnosis of hearing impairment in newborns aim at establishing adequate amplification and intervention, as early as possible, in order to reduce negative consequences in language, individual and social development of the child. Tympanometry is part of a test battery for the diagnosis of hearing losses and is used to differentiate between conductive and sensorineural hearing losses. Before six months of age the results obtained using a probe tone of 226 Hz can be misleading. Therefore many studies have been done assessing the use of a high frequency probe tone of 678 and 1000 Hz aiming at a more valid procedure. Goal. The goal of the present study was to describe and discuss interpretations and measurements obtained in timpanometry of normal hearing neonates, using tone probes of 226, 678 and 1000 Hz. The following aspects were described: tympanometric curve type, Peak Compensated Static Acoustic Admittance (Ytm), Tympanometric Width (TW), Tympanometric Peak Pressure (PPT) and Equivalent Ear Canal Volume (Vea). Method. All subjects had normal otoacoustic emissions and no risk for hearing impairment. The curves were obtained in a quiet room using a middle ear analyzer GSI 33 II with tone probes of 226, 678 and 1000 Hz. All babies were calm or sleeping during the test. Results. 110 neonates were tested with the three tone probes therefore 660 curves were obtained. Age range was 6 to 30 days (58 boys and 52 girls). When a probe tone of 226 Hz was used, single peak curve was observed in 105 (47,7%) ears and double peak was found in 115 (52,3%) ears. Results with a probe tone of 678 Hz, revealed 56 (25,4%) single peak curves, 16 (7,3%) inverted curves (I) and 148 (67,3%) asymmetric (AS). Results with a probe tone of 1000 Hz showed 156 (70,9%) single peak tympanograms, 62 (28,2%) asymmetric and 2 (0,9%) inverted. Among the quantitative measurements analyzed, Vea demonstrated a significant difference in gender with probe tones of 226 Hz. Ytm, was also significantly different by gender with the probe tone of 1000 Hz, larger for the boys. For all the other variables no significant difference was found for ear or gender. When the curves were analyzed using the protocol proposed by Sutton et al (2002), 208 (94,5%) ears were considered normal and 12 (5,5%) abnormal with the probe tone of 678 Hz. For the probe tone of 1000 Hz, 217 (98,6%) ears were considered normal, and just 3 (1,4%) of the tympanograms were classified as abnormal. Conclusion. The tympanometric findings in this study were similar to those described in the literature with prevalence of single peaked curves for the probe tone of 1000 Hz and a similar number of single and double peaked curves with the probe tone of 226 Hz. The quantitative measurements were, in general, in agreement with the literature reviewed. The interpretation of the results with the probe tone of 1000 Hz using the protocol suggested by Sutton et al (2002) was the method that allowed the classification of normal for the greatest percentage of the ears tested suggesting that it can be very useful when neonates are evaluated. Further research with this protocol is suggested. |
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Novaes, Beatriz Cavalcanti de Albuquerque CaiubySilva, Kilza de Arruda Lyra e2016-04-27T18:11:46Z2005-09-232005-08-23Silva, Kilza de Arruda Lyra e. Timpanometry in neonates: Measures and Interpretations. 2005. 90 f. Dissertação (Mestrado em Fonoaudiologia) - Pontifícia Universidade Católica de São Paulo, São Paulo, 2005.https://tede2.pucsp.br/handle/handle/11851Introduction. Early identification and diagnosis of hearing impairment in newborns aim at establishing adequate amplification and intervention, as early as possible, in order to reduce negative consequences in language, individual and social development of the child. Tympanometry is part of a test battery for the diagnosis of hearing losses and is used to differentiate between conductive and sensorineural hearing losses. Before six months of age the results obtained using a probe tone of 226 Hz can be misleading. Therefore many studies have been done assessing the use of a high frequency probe tone of 678 and 1000 Hz aiming at a more valid procedure. Goal. The goal of the present study was to describe and discuss interpretations and measurements obtained in timpanometry of normal hearing neonates, using tone probes of 226, 678 and 1000 Hz. The following aspects were described: tympanometric curve type, Peak Compensated Static Acoustic Admittance (Ytm), Tympanometric Width (TW), Tympanometric Peak Pressure (PPT) and Equivalent Ear Canal Volume (Vea). Method. All subjects had normal otoacoustic emissions and no risk for hearing impairment. The curves were obtained in a quiet room using a middle ear analyzer GSI 33 II with tone probes of 226, 678 and 1000 Hz. All babies were calm or sleeping during the test. Results. 110 neonates were tested with the three tone probes therefore 660 curves were obtained. Age range was 6 to 30 days (58 boys and 52 girls). When a probe tone of 226 Hz was used, single peak curve was observed in 105 (47,7%) ears and double peak was found in 115 (52,3%) ears. Results with a probe tone of 678 Hz, revealed 56 (25,4%) single peak curves, 16 (7,3%) inverted curves (I) and 148 (67,3%) asymmetric (AS). Results with a probe tone of 1000 Hz showed 156 (70,9%) single peak tympanograms, 62 (28,2%) asymmetric and 2 (0,9%) inverted. Among the quantitative measurements analyzed, Vea demonstrated a significant difference in gender with probe tones of 226 Hz. Ytm, was also significantly different by gender with the probe tone of 1000 Hz, larger for the boys. For all the other variables no significant difference was found for ear or gender. When the curves were analyzed using the protocol proposed by Sutton et al (2002), 208 (94,5%) ears were considered normal and 12 (5,5%) abnormal with the probe tone of 678 Hz. For the probe tone of 1000 Hz, 217 (98,6%) ears were considered normal, and just 3 (1,4%) of the tympanograms were classified as abnormal. Conclusion. The tympanometric findings in this study were similar to those described in the literature with prevalence of single peaked curves for the probe tone of 1000 Hz and a similar number of single and double peaked curves with the probe tone of 226 Hz. The quantitative measurements were, in general, in agreement with the literature reviewed. The interpretation of the results with the probe tone of 1000 Hz using the protocol suggested by Sutton et al (2002) was the method that allowed the classification of normal for the greatest percentage of the ears tested suggesting that it can be very useful when neonates are evaluated. Further research with this protocol is suggested.Introdução. A identificação e a caracterização precoce da perda auditiva em neonatos visam estabelecer condições para uma intervenção adequada, tão cedo quanto possível, a fim de reduzir as conseqüências negativas no desenvolvimento pessoal e social da criança. A timpanometria faz parte da bateria de testes do diagnóstico da perda auditiva e é utilizada para avaliação da orelha média, para diferenciar perdas condutivas de neurossensoriais. A timpanometria realizada em neonatos com menos de seis meses, quando executadas com tom sonda de baixa freqüência (226 Hz), pode gerar dúvidas, pois nesse tipo de sonda, neonatos com otite média podem revelar timpanograma aparentemente normal. Com isso, tem-se investigado o uso de tom sonda de alta freqüência (678 e 1000 Hz) em busca de resultados mais confiáveis. Objetivo. Descrever e analisar interpretações de características e medidas obtidas na timpanometria de neonatos ouvintes com sonda de tom prova de 226, 678 e 1000 Hz. São descritos os seguintes aspectos do timpanograma: características da curva timpanométrica, Admitância Acústica Estática de Pico Compensado na Altura da Membrana Timpânica (Ymt), Largura Timpanométrica (LT), Pressão do Pico Timpanométrico (PPT) e Volume Equivalente do Meato Acústico Externo (Vea). Metodologia. Os sujeitos analisados passaram por uma triagem que incluiu anamnese e teste de emissões otoacústicas. Para a realização das timpanometrias foi utilizado o analisador de orelha média GSI-33-II, com tons sonda de 226, 678 e 1000 Hz, em sala silenciosa e com a criança em estado tranqüilo. Resultados. Foram obtidos timpanogramas de 110 neonatos ouvintes com 6 a 30 dias de idade (58 meninos e 52 meninas), perfazendo um total de 660 timpanogramas. No tom sonda de 226 Hz, o tipo de curva pico único (A) apareceu em 105 (47,7%) orelhas e o tipo pico duplo (PD) em 115 (52,3%) orelhas. Os resultados na freqüência de 678 Hz indicaram 56 (25,5%) ocorrências de curva tipo A, 16 (7,3%) do tipo invertida (I) e 148 (67,3%) curvas do tipo assimétrica (AS). Na sonda de 1000 Hz foram registradas 156 (70,9%) curvas do tipo A, 62 (28,2%) do tipo AS e 2 (0,9%) do tipo I. Dentre as variáveis quantitativas analisadas, apenas o Vea apresentou efeito de significância por orelha na sonda de tom prova de 1000 Hz. O Vea apresentou efeito de significância em relação ao gênero nas freqüências de 226 e 1000 Hz. A Ymt, também, apresentou efeito de significância por gênero, na sonda de 1000 Hz, sendo maior nos meninos. Nas demais variáveis não foi encontrado efeito de significância nem por orelha e nem por gênero. Quando interpretados de acordo com o protocolo recomendado por Sutton et al (2002), obteve-se, em 678 Hz, 208 (94,5%) orelhas com resultado normal, enquanto 12 (5,5%) foram interpretadas como anormais. Na sonda de tom prova de 1000 Hz, 217 (98,6%) das orelhas foram normais, e apenas 3 (1,4%) dos timpanogramas foram classificados como anormais. Conclusão. Os achados timpanométricos, tanto em 226 Hz quanto em 1000 Hz, foram compatíveis com os resultados presentes na literatura, que descrevem alta ocorrência de curvas do tipo A em sonda de 1000 Hz e equilíbrio entre os tipos de curva A e PD em sonda de 226 Hz. Os dados registrados para as medidas quantitativas, também, estiveram de acordo com o indicado na literatura. A interpretação das curvas timpanométricas com sonda de 1000 Hz utilizando o protocolo proposto por Sutton et al (2002) foi a que possibilitou a classificação de normal na maior porcentagem das orelhas avaliadas, sugerindo que este pode ser um método de grande utilidade na avaliação de bebês. Recomenda-se que pesquisas futuras com esse protocolo sejam realizadas.Coordenação de Aperfeiçoamento de Pessoal de Nível Superiorapplication/pdfhttp://tede2.pucsp.br/tede/retrieve/24602/Dissertacao_KilzaArruda.pdf.jpgporPontifícia Universidade Católica de São PauloPrograma de Estudos Pós-Graduados em FonoaudiologiaPUC-SPBRFonoaudiologiatimpanometria em neonatossonda de alta freqüênciaTestes de impedância acústicaAudiologiaRecem-nascidoTimpanometry in neonateshigh-frequency probe toneCNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIAAchados timpanométricos em neonatos:medidas e interpretaçõesTimpanometry in neonates: Measures and Interpretationsinfo: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_SPTEXTDissertacao_KilzaArruda.pdf.txtDissertacao_KilzaArruda.pdf.txtExtracted texttext/plain178957https://repositorio.pucsp.br/xmlui/bitstream/handle/11851/3/Dissertacao_KilzaArruda.pdf.txt59a4e8077c65087ac70b32e2a7dcab7eMD53ORIGINALDissertacao_KilzaArruda.pdfapplication/pdf594058https://repositorio.pucsp.br/xmlui/bitstream/handle/11851/1/Dissertacao_KilzaArruda.pdfa238824dfa6ae7f27d50010de62bd6eeMD51THUMBNAILDissertacao_KilzaArruda.pdf.jpgDissertacao_KilzaArruda.pdf.jpgGenerated Thumbnailimage/jpeg1943https://repositorio.pucsp.br/xmlui/bitstream/handle/11851/2/Dissertacao_KilzaArruda.pdf.jpgcc73c4c239a4c332d642ba1e7c7a9fb2MD52handle/118512022-04-28 07:52:12.645oai:repositorio.pucsp.br:handle/11851Biblioteca Digital de Teses e Dissertaçõeshttps://sapientia.pucsp.br/https://sapientia.pucsp.br/oai/requestbngkatende@pucsp.br||rapassi@pucsp.bropendoar:2022-04-28T10:52:12Biblioteca Digital de Teses e Dissertações da PUC_SP - Pontifícia Universidade Católica de São Paulo (PUC-SP)false |
| dc.title.por.fl_str_mv |
Achados timpanométricos em neonatos:medidas e interpretações |
| dc.title.alternative.eng.fl_str_mv |
Timpanometry in neonates: Measures and Interpretations |
| title |
Achados timpanométricos em neonatos:medidas e interpretações |
| spellingShingle |
Achados timpanométricos em neonatos:medidas e interpretações Silva, Kilza de Arruda Lyra e timpanometria em neonatos sonda de alta freqüência Testes de impedância acústica Audiologia Recem-nascido Timpanometry in neonates high-frequency probe tone CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA |
| title_short |
Achados timpanométricos em neonatos:medidas e interpretações |
| title_full |
Achados timpanométricos em neonatos:medidas e interpretações |
| title_fullStr |
Achados timpanométricos em neonatos:medidas e interpretações |
| title_full_unstemmed |
Achados timpanométricos em neonatos:medidas e interpretações |
| title_sort |
Achados timpanométricos em neonatos:medidas e interpretações |
| author |
Silva, Kilza de Arruda Lyra e |
| author_facet |
Silva, Kilza de Arruda Lyra e |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Novaes, Beatriz Cavalcanti de Albuquerque Caiuby |
| dc.contributor.author.fl_str_mv |
Silva, Kilza de Arruda Lyra e |
| contributor_str_mv |
Novaes, Beatriz Cavalcanti de Albuquerque Caiuby |
| dc.subject.por.fl_str_mv |
timpanometria em neonatos sonda de alta freqüência Testes de impedância acústica Audiologia Recem-nascido |
| topic |
timpanometria em neonatos sonda de alta freqüência Testes de impedância acústica Audiologia Recem-nascido Timpanometry in neonates high-frequency probe tone CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA |
| dc.subject.eng.fl_str_mv |
Timpanometry in neonates high-frequency probe tone |
| dc.subject.cnpq.fl_str_mv |
CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA |
| description |
Introduction. Early identification and diagnosis of hearing impairment in newborns aim at establishing adequate amplification and intervention, as early as possible, in order to reduce negative consequences in language, individual and social development of the child. Tympanometry is part of a test battery for the diagnosis of hearing losses and is used to differentiate between conductive and sensorineural hearing losses. Before six months of age the results obtained using a probe tone of 226 Hz can be misleading. Therefore many studies have been done assessing the use of a high frequency probe tone of 678 and 1000 Hz aiming at a more valid procedure. Goal. The goal of the present study was to describe and discuss interpretations and measurements obtained in timpanometry of normal hearing neonates, using tone probes of 226, 678 and 1000 Hz. The following aspects were described: tympanometric curve type, Peak Compensated Static Acoustic Admittance (Ytm), Tympanometric Width (TW), Tympanometric Peak Pressure (PPT) and Equivalent Ear Canal Volume (Vea). Method. All subjects had normal otoacoustic emissions and no risk for hearing impairment. The curves were obtained in a quiet room using a middle ear analyzer GSI 33 II with tone probes of 226, 678 and 1000 Hz. All babies were calm or sleeping during the test. Results. 110 neonates were tested with the three tone probes therefore 660 curves were obtained. Age range was 6 to 30 days (58 boys and 52 girls). When a probe tone of 226 Hz was used, single peak curve was observed in 105 (47,7%) ears and double peak was found in 115 (52,3%) ears. Results with a probe tone of 678 Hz, revealed 56 (25,4%) single peak curves, 16 (7,3%) inverted curves (I) and 148 (67,3%) asymmetric (AS). Results with a probe tone of 1000 Hz showed 156 (70,9%) single peak tympanograms, 62 (28,2%) asymmetric and 2 (0,9%) inverted. Among the quantitative measurements analyzed, Vea demonstrated a significant difference in gender with probe tones of 226 Hz. Ytm, was also significantly different by gender with the probe tone of 1000 Hz, larger for the boys. For all the other variables no significant difference was found for ear or gender. When the curves were analyzed using the protocol proposed by Sutton et al (2002), 208 (94,5%) ears were considered normal and 12 (5,5%) abnormal with the probe tone of 678 Hz. For the probe tone of 1000 Hz, 217 (98,6%) ears were considered normal, and just 3 (1,4%) of the tympanograms were classified as abnormal. Conclusion. The tympanometric findings in this study were similar to those described in the literature with prevalence of single peaked curves for the probe tone of 1000 Hz and a similar number of single and double peaked curves with the probe tone of 226 Hz. The quantitative measurements were, in general, in agreement with the literature reviewed. The interpretation of the results with the probe tone of 1000 Hz using the protocol suggested by Sutton et al (2002) was the method that allowed the classification of normal for the greatest percentage of the ears tested suggesting that it can be very useful when neonates are evaluated. Further research with this protocol is suggested. |
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2005 |
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Silva, Kilza de Arruda Lyra e. Timpanometry in neonates: Measures and Interpretations. 2005. 90 f. Dissertação (Mestrado em Fonoaudiologia) - Pontifícia Universidade Católica de São Paulo, São Paulo, 2005. |
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